In the treatment of breast cancer,the combination of glutamine metabolism inhibition and photothermal therapy(PTT)is gaining increasing attention.This study developed a Janus nanomotor to enhance permeability in tumor...In the treatment of breast cancer,the combination of glutamine metabolism inhibition and photothermal therapy(PTT)is gaining increasing attention.This study developed a Janus nanomotor to enhance permeability in tumor tissues for nanomedicine applications by using mesoporous organic silica(PMO)anisotropic ally grown on the surface of the platinum(Pt)nanoparticles(PMO@Pt).The prepared PMO@Pt had unique Janus structure with an average size of approximately 236 nm.The loading capacity of V9302 was evaluated to be 44.37%when the mass ratio of V9302 to PMO@Pt was maintained at 2.0 and in vitro release studies demonstrated that acidic environments significantly enhanced the drug release.Then this nanomotor was loaded with perfluorohexane(PFH),a phase-change material,and the glutamine inhibitor V9302(denoted as Janus PMO@Pt@PFH@V9302,JPV).Janus PMO@Pt@PFH(JPP)nanomotors demonstrated enhanced fluorescence intensity and distribution within 3D tumor spheroids compared to Janus PMO@Pt nanomotors,attributed to the photothermal-induced phase change of PFH.The nanomotors exhibited high biocompatibility,with cell viability exceeding 98%at high concentrations.However,the incorporation of V9302 into the nanomotors(JPV)significantly reduced 4T1 cell viability under laser irradiation,indicating a cytotoxic effect resulting from the synergy between photothermal therapy and glutamine metabolism inhibition.In vivo,JPV nanomotors effectively inhibited tumor growth and induced apoptosis without causing significant systemic toxicity,showcasing their potential as a therapeutic agent for breast cancer.This integrated nanomotor offers a promising approach for enhanced ultrasound imaging and photothermal therapy in cancer treatment.展开更多
It has been reported that sea cucumber intestine hydrolysates(SCIH)could promote glutamine metabolism in mice,while there is a close connection between glutamine metabolism and insulin sensitivity.However,the effect o...It has been reported that sea cucumber intestine hydrolysates(SCIH)could promote glutamine metabolism in mice,while there is a close connection between glutamine metabolism and insulin sensitivity.However,the effect of SCIH on insulin resistance is still unclear.The results showed that SCIH hydrolyzed by flavor protease had significant activity using the insulin-induced Hep G2 cell model.Animal experiments exhibited that SCIH supplementation significantly improved the high-fat and high-sucrose diet-induced impaired glucose tolerance,reduced fasting serum glucose and glycosylated serum protein.Besides,SCIH ameliorated islet vacuolization and decreased the pancreas TNF-αand IL-6 by 32.1%and 36.2%,respectively.Immunofluorescence staining results showed that SCIH promoted insulin secretion.Interestingly,SCIH significantly increased the liver glutamine levels and upregulated the expression of glutaminase1(GLS1)and glutamate dehydrogenase 1(GLUD1).Furthermore,SCIH increased liver acetyl-Co A levels to enhance histone acetylation and activate the gene transcription and translation on glucose metabolism-related IRS/PI3K/AKT signaling pathway,thereby attenuating insulin resistance.The present findings proposed the potential value for developing functional foods in SCIH utilization.展开更多
Background:Intervertebral disc degeneration(IVDD)is a multifaceted condition characterized by heterogeneity,wherein the balance between catabolism and anabolism in the extracellular matrix of nucleus pulposus(NP)cells...Background:Intervertebral disc degeneration(IVDD)is a multifaceted condition characterized by heterogeneity,wherein the balance between catabolism and anabolism in the extracellular matrix of nucleus pulposus(NP)cells plays a central role.Presently,the available treatments primarily focus on relieving symptoms associated with IVDD without offering an effective cure targeting its underlying pathophysiological processes.D-mannose(referred to as mannose)has demonstrated anti-catabolic properties in various diseases.Nevertheless,its therapeutic potential in IVDD has yet to be explored.Methods:The study began with optimizing the mannose concentration for restoring NP cells.Transcriptomic analyses were employed to identify the mediators influenced by mannose,with the thioredoxin-interacting protein(TXNIP)gene showing the most significant differences.Subsequently,small interfering RNA(siRNA)technology was used to demonstrate that TXNIP is the key gene through which mannose exerts its effects.Techniques such as colocalization analysis,molecular docking,and overexpression assays further confirmed the direct regulatory relationship between mannose and TXNIP.To elucidate the mechanism of action of mannose,metabolomics techniques were employed to pinpoint glutamine as a core metabolite affected by mannose.Next,various methods,including integrated omics data and the Gene Expression Omnibus(GEO)database,were used to validate the one-way pathway through which TXNIP regulates glutamine.Finally,the therapeutic effect of mannose on IVDD was validated,elucidating the mechanistic role of TXNIP in glutamine metabolism in both intradiscal and orally treated rats.Results:In both in vivo and in vitro experiments,it was discovered that mannose has potent efficacy in alleviating IVDD by inhibiting catabolism.From a mechanistic standpoint,it was shown that mannose exerts its anti-catabolic effects by directly targeting the transcription factor max-like protein X-interacting protein(MondoA),resulting in the upregulation of TXNIP.This upregulation,in turn,inhibits glutamine metabolism,ultimately accomplishing its anticatabolic effects by suppressing the mitogen-activated protein kinase(MAPK)pathway.More importantly,in vivo experiments have further demonstrated that compared with intradiscal injections,oral administration of mannose at safe concentrations can achieve effective therapeutic outcomes.Conclusions:In summary,through integrated multiomics analysis,including both in vivo and in vitro experiments,this study demonstrated that mannose primarily exerts its anti-catabolic effects on IVDD through the TXNIP-glutamine axis.These findings provide strong evidence supporting the potential of the use of mannose in clinical applications for alleviating IVDD.Compared to existing clinically invasive or pain-relieving therapies for IVDD,the oral administration of mannose has characteristics that are more advantageous for clinical IVDD treatment.展开更多
Transfer RNAs(tRNAs)adopt a stable L-shaped tertiary structure crucial for their involvement in protein translation.Among various divalent metal ions,magnesium ions play a pivotal role in preserving the tertiary struc...Transfer RNAs(tRNAs)adopt a stable L-shaped tertiary structure crucial for their involvement in protein translation.Among various divalent metal ions,magnesium ions play a pivotal role in preserving the tertiary structure of tRNA.However,the precise location of the Mg^(2+)binding pocket in human tRNA remains elusive.In this investigation,we identified the Mg^(2+)binding site within human tRNAGln using suppressor tRNA^(Gln).This variant of tRNA recognizes premature stop codons(specificlly UAG)and facilitates the expression of fll-length proteis.By mutating sites 8 and C72 in supprssr tRNAcl,we assessed the decoding efficiency of the resulting mutant suppressor tRNAs,which serves as a measure of tRNA's ability to decode genetic information.Our analysis revealed that the U8C mutant suppressor tRNA exhibited a significantly lower Mg^(2+)content compared to the C72U mutant.Furthermore,we observed a notable reduction in decoding efficiency in the U8-mutated suppressor tRNA,as evidenced by GFP fluorescence and Western blotting analysis.Conversely,mutations at the C72 site had a comparatively minor impact on decoding efficiency.These findings underscored the tight binding of Mg^(2+)to the U8 site of human tRNAGln,crucial for maintaining the stability of tRNA tertiary structure and translation efficacy.Additionally,our investigation delved into the influence of glutamine availability on tRNA decoding efficiency at the cellular level.The results indicated that both the concentration of amino acids and the codon context of TAG could modulate tRNA decoding efficiency.This study provided valuable insights into the structure and function of tRNA,laying the groundwork for further exploration in this field.展开更多
Colonic mucus and gut microbiota closely linked through mutual regulatory effect.While their alterations during sepsis and whether glutamine can maintain the colonic mucus barrier and gut microbiota stability are uncl...Colonic mucus and gut microbiota closely linked through mutual regulatory effect.While their alterations during sepsis and whether glutamine can maintain the colonic mucus barrier and gut microbiota stability are unclear.Cecal ligation and puncture-induced sepsis in mice was utilized to observe changes in colonic mucus,gut microbiota,and their interaction with glutamine intervention.Our findings indicated that glutamine mitigated sepsis-induced intestinal damage and restores colonic mucus barrier function by augmenting mucin synthesis.Further analysis revealed that goblet cells were under oxidative stress after sepsis,resulting in anterior gradient-2(AGR2),the key mucin-modifying enzyme,being dissynthesized,and inhibiting mucin 2(MUC2)maturation.Glutamine could ameliorates this situation by promoting the key enzyme glucose-6-phosphate dehydrogenase(G6PD)glycosylation in the pentose phosphate pathway,increasing the reduced nicotinamide adenine dinucleotide phosphate(NADPH)synthesis,reducing endoplasmic reticulum stress,and accelerating AGR2 synthesis and MUC2 maturation.Additionally,glutamine aided in maintaining gut microbiota stability during sepsis,up-regulating mucin-associated bacteria such as Akkermansia and Alistipes.These bacteria,intimately linked to mucin synthesis and degradation,may impact intestinal mucus stability.In conclusion,glutamine can maintain goblet cell redox balance,promotes AGR2 synthesis and MUC2 maturation,shields the mucus barrier,and potentially maintains gut microbiota stability by regulating the interaction between bacteria and mucus,thus alleviating sepsis-induced intestinal damage.展开更多
In rice (Oryza sativa L.) roots two glutamine synthetase (GS) isozymes, GSra and GSrb, were identified recently in the author's experiments, but the homology of both GSra and GSrb as well as their localization in ...In rice (Oryza sativa L.) roots two glutamine synthetase (GS) isozymes, GSra and GSrb, were identified recently in the author's experiments, but the homology of both GSra and GSrb as well as their localization in the rice roots are unclear. In the present study, the purified GSra and GSrb from rice roots were used to immunize rabbits to obtain the respective antibodies. The immunodiffusion and immunoblotting experiments showed that the antibody against GSra or GSrb was specific for GS and its isozymes. The immunoprecipitation test indicated that the antibody of GSra or GSrb not only recognized its respective antigen, but also well recognized each other's antigen. GSra or GSrb antibody recognized also better cytosolic GS1 of rice leaves, but the recognization for chloroplast GS2 from rice or spinach (Spinacia oleracea Mill.) leaves was weaker. Our results indicate that GSra and GSrb from rice roots are quite similar in antigenicity and are extremely similar proteins and that both GSra and GSrb may also be a form of cytosolic GS just as the cytosolic GS1 of rice leaves.展开更多
The effects of the supplementation with L-glutamine(GLN)or L-alanyl-L-glutamine(GDP)on the progression of the systemic and hepatic metabolic status of rats having untreated type 1 diabetes mellitus(T1DM)were investiga...The effects of the supplementation with L-glutamine(GLN)or L-alanyl-L-glutamine(GDP)on the progression of the systemic and hepatic metabolic status of rats having untreated type 1 diabetes mellitus(T1DM)were investigated.Male Wistar diabetic rats(streptozotocin,60 mg/kg)were allotted to four groups supplemented by gavage for thirty days as follows:control and diabetic receiving saline;diabetic receiving GLN(248 mg/kg);and diabetic receiving GDP(400 mg/kg).Body weight,plasmatic parameters and kidney function were analyzed.Isolated hepatocytes were used to assess gluconeogenic capacity.Liver and kidney were used for morphological analyses.T1DM decreased the number and increased the area of the hepatocytes,possibly because of the observed enlargement of glycogen stores.Kidney weight,glomerular area and proteinuria increased,and glomerular filtration rate decreased,in non-supplemented T1DM rats.Glomerular area and proteinuria were reversed by both supplementations.The T1DM hepatocytes released less glucose,which could have been diverted to glycogen synthesis and secondary glycogenosis observed in T1DM;this was partially reversed by the supplementations.The results point to a possible beneficial effect of glutamine on the metabolic and hepatic impairments of T1DM.展开更多
In some species of growing mammals glutamine is an essential amino acid that,if inadequate in the diet,is needed for normal growth and development.It is thus sometimes considered to be a conditionally essential amino ...In some species of growing mammals glutamine is an essential amino acid that,if inadequate in the diet,is needed for normal growth and development.It is thus sometimes considered to be a conditionally essential amino acid in some species.A review of studies that have measured L-glutamine concentrations([glutamine])in horses demonstrates that plasma[glutamine]has routinely been reported to be much lower(~330μmol/L)than in other mammals(>600μmol/L).Plasma[glutamine]represents the balance between intestinal transport into the blood after hepatic first pass,tissue synthesis and cellular extraction.The hypothesis is proposed that sustained low plasma[glutamine]represents a chronic state of sub-optimal glutamine intake and glutamine synthesis that does not meet the requirements for optimum health.While this may be without serious consequence in feral and sedentary horses,there is evidence that provision of supplemental dietary glutamine ameliorates a number of health consequences,particularly in horses with elevated metabolic demands.The present review provides evidence that glutamine is very important(and perhaps essential)for intestinal epithelial cells in mammals including horses,that horses with low plasma[glutamine]represents a sub-optimal state of well-being,and that horses supplemented with glutamine exhibit physiological and health benefits.展开更多
AIM: To investigate the protective effect of glutamine (Gln) on intestinal injury and the bacterial community in rats exposed to hypobaric hypoxia environment.
Background: Creep feeding is used to stimulate piglet post-weaning feed consumption.L-Glutamine(GLN) is an important source of fuel for intestinal epithelial cells.The objective of this study was to determine the i...Background: Creep feeding is used to stimulate piglet post-weaning feed consumption.L-Glutamine(GLN) is an important source of fuel for intestinal epithelial cells.The objective of this study was to determine the impact of creep feeding and adding GLN or AminoGut(AG;containing glutamine + glutamate) to pre-and post-weaning diets on pig performance and intestinal health.Litters(N = 120) were allotted to four treatments during 14–21 d of lactation: 1) No creep feed(NC,n = 45);2) creep fed control diet(CFCD,n = 45);3) creep fed 1% GLN(CFGLN,n = 15);4) creep fed.88% AG(CFAG,n = 15).After weaning,the NC and CFCD groups were sub-divided into three groups(n = 15 each),receiving either a control nursery diet(NC-CD,CFCD-CD) or a diet supplemented with either GLN(NC-GLN,CFCD-GLN) or with AG(NC-AG,CFCD-AG).Litters that were creep fed with diets containing GLN or AG also were supplemented with those amino acids in the nursery diets(CFGLN-GLN,CFAG-AG).Glutamine was added at 1% in all three post-weaning diet phases and AG was added at.88% in phase 1 and 2 and at.66% in phase 3.Results: Feed conversion(feed/gain) showed means among treatment means close to significance(P = 0.056) and Tukey's test for pairwise mean comparisons showed that Pigs in the CFGLN-GLN group had the best feed conversion(feed/gain) in the first three-week period post-weaning,exceeding(P = 0.044) controls(CFCD-CD) by 34%.The NC-AG group had(P = 0.02) the greatest feed intake in the last three week of the study,exceeding controls(CFCD-CD) by 12%.CFGLN-GLN,CFCD-GLN and sow reared(SR) pigs had the greatest(P = 0.049) villi height exceeding the CFCD-AG group by 18%,20% and 19% respectively.The CFAG-AG group had the deepest(P = 0.001) crypts among all treatments.CFGLN-GLN,CFCD-GLN and SR groups had the greatest(P = 0.001) number of cells proliferating(PCNA) exceeding those in the NC-CD group by 43%,54% and 63% respectively.Sow reared pigs showed the greatest(P = 0.001) intestinal absorption capacity for xylose and mannitol.Conclusion: Supplementation of creep feed and nursery diets with GLN and/or AminoGut in the first three week improved feed conversion possibly due to improved intestinal health.展开更多
AIM To investigate the relationship between alanyl-glutamine (ALA-GLN) and glutathione (GSH) biosynthesis in hepatic protection.METHODS Twenty male Wistar rats were randomly divided into two groups: one receiving stan...AIM To investigate the relationship between alanyl-glutamine (ALA-GLN) and glutathione (GSH) biosynthesis in hepatic protection.METHODS Twenty male Wistar rats were randomly divided into two groups: one receiving standard parenteral nutrition (STD) and the other supplemented with or without ALA-GLN for 7 days. The blood and liver tissue samples were examined after 5-fluorouracil (5-FU) was injected peritoneally.RESULTS The concentration measurements were significantly higher in ALA-GLN group than in STD group in serum GLN (687 μmol/ L±50 μmol/ L vs 505 μmol/ L±39 μmol/ L, P<0.05), serum GSH (14 μmol/ L±5 μmol/ L vs 7 μmol/ L±3 μmol/ L, P<0.01) and in liver GSH content (6.9 μmol/ g±2.5 μmol/ g vs 4.4 μmol/ g±1.6 μmol/ g liver tissue, P<0.05). Rats in ALA-GLN group had lesser elevations in hepatic enzymes after 5-FU administration.CONCLUSION The supplemented nutrition ALA-GLN can protect the liver function through increasing the glutathione biosynthesis and preserving the glutathione stores in hepatic tissue.展开更多
AIM: To evaluate the in vivo effect of glutamine on cobaltgenerated oxidative stress and (HO-1) induction in rat liver.METHODS: Fasted female Wistar rats received a single injection of cobalt chloride (375 μmol/kg bo...AIM: To evaluate the in vivo effect of glutamine on cobaltgenerated oxidative stress and (HO-1) induction in rat liver.METHODS: Fasted female Wistar rats received a single injection of cobalt chloride (375 μmol/kg body weight) and then were killed at different times. Lipid peroxidation and soluble and enzymatic antioxidant defense system (reduced glutathione (GSH), catalase (CAT), glutathione peroxidase (GSH-Px) and superoxide dismutase (SOD)) were measured in liver homogenates. Ferritin and ferritin iron contents as well as heme oxygenase-1 (HO-1) activity and expression were also determined. The antioxidant properties of glutamine (Gin) were also evaluated. RESULTS: Cobalt chloride increased lipid peroxidation (50% over control values) 1 h after treatment. GSH reached a minimum at 3 h (40%) increasing thereafter. Twelve hours after CoCl2 injection, the antioxidant enzymes CAT, GSH-Px and SOD also diminished by about 30%. Heme oxygenase-1 induction was observed 6 h after treatment reaching a maximum value of 14-fold over the controls, 12 h after cobalt treatment. A 1.7-fold increase in ferritin and ferritin-bound iron 24 h after treatment were also obtained. Administration of glutamine (300 mg/kg body weight) by gavage 24 h before CoCl2 treatment entirely prevented the increase in thiobarbituric acid reactive substances (TBARS) content, the decrease in GSH levels, and partially reverted heme oxygenase-1 induction. CONCLUSION: These results suggested that a natural product such as glutamine prevents glutathione depletion and consequently heme oxygenase induction.展开更多
The objective is to study whether the accumulation and utilization of plant N are controlled by Mo status in winter wheat cultivars. Mo-efficient cultivar 97003 (eft) and Mo-inefficient cultivar 97014 (ineff) were...The objective is to study whether the accumulation and utilization of plant N are controlled by Mo status in winter wheat cultivars. Mo-efficient cultivar 97003 (eft) and Mo-inefficient cultivar 97014 (ineff) were grown in severely Mo-deficient acidic soil (Tamm-reagent-extractable Mo 0.112 mg kg^-1) with (+Mo) and without (-Mo) the application of 0.13 mg kg^-1 Mo. The accumulation and use efficiency of plant total N were significantly higher in +Mo than that in -Mo and in eft than that in ineff under Mo deficiency. N use efficiency was remarkably higher in maturity but it was forwarded to jointing stage after Mo supply, thus indicating that Mo supply promoted the N use efficiency besides N uptake and eff was efficient in N uptake and utilization. The overall activity of nitrate reductase (NR, EC 1.6.6.1) was significantly higher in +Mo than in -Mo and ratio of +Mo/-Mo was even to 14.8 at filleting stage for ineff. Activity of glutamine synthetase (GS, EC 6.3.1.2) was significantly lower in +Mo than in -Mo. Concentration of nitrate and glutamate were also significantly lower in +Mo than in -Mo, thus provided evidences for enhancing N use efficiency by Mo supply. Activities of NR and GS were significantly higher and concentrations of nitrate and glutamate were significantly lower in eff than ineff under Mo deficiency, thus indicated eff was more efficient in N reduction and utilization. It is therefore concluded that Mo could promote N accumulation and utilization in winter wheat which was directly related to NR and feedback regulated by GS. Higher Mo status also results in higher accumulation and utilization of plant N in eft.展开更多
Real-time polymerase chain reaction analysis was used to compare the effect of NO3^- on the activities of nitrate reductase (NR) and glutamine synthetase (GS), and the transcript levels of two NR genes, OsNial and...Real-time polymerase chain reaction analysis was used to compare the effect of NO3^- on the activities of nitrate reductase (NR) and glutamine synthetase (GS), and the transcript levels of two NR genes, OsNial and OsNia2, two cytosolic GS1 genes, OsGln1;1 and OsGln1;2, and one plastid GS2 gene OsGln2, in two rice (Oryza sativa L.) cultivars Nanguang (NG) and Yunjing (Y J). Both cultivars achieved greater biomass and higher total N concentration when grown in a mixed N supply than in sole NH4^+ nutrition. Supply of NO3^- increased NR activity in both leaves and roots. Expression of both NR genes was also substantially enhanced and transcript levels of OsNia2 were significantly higher than those of OsNial. NO3 also caused an increase in GS activity, but had a complex effect on the expression of the three GS genes. In roots, the OsGln1;1 transcript increased, but OsGln1;2 decreased. In leaves, NO3^- had no effect on the GS1 expression, but the transcript for OsGln2 increased both in the leaves and roots of rice with a mixed supply of N. These results suggested that the increase in GS activity might be a result of the complicated regulation of the various GS genes. In addition, the NO3-induced increase of biomass, NR activity, GS activity, and the transcript levels of NR and GS genes were proportionally higher in NG than in Y J, indicating a stronger response of NG to NO3^- nutrition than YJ.展开更多
AIM To assess the effect of enteral nutrition(EN) supplemented with glutamine on recovery after ileal pouch-anal anastomosis(IPAA) in rats, to provide an experimental basis for nutritional support in patients with ulc...AIM To assess the effect of enteral nutrition(EN) supplemented with glutamine on recovery after ileal pouch-anal anastomosis(IPAA) in rats, to provide an experimental basis for nutritional support in patients with ulcerative colitis(UC) after IPAA. METHODS Male Sprague-Dawley(SD) rats were randomly divided into three groups(n = 8) after IPAA operation using a microsurgical technique. From the third postoperative day, rats in the control group, EN group, and immune nutrition(IN) group were fed standard rat chow, short peptide EN, and short peptide EN combined with glutamine ad libitum, respectively. The rats' general condition was observed throughout the study. Serum levels of total protein(TP), albumin(ALB), prealbumin(PA), and transferrin(TF) were detected on the 30 th postoperative day, using an automatic biochemical analyzer. The ileal pouch mucosa was stained with hematoxylin and eosin(HE), and occludin protein levels were detected by immunohistochemistry.RESULTS The body weight of rats in the EN group(359.20 ± 10.06 g) was significantly higher than that in the control group(344.00 ± 9.66 g)(P < 0.05) and lower than that in the IN group(373.60 ± 9.86 g)(P < 0.05) on the 30 th postoperative day. The levels of serum TP, ALB, PA, and TF in the EN group were significantly higher than those in the control group(P < 0.01 for all) and lower than those in the IN group(P < 0.05 for all). Histopathological score(EN: 0.80 ± 0.37; IN: 0.60 ± 0.40; control group: 2.29 ± 0.18) and expression level of occludin protein(EN: 0.182 ± 0.054; IN: 0.188 ± 0.048; control group: 0.127 ± 0.032) were significantly lower in the control group compared with the EN and IN groups(P < 0.05 for all), but there were no significant differences between the latter two groups(P > 0.05 for all). CONCLUSION EN combined with glutamine may effectively improve nutritional status after IPAA. Our results suggest a benefit of glutamine supplementation in EN for UC patients undergoing IPAA, although human studies are required to confirm this finding.展开更多
AIM: To assess the clinical and economical validity of glutamine dipeptide supplemented to parenteral nutrition (PN) in patients undergoing abdominal surgery. METHODS: A meta-analysis of all the relevant randomized co...AIM: To assess the clinical and economical validity of glutamine dipeptide supplemented to parenteral nutrition (PN) in patients undergoing abdominal surgery. METHODS: A meta-analysis of all the relevant randomized controlled trials (RCTs) was performed. The trials compared the standard PN and PN supplemented with glutamine dipeptide in abdominal surgery. RCTs were identified from the following electronic databases: the Cochrane Library, MEDLINE, EMBASE and ISI web of knowledge (SCI). The search was undertaken in April 2006. Literature references were checked by computer or hand at the same time. Clinical trials were extracted and evaluated by two reviewers independently. Statistical analysis was performed by RevMan4.2 software from Cochrane Collaboration. A P value of < 0.05 was considered statistically significant. RESULTS: Nine RCTs involving 373 patients were included. The combined results showed that glutamine dipeptide has a positive effect in improving postoperative cumulative nitrogen balance (weighted mean difference (WMD = 8.35, 95% CI [2.98, 13.71], P = 0.002), decreasing postoperative infectious morbidity (OR = 0.24, 95% CI [0.06, 0.93], P = 0.04), shortening the length of hospital stay (WMD= -3.55, 95% CI [-5.26, -1.84], P < 0.00001). No serious adverse effects were found. CONCLUSION: Postoperative PN supplemented with glutamine dipeptide is effective and safe to decrease the infectious rate, reduce the length of hospital stay and improve nitrogen balance in patients undergoing abdominal surgery. Further high quality trials in children and severe patients are required, and mortality and hospital cost should be considered in future RCTs with sufficient size and rigorous design.展开更多
AIM: To investigate the effects of glutamine on oxidative/nitrosative stress and the vascular endothelial growth factor (VEGF)-Akt-endothelial nitric oxide synthase (eNOS) signaling pathway in an experimental model of...AIM: To investigate the effects of glutamine on oxidative/nitrosative stress and the vascular endothelial growth factor (VEGF)-Akt-endothelial nitric oxide synthase (eNOS) signaling pathway in an experimental model of portal hypertension induced by partial portal vein ligation (PPVL). METHODS: Portal hypertension was induced by PPVL. The PPVL model consists of a partial obstruction of the portal vein, performed using a 20 G blunt needle as a guide, which is gently removed after the procedure. PPVL model was performed for 14 d beginning treatment with glutamine on the seventh day. On the fifteenth day, the mesenteric vein pressure was checked and the stomach was removed to test immunoreactivity and oxidative stress markers. We evaluated the expression and the immunoreactivity of proteins involved in the VEGF-Akt-eNOS pathway by Western blotting and immunohistochemical analysis. Oxidative stress was measured by quantification of the cytosolic concentration of thiobarbituric acid reactive substances (TBARS) as well as the levels of total glutathione (GSH), superoxide dismutase (SOD) activity, nitric oxide (NO) production and nitrotyrosine immunoreactivity. RESULTS: All data are presented as the mean ± SE. The production of TBARS and NO was significantly increased in PPVL animals. A reduction of SOD activity was detected in PPVL + G group. In the immunohistochemical analyses of nitrotyrosine, Akt and eNOS, the PPVL group exhibited significant increases, whereas decreases were observed in the PPVL + G group, but no difference in VEGF was detected between these groups. Western blotting analysis detected increased expression of phosphatidylinositol-3-kinase (PI3K), P-Akt and eNOS in the PPVL group compared with the PPVL + G group, which was not observed for the expression of VEGF when comparing these groups. Glutamine administration markedly alleviated oxidative/nitrosative stress, normalized SOD activity, increased levels of total GSH and blocked NO overproduction as well as the formation of peroxynitrite. CONCLUSION: Glutamine treatment demonstrated to reduce oxidative damage but does not reduce angiogenesis induced by PH in gastric tissue, demonstrating a beneficial role for the PI3K-Akt-eNOS pathway.展开更多
AIM:To assess whether glutamate plays a similar role to glutamine in preserving gut wall integrity.METHODS:The effects of glutamine and glutamate on induced hyperpermeability in intestinal cell lines were studied.Para...AIM:To assess whether glutamate plays a similar role to glutamine in preserving gut wall integrity.METHODS:The effects of glutamine and glutamate on induced hyperpermeability in intestinal cell lines were studied.Paracellular hyperpermeability was induced in Caco2.BBE and HT-29CL.19A cell lines by adding phorbol-12,13-dibutyrate(PDB) apically,after which the effects of glutamine and glutamate on horseradish peroxidase(HRP) diffusion were studied.An inhibitor of glutamate transport(L-trans-pyrrolidine-2,4-dicarboxylic acid:trans-PDC) and an irreversible blocker(acivicin) of the extracellular glutamine to glutamate converting enzyme,γ-glutamyltransferase,were used.RESULTS:Apical to basolateral HRP flux increased significantly compared to controls not exposed to PDB (n=30,P<0.001).Glutamine application reduced hyperpermeability by 19%and 39%in the respective cell lines.Glutamate application reduced hyperpermeability by 30%and 20%,respectively.Incubation of HT29CL.19A cells with acivicin and subsequent PDB and glutamine addition increased permeability levels.Incubation of Caco2.BBE cells with trans-PDC followed by PDB and glutamate addition also resulted in high permeability levels.CONCLUSION:Apical glutamate-similar to glutaminecan decrease induced paracellular hyperpermeability.Extracellular conversion of glutamine to glutamate and subsequent uptake of glutamate could be a pivotal step in the mechanism underlying the protective effect of glutamine.展开更多
BACKGROUND:Hepatocellular carcinoma(HCC)is a highly malignant tumor with a poor prognosis.Because small HCCs possess most of the characteristics of early HCC,we investigated small HCCs to screen potential biomarkers f...BACKGROUND:Hepatocellular carcinoma(HCC)is a highly malignant tumor with a poor prognosis.Because small HCCs possess most of the characteristics of early HCC,we investigated small HCCs to screen potential biomarkers for early diagnosis.METHODS:Proteins were extracted from 10 sets of paired tissue samples from HBV-infected small-HCC patients.The extracted proteins were well resolved by two-dimensional electrophoresis.These HCC-associated proteins were then identified by MALDI-TOF/TOF MS following image analysis.Western blotting and immunohistochemistry were used to assess glutamine synthetase(GS)and phenazine biosynthesislike domain-containing protein(PBLD)expression in liver tissue.Enzyme-linked immunosorbent assays in 152 serum samples(from 49 healthy donors,24 patients with liver cirrhosis,and 79 with HCC)were used to further assess the significance of GS clinically.RESULTS:Fifteen up-regulated and three down-regulated proteins were identified.Western blotting confirmed GS overexpression and decreased PBLD expression in liver tissue.Immunohistochemistry showed that GS was expressed in 70.0%(84/120)of HCCs and 35.8%(43/120)of nontumor tissues;PBLD was expressed in 74.2%(89/120) of nontumor tissues and 40.8%(49/120)of HCCs.The Chi-square test showed significant expression differences between HCCs and adjacent tissues.Consistent with this,serum GS levels in HCC patients were significantly higher than those in liver cirrhosis patients and healthy donors,while the latter two groups were also significantly different.In addition, a diagnostic cutoff value of 2.6 mg/ml was used for GS;it was elevated in 19(76.0%)of 25 HCC patients with AFP≤20 ng/ml and 47(88.7%)of 53 HCC patients with AFP≤200 ng/ml.CONCLUSION:GS and PBLD are abnormally expressed in most HCCs.GS may be a novel serum marker for early HCC, especially for those patients with low AFP levels(≤200 ng/ml).展开更多
Among the different targets of administered drugs,there are membrane transporters that play also a role in drug delivery and disposition.Moreover,drug-transporter interactions are responsible for off-target effects of...Among the different targets of administered drugs,there are membrane transporters that play also a role in drug delivery and disposition.Moreover,drug-transporter interactions are responsible for off-target effects of drugs underlying their toxicity.The improvement of the drug design process is subjected to the identification of those membrane transporters mostly relevant for drug absorption,delivery and side effect production.A peculiar group of proteins with great relevance to pharmacology is constituted by the membrane transporters responsible for managing glutamine traffic in different body districts.The interest around glutamine metabolism lies in its physio-pathological role;glutamine is considered a conditionally essential amino acid because highly proliferative cells have an increased request of glutamine that cannot be satisfied only by endogenous synthesis.Then,glutamine transporters provide cells with this special nutrient.Among the glutamine transporters,SLC1A5,SLC6A14,SLC6A19,SLC7A5,SLC7A8 and some members of SLC38 family are the best characterized,so far,in both physiological and pathological conditions.Few 3D structures have been solved by CryoEM;other structural data on these transporters have been obtained by computational analysis.Interactions with drugs have been described for several transporters of this group.For some of them,the studies are at an advanced stage,for others,the studies are still in nuce and novel biochemical findings open intriguing perspectives.展开更多
基金financially supported by the Major Basic Research Fund of Jiangsu Province Hospital(No.TS202401)Jiangsu Province Hospital High-level Talent Cultivation Program(PhaseⅠ)(No.CZ0121002010039)
文摘In the treatment of breast cancer,the combination of glutamine metabolism inhibition and photothermal therapy(PTT)is gaining increasing attention.This study developed a Janus nanomotor to enhance permeability in tumor tissues for nanomedicine applications by using mesoporous organic silica(PMO)anisotropic ally grown on the surface of the platinum(Pt)nanoparticles(PMO@Pt).The prepared PMO@Pt had unique Janus structure with an average size of approximately 236 nm.The loading capacity of V9302 was evaluated to be 44.37%when the mass ratio of V9302 to PMO@Pt was maintained at 2.0 and in vitro release studies demonstrated that acidic environments significantly enhanced the drug release.Then this nanomotor was loaded with perfluorohexane(PFH),a phase-change material,and the glutamine inhibitor V9302(denoted as Janus PMO@Pt@PFH@V9302,JPV).Janus PMO@Pt@PFH(JPP)nanomotors demonstrated enhanced fluorescence intensity and distribution within 3D tumor spheroids compared to Janus PMO@Pt nanomotors,attributed to the photothermal-induced phase change of PFH.The nanomotors exhibited high biocompatibility,with cell viability exceeding 98%at high concentrations.However,the incorporation of V9302 into the nanomotors(JPV)significantly reduced 4T1 cell viability under laser irradiation,indicating a cytotoxic effect resulting from the synergy between photothermal therapy and glutamine metabolism inhibition.In vivo,JPV nanomotors effectively inhibited tumor growth and induced apoptosis without causing significant systemic toxicity,showcasing their potential as a therapeutic agent for breast cancer.This integrated nanomotor offers a promising approach for enhanced ultrasound imaging and photothermal therapy in cancer treatment.
基金supported by National Key Research and Development Program of China(2023YFF1103901)the Taishan Scholars Program(tstp20240812)+2 种基金China Postdoctoral Science Foundation(2024M763107)Postdoctoral Fellowship Program of CPSF(GZC20241617)Youth Innovation Team Program of Universities in Shandong Province(2023KJ040)。
文摘It has been reported that sea cucumber intestine hydrolysates(SCIH)could promote glutamine metabolism in mice,while there is a close connection between glutamine metabolism and insulin sensitivity.However,the effect of SCIH on insulin resistance is still unclear.The results showed that SCIH hydrolyzed by flavor protease had significant activity using the insulin-induced Hep G2 cell model.Animal experiments exhibited that SCIH supplementation significantly improved the high-fat and high-sucrose diet-induced impaired glucose tolerance,reduced fasting serum glucose and glycosylated serum protein.Besides,SCIH ameliorated islet vacuolization and decreased the pancreas TNF-αand IL-6 by 32.1%and 36.2%,respectively.Immunofluorescence staining results showed that SCIH promoted insulin secretion.Interestingly,SCIH significantly increased the liver glutamine levels and upregulated the expression of glutaminase1(GLS1)and glutamate dehydrogenase 1(GLUD1).Furthermore,SCIH increased liver acetyl-Co A levels to enhance histone acetylation and activate the gene transcription and translation on glucose metabolism-related IRS/PI3K/AKT signaling pathway,thereby attenuating insulin resistance.The present findings proposed the potential value for developing functional foods in SCIH utilization.
基金supported by the National Key Research and Development Program of China(2020YFB1711505).
文摘Background:Intervertebral disc degeneration(IVDD)is a multifaceted condition characterized by heterogeneity,wherein the balance between catabolism and anabolism in the extracellular matrix of nucleus pulposus(NP)cells plays a central role.Presently,the available treatments primarily focus on relieving symptoms associated with IVDD without offering an effective cure targeting its underlying pathophysiological processes.D-mannose(referred to as mannose)has demonstrated anti-catabolic properties in various diseases.Nevertheless,its therapeutic potential in IVDD has yet to be explored.Methods:The study began with optimizing the mannose concentration for restoring NP cells.Transcriptomic analyses were employed to identify the mediators influenced by mannose,with the thioredoxin-interacting protein(TXNIP)gene showing the most significant differences.Subsequently,small interfering RNA(siRNA)technology was used to demonstrate that TXNIP is the key gene through which mannose exerts its effects.Techniques such as colocalization analysis,molecular docking,and overexpression assays further confirmed the direct regulatory relationship between mannose and TXNIP.To elucidate the mechanism of action of mannose,metabolomics techniques were employed to pinpoint glutamine as a core metabolite affected by mannose.Next,various methods,including integrated omics data and the Gene Expression Omnibus(GEO)database,were used to validate the one-way pathway through which TXNIP regulates glutamine.Finally,the therapeutic effect of mannose on IVDD was validated,elucidating the mechanistic role of TXNIP in glutamine metabolism in both intradiscal and orally treated rats.Results:In both in vivo and in vitro experiments,it was discovered that mannose has potent efficacy in alleviating IVDD by inhibiting catabolism.From a mechanistic standpoint,it was shown that mannose exerts its anti-catabolic effects by directly targeting the transcription factor max-like protein X-interacting protein(MondoA),resulting in the upregulation of TXNIP.This upregulation,in turn,inhibits glutamine metabolism,ultimately accomplishing its anticatabolic effects by suppressing the mitogen-activated protein kinase(MAPK)pathway.More importantly,in vivo experiments have further demonstrated that compared with intradiscal injections,oral administration of mannose at safe concentrations can achieve effective therapeutic outcomes.Conclusions:In summary,through integrated multiomics analysis,including both in vivo and in vitro experiments,this study demonstrated that mannose primarily exerts its anti-catabolic effects on IVDD through the TXNIP-glutamine axis.These findings provide strong evidence supporting the potential of the use of mannose in clinical applications for alleviating IVDD.Compared to existing clinically invasive or pain-relieving therapies for IVDD,the oral administration of mannose has characteristics that are more advantageous for clinical IVDD treatment.
基金National Natural Science Foundation of China(Grant No.U23A20106)National Key Research and Development Program of China(Grant No.91510100MA6CG8UJ4K)。
文摘Transfer RNAs(tRNAs)adopt a stable L-shaped tertiary structure crucial for their involvement in protein translation.Among various divalent metal ions,magnesium ions play a pivotal role in preserving the tertiary structure of tRNA.However,the precise location of the Mg^(2+)binding pocket in human tRNA remains elusive.In this investigation,we identified the Mg^(2+)binding site within human tRNAGln using suppressor tRNA^(Gln).This variant of tRNA recognizes premature stop codons(specificlly UAG)and facilitates the expression of fll-length proteis.By mutating sites 8 and C72 in supprssr tRNAcl,we assessed the decoding efficiency of the resulting mutant suppressor tRNAs,which serves as a measure of tRNA's ability to decode genetic information.Our analysis revealed that the U8C mutant suppressor tRNA exhibited a significantly lower Mg^(2+)content compared to the C72U mutant.Furthermore,we observed a notable reduction in decoding efficiency in the U8-mutated suppressor tRNA,as evidenced by GFP fluorescence and Western blotting analysis.Conversely,mutations at the C72 site had a comparatively minor impact on decoding efficiency.These findings underscored the tight binding of Mg^(2+)to the U8 site of human tRNAGln,crucial for maintaining the stability of tRNA tertiary structure and translation efficacy.Additionally,our investigation delved into the influence of glutamine availability on tRNA decoding efficiency at the cellular level.The results indicated that both the concentration of amino acids and the codon context of TAG could modulate tRNA decoding efficiency.This study provided valuable insights into the structure and function of tRNA,laying the groundwork for further exploration in this field.
基金supported by the National Natural Science Foundation of China(82172202)Innovative Leading Talents Project of Chongqing(cstc2022ycjh-bgzxm0148)+1 种基金the Project of NINGBO Leading Medical&Health Discipline(2022-F17)Ningbo Top Medical and Health Research Program(2023030615).
文摘Colonic mucus and gut microbiota closely linked through mutual regulatory effect.While their alterations during sepsis and whether glutamine can maintain the colonic mucus barrier and gut microbiota stability are unclear.Cecal ligation and puncture-induced sepsis in mice was utilized to observe changes in colonic mucus,gut microbiota,and their interaction with glutamine intervention.Our findings indicated that glutamine mitigated sepsis-induced intestinal damage and restores colonic mucus barrier function by augmenting mucin synthesis.Further analysis revealed that goblet cells were under oxidative stress after sepsis,resulting in anterior gradient-2(AGR2),the key mucin-modifying enzyme,being dissynthesized,and inhibiting mucin 2(MUC2)maturation.Glutamine could ameliorates this situation by promoting the key enzyme glucose-6-phosphate dehydrogenase(G6PD)glycosylation in the pentose phosphate pathway,increasing the reduced nicotinamide adenine dinucleotide phosphate(NADPH)synthesis,reducing endoplasmic reticulum stress,and accelerating AGR2 synthesis and MUC2 maturation.Additionally,glutamine aided in maintaining gut microbiota stability during sepsis,up-regulating mucin-associated bacteria such as Akkermansia and Alistipes.These bacteria,intimately linked to mucin synthesis and degradation,may impact intestinal mucus stability.In conclusion,glutamine can maintain goblet cell redox balance,promotes AGR2 synthesis and MUC2 maturation,shields the mucus barrier,and potentially maintains gut microbiota stability by regulating the interaction between bacteria and mucus,thus alleviating sepsis-induced intestinal damage.
文摘In rice (Oryza sativa L.) roots two glutamine synthetase (GS) isozymes, GSra and GSrb, were identified recently in the author's experiments, but the homology of both GSra and GSrb as well as their localization in the rice roots are unclear. In the present study, the purified GSra and GSrb from rice roots were used to immunize rabbits to obtain the respective antibodies. The immunodiffusion and immunoblotting experiments showed that the antibody against GSra or GSrb was specific for GS and its isozymes. The immunoprecipitation test indicated that the antibody of GSra or GSrb not only recognized its respective antigen, but also well recognized each other's antigen. GSra or GSrb antibody recognized also better cytosolic GS1 of rice leaves, but the recognization for chloroplast GS2 from rice or spinach (Spinacia oleracea Mill.) leaves was weaker. Our results indicate that GSra and GSrb from rice roots are quite similar in antigenicity and are extremely similar proteins and that both GSra and GSrb may also be a form of cytosolic GS just as the cytosolic GS1 of rice leaves.
文摘The effects of the supplementation with L-glutamine(GLN)or L-alanyl-L-glutamine(GDP)on the progression of the systemic and hepatic metabolic status of rats having untreated type 1 diabetes mellitus(T1DM)were investigated.Male Wistar diabetic rats(streptozotocin,60 mg/kg)were allotted to four groups supplemented by gavage for thirty days as follows:control and diabetic receiving saline;diabetic receiving GLN(248 mg/kg);and diabetic receiving GDP(400 mg/kg).Body weight,plasmatic parameters and kidney function were analyzed.Isolated hepatocytes were used to assess gluconeogenic capacity.Liver and kidney were used for morphological analyses.T1DM decreased the number and increased the area of the hepatocytes,possibly because of the observed enlargement of glycogen stores.Kidney weight,glomerular area and proteinuria increased,and glomerular filtration rate decreased,in non-supplemented T1DM rats.Glomerular area and proteinuria were reversed by both supplementations.The T1DM hepatocytes released less glucose,which could have been diverted to glycogen synthesis and secondary glycogenosis observed in T1DM;this was partially reversed by the supplementations.The results point to a possible beneficial effect of glutamine on the metabolic and hepatic impairments of T1DM.
文摘In some species of growing mammals glutamine is an essential amino acid that,if inadequate in the diet,is needed for normal growth and development.It is thus sometimes considered to be a conditionally essential amino acid in some species.A review of studies that have measured L-glutamine concentrations([glutamine])in horses demonstrates that plasma[glutamine]has routinely been reported to be much lower(~330μmol/L)than in other mammals(>600μmol/L).Plasma[glutamine]represents the balance between intestinal transport into the blood after hepatic first pass,tissue synthesis and cellular extraction.The hypothesis is proposed that sustained low plasma[glutamine]represents a chronic state of sub-optimal glutamine intake and glutamine synthesis that does not meet the requirements for optimum health.While this may be without serious consequence in feral and sedentary horses,there is evidence that provision of supplemental dietary glutamine ameliorates a number of health consequences,particularly in horses with elevated metabolic demands.The present review provides evidence that glutamine is very important(and perhaps essential)for intestinal epithelial cells in mammals including horses,that horses with low plasma[glutamine]represents a sub-optimal state of well-being,and that horses supplemented with glutamine exhibit physiological and health benefits.
基金Supported by National Natural Science Foundation of China,No.31001012 and No.31101304Programs for Agricultural Science and Technology Development of Shaanxi Province,China,No.2013K02-16Northwestern Polytechnical University Foundation Science Research Fund,No.JC201278
文摘AIM: To investigate the protective effect of glutamine (Gln) on intestinal injury and the bacterial community in rats exposed to hypobaric hypoxia environment.
文摘Background: Creep feeding is used to stimulate piglet post-weaning feed consumption.L-Glutamine(GLN) is an important source of fuel for intestinal epithelial cells.The objective of this study was to determine the impact of creep feeding and adding GLN or AminoGut(AG;containing glutamine + glutamate) to pre-and post-weaning diets on pig performance and intestinal health.Litters(N = 120) were allotted to four treatments during 14–21 d of lactation: 1) No creep feed(NC,n = 45);2) creep fed control diet(CFCD,n = 45);3) creep fed 1% GLN(CFGLN,n = 15);4) creep fed.88% AG(CFAG,n = 15).After weaning,the NC and CFCD groups were sub-divided into three groups(n = 15 each),receiving either a control nursery diet(NC-CD,CFCD-CD) or a diet supplemented with either GLN(NC-GLN,CFCD-GLN) or with AG(NC-AG,CFCD-AG).Litters that were creep fed with diets containing GLN or AG also were supplemented with those amino acids in the nursery diets(CFGLN-GLN,CFAG-AG).Glutamine was added at 1% in all three post-weaning diet phases and AG was added at.88% in phase 1 and 2 and at.66% in phase 3.Results: Feed conversion(feed/gain) showed means among treatment means close to significance(P = 0.056) and Tukey's test for pairwise mean comparisons showed that Pigs in the CFGLN-GLN group had the best feed conversion(feed/gain) in the first three-week period post-weaning,exceeding(P = 0.044) controls(CFCD-CD) by 34%.The NC-AG group had(P = 0.02) the greatest feed intake in the last three week of the study,exceeding controls(CFCD-CD) by 12%.CFGLN-GLN,CFCD-GLN and sow reared(SR) pigs had the greatest(P = 0.049) villi height exceeding the CFCD-AG group by 18%,20% and 19% respectively.The CFAG-AG group had the deepest(P = 0.001) crypts among all treatments.CFGLN-GLN,CFCD-GLN and SR groups had the greatest(P = 0.001) number of cells proliferating(PCNA) exceeding those in the NC-CD group by 43%,54% and 63% respectively.Sow reared pigs showed the greatest(P = 0.001) intestinal absorption capacity for xylose and mannitol.Conclusion: Supplementation of creep feed and nursery diets with GLN and/or AminoGut in the first three week improved feed conversion possibly due to improved intestinal health.
文摘AIM To investigate the relationship between alanyl-glutamine (ALA-GLN) and glutathione (GSH) biosynthesis in hepatic protection.METHODS Twenty male Wistar rats were randomly divided into two groups: one receiving standard parenteral nutrition (STD) and the other supplemented with or without ALA-GLN for 7 days. The blood and liver tissue samples were examined after 5-fluorouracil (5-FU) was injected peritoneally.RESULTS The concentration measurements were significantly higher in ALA-GLN group than in STD group in serum GLN (687 μmol/ L±50 μmol/ L vs 505 μmol/ L±39 μmol/ L, P<0.05), serum GSH (14 μmol/ L±5 μmol/ L vs 7 μmol/ L±3 μmol/ L, P<0.01) and in liver GSH content (6.9 μmol/ g±2.5 μmol/ g vs 4.4 μmol/ g±1.6 μmol/ g liver tissue, P<0.05). Rats in ALA-GLN group had lesser elevations in hepatic enzymes after 5-FU administration.CONCLUSION The supplemented nutrition ALA-GLN can protect the liver function through increasing the glutathione biosynthesis and preserving the glutathione stores in hepatic tissue.
基金Supported by the Universidad de Buenos Aires (Argentina) and Consejo Nacional de Investigaciones Cientificas y Tecnicas Argentina
文摘AIM: To evaluate the in vivo effect of glutamine on cobaltgenerated oxidative stress and (HO-1) induction in rat liver.METHODS: Fasted female Wistar rats received a single injection of cobalt chloride (375 μmol/kg body weight) and then were killed at different times. Lipid peroxidation and soluble and enzymatic antioxidant defense system (reduced glutathione (GSH), catalase (CAT), glutathione peroxidase (GSH-Px) and superoxide dismutase (SOD)) were measured in liver homogenates. Ferritin and ferritin iron contents as well as heme oxygenase-1 (HO-1) activity and expression were also determined. The antioxidant properties of glutamine (Gin) were also evaluated. RESULTS: Cobalt chloride increased lipid peroxidation (50% over control values) 1 h after treatment. GSH reached a minimum at 3 h (40%) increasing thereafter. Twelve hours after CoCl2 injection, the antioxidant enzymes CAT, GSH-Px and SOD also diminished by about 30%. Heme oxygenase-1 induction was observed 6 h after treatment reaching a maximum value of 14-fold over the controls, 12 h after cobalt treatment. A 1.7-fold increase in ferritin and ferritin-bound iron 24 h after treatment were also obtained. Administration of glutamine (300 mg/kg body weight) by gavage 24 h before CoCl2 treatment entirely prevented the increase in thiobarbituric acid reactive substances (TBARS) content, the decrease in GSH levels, and partially reverted heme oxygenase-1 induction. CONCLUSION: These results suggested that a natural product such as glutamine prevents glutathione depletion and consequently heme oxygenase induction.
基金Financial supports by the National Natural Science Foun-dation of China (30070431)the Key Technologies R&D Program of China during the 9th Five-Year Plan period(95-Agric-18-04)+1 种基金the Doctoral Fund of Ministry of Edu-cation of China (200805041061)the Earmarked Fund for Modern Agro-Industry Technology Research System, China
文摘The objective is to study whether the accumulation and utilization of plant N are controlled by Mo status in winter wheat cultivars. Mo-efficient cultivar 97003 (eft) and Mo-inefficient cultivar 97014 (ineff) were grown in severely Mo-deficient acidic soil (Tamm-reagent-extractable Mo 0.112 mg kg^-1) with (+Mo) and without (-Mo) the application of 0.13 mg kg^-1 Mo. The accumulation and use efficiency of plant total N were significantly higher in +Mo than that in -Mo and in eft than that in ineff under Mo deficiency. N use efficiency was remarkably higher in maturity but it was forwarded to jointing stage after Mo supply, thus indicating that Mo supply promoted the N use efficiency besides N uptake and eff was efficient in N uptake and utilization. The overall activity of nitrate reductase (NR, EC 1.6.6.1) was significantly higher in +Mo than in -Mo and ratio of +Mo/-Mo was even to 14.8 at filleting stage for ineff. Activity of glutamine synthetase (GS, EC 6.3.1.2) was significantly lower in +Mo than in -Mo. Concentration of nitrate and glutamate were also significantly lower in +Mo than in -Mo, thus provided evidences for enhancing N use efficiency by Mo supply. Activities of NR and GS were significantly higher and concentrations of nitrate and glutamate were significantly lower in eff than ineff under Mo deficiency, thus indicated eff was more efficient in N reduction and utilization. It is therefore concluded that Mo could promote N accumulation and utilization in winter wheat which was directly related to NR and feedback regulated by GS. Higher Mo status also results in higher accumulation and utilization of plant N in eft.
基金the National Natural Science Foundation of China (Nos.30390082 and 40471074).
文摘Real-time polymerase chain reaction analysis was used to compare the effect of NO3^- on the activities of nitrate reductase (NR) and glutamine synthetase (GS), and the transcript levels of two NR genes, OsNial and OsNia2, two cytosolic GS1 genes, OsGln1;1 and OsGln1;2, and one plastid GS2 gene OsGln2, in two rice (Oryza sativa L.) cultivars Nanguang (NG) and Yunjing (Y J). Both cultivars achieved greater biomass and higher total N concentration when grown in a mixed N supply than in sole NH4^+ nutrition. Supply of NO3^- increased NR activity in both leaves and roots. Expression of both NR genes was also substantially enhanced and transcript levels of OsNia2 were significantly higher than those of OsNial. NO3 also caused an increase in GS activity, but had a complex effect on the expression of the three GS genes. In roots, the OsGln1;1 transcript increased, but OsGln1;2 decreased. In leaves, NO3^- had no effect on the GS1 expression, but the transcript for OsGln2 increased both in the leaves and roots of rice with a mixed supply of N. These results suggested that the increase in GS activity might be a result of the complicated regulation of the various GS genes. In addition, the NO3-induced increase of biomass, NR activity, GS activity, and the transcript levels of NR and GS genes were proportionally higher in NG than in Y J, indicating a stronger response of NG to NO3^- nutrition than YJ.
基金Supported by Li Jie-Shou Gut Barrier Foundation,No.LJS_201008
文摘AIM To assess the effect of enteral nutrition(EN) supplemented with glutamine on recovery after ileal pouch-anal anastomosis(IPAA) in rats, to provide an experimental basis for nutritional support in patients with ulcerative colitis(UC) after IPAA. METHODS Male Sprague-Dawley(SD) rats were randomly divided into three groups(n = 8) after IPAA operation using a microsurgical technique. From the third postoperative day, rats in the control group, EN group, and immune nutrition(IN) group were fed standard rat chow, short peptide EN, and short peptide EN combined with glutamine ad libitum, respectively. The rats' general condition was observed throughout the study. Serum levels of total protein(TP), albumin(ALB), prealbumin(PA), and transferrin(TF) were detected on the 30 th postoperative day, using an automatic biochemical analyzer. The ileal pouch mucosa was stained with hematoxylin and eosin(HE), and occludin protein levels were detected by immunohistochemistry.RESULTS The body weight of rats in the EN group(359.20 ± 10.06 g) was significantly higher than that in the control group(344.00 ± 9.66 g)(P < 0.05) and lower than that in the IN group(373.60 ± 9.86 g)(P < 0.05) on the 30 th postoperative day. The levels of serum TP, ALB, PA, and TF in the EN group were significantly higher than those in the control group(P < 0.01 for all) and lower than those in the IN group(P < 0.05 for all). Histopathological score(EN: 0.80 ± 0.37; IN: 0.60 ± 0.40; control group: 2.29 ± 0.18) and expression level of occludin protein(EN: 0.182 ± 0.054; IN: 0.188 ± 0.048; control group: 0.127 ± 0.032) were significantly lower in the control group compared with the EN and IN groups(P < 0.05 for all), but there were no significant differences between the latter two groups(P > 0.05 for all). CONCLUSION EN combined with glutamine may effectively improve nutritional status after IPAA. Our results suggest a benefit of glutamine supplementation in EN for UC patients undergoing IPAA, although human studies are required to confirm this finding.
文摘AIM: To assess the clinical and economical validity of glutamine dipeptide supplemented to parenteral nutrition (PN) in patients undergoing abdominal surgery. METHODS: A meta-analysis of all the relevant randomized controlled trials (RCTs) was performed. The trials compared the standard PN and PN supplemented with glutamine dipeptide in abdominal surgery. RCTs were identified from the following electronic databases: the Cochrane Library, MEDLINE, EMBASE and ISI web of knowledge (SCI). The search was undertaken in April 2006. Literature references were checked by computer or hand at the same time. Clinical trials were extracted and evaluated by two reviewers independently. Statistical analysis was performed by RevMan4.2 software from Cochrane Collaboration. A P value of < 0.05 was considered statistically significant. RESULTS: Nine RCTs involving 373 patients were included. The combined results showed that glutamine dipeptide has a positive effect in improving postoperative cumulative nitrogen balance (weighted mean difference (WMD = 8.35, 95% CI [2.98, 13.71], P = 0.002), decreasing postoperative infectious morbidity (OR = 0.24, 95% CI [0.06, 0.93], P = 0.04), shortening the length of hospital stay (WMD= -3.55, 95% CI [-5.26, -1.84], P < 0.00001). No serious adverse effects were found. CONCLUSION: Postoperative PN supplemented with glutamine dipeptide is effective and safe to decrease the infectious rate, reduce the length of hospital stay and improve nitrogen balance in patients undergoing abdominal surgery. Further high quality trials in children and severe patients are required, and mortality and hospital cost should be considered in future RCTs with sufficient size and rigorous design.
基金Supported by Hospital de Clínicas de Porto Alegre, FIPE 07284 e 09195, CNPq
文摘AIM: To investigate the effects of glutamine on oxidative/nitrosative stress and the vascular endothelial growth factor (VEGF)-Akt-endothelial nitric oxide synthase (eNOS) signaling pathway in an experimental model of portal hypertension induced by partial portal vein ligation (PPVL). METHODS: Portal hypertension was induced by PPVL. The PPVL model consists of a partial obstruction of the portal vein, performed using a 20 G blunt needle as a guide, which is gently removed after the procedure. PPVL model was performed for 14 d beginning treatment with glutamine on the seventh day. On the fifteenth day, the mesenteric vein pressure was checked and the stomach was removed to test immunoreactivity and oxidative stress markers. We evaluated the expression and the immunoreactivity of proteins involved in the VEGF-Akt-eNOS pathway by Western blotting and immunohistochemical analysis. Oxidative stress was measured by quantification of the cytosolic concentration of thiobarbituric acid reactive substances (TBARS) as well as the levels of total glutathione (GSH), superoxide dismutase (SOD) activity, nitric oxide (NO) production and nitrotyrosine immunoreactivity. RESULTS: All data are presented as the mean ± SE. The production of TBARS and NO was significantly increased in PPVL animals. A reduction of SOD activity was detected in PPVL + G group. In the immunohistochemical analyses of nitrotyrosine, Akt and eNOS, the PPVL group exhibited significant increases, whereas decreases were observed in the PPVL + G group, but no difference in VEGF was detected between these groups. Western blotting analysis detected increased expression of phosphatidylinositol-3-kinase (PI3K), P-Akt and eNOS in the PPVL group compared with the PPVL + G group, which was not observed for the expression of VEGF when comparing these groups. Glutamine administration markedly alleviated oxidative/nitrosative stress, normalized SOD activity, increased levels of total GSH and blocked NO overproduction as well as the formation of peroxynitrite. CONCLUSION: Glutamine treatment demonstrated to reduce oxidative damage but does not reduce angiogenesis induced by PH in gastric tissue, demonstrating a beneficial role for the PI3K-Akt-eNOS pathway.
基金Supported by VU University Medical Center,Amsterdam,The Netherlands
文摘AIM:To assess whether glutamate plays a similar role to glutamine in preserving gut wall integrity.METHODS:The effects of glutamine and glutamate on induced hyperpermeability in intestinal cell lines were studied.Paracellular hyperpermeability was induced in Caco2.BBE and HT-29CL.19A cell lines by adding phorbol-12,13-dibutyrate(PDB) apically,after which the effects of glutamine and glutamate on horseradish peroxidase(HRP) diffusion were studied.An inhibitor of glutamate transport(L-trans-pyrrolidine-2,4-dicarboxylic acid:trans-PDC) and an irreversible blocker(acivicin) of the extracellular glutamine to glutamate converting enzyme,γ-glutamyltransferase,were used.RESULTS:Apical to basolateral HRP flux increased significantly compared to controls not exposed to PDB (n=30,P<0.001).Glutamine application reduced hyperpermeability by 19%and 39%in the respective cell lines.Glutamate application reduced hyperpermeability by 30%and 20%,respectively.Incubation of HT29CL.19A cells with acivicin and subsequent PDB and glutamine addition increased permeability levels.Incubation of Caco2.BBE cells with trans-PDC followed by PDB and glutamate addition also resulted in high permeability levels.CONCLUSION:Apical glutamate-similar to glutaminecan decrease induced paracellular hyperpermeability.Extracellular conversion of glutamine to glutamate and subsequent uptake of glutamate could be a pivotal step in the mechanism underlying the protective effect of glutamine.
基金supported by a grant from the Beijing Municipal Science and Technology Commission(No.Z0006264040791)
文摘BACKGROUND:Hepatocellular carcinoma(HCC)is a highly malignant tumor with a poor prognosis.Because small HCCs possess most of the characteristics of early HCC,we investigated small HCCs to screen potential biomarkers for early diagnosis.METHODS:Proteins were extracted from 10 sets of paired tissue samples from HBV-infected small-HCC patients.The extracted proteins were well resolved by two-dimensional electrophoresis.These HCC-associated proteins were then identified by MALDI-TOF/TOF MS following image analysis.Western blotting and immunohistochemistry were used to assess glutamine synthetase(GS)and phenazine biosynthesislike domain-containing protein(PBLD)expression in liver tissue.Enzyme-linked immunosorbent assays in 152 serum samples(from 49 healthy donors,24 patients with liver cirrhosis,and 79 with HCC)were used to further assess the significance of GS clinically.RESULTS:Fifteen up-regulated and three down-regulated proteins were identified.Western blotting confirmed GS overexpression and decreased PBLD expression in liver tissue.Immunohistochemistry showed that GS was expressed in 70.0%(84/120)of HCCs and 35.8%(43/120)of nontumor tissues;PBLD was expressed in 74.2%(89/120) of nontumor tissues and 40.8%(49/120)of HCCs.The Chi-square test showed significant expression differences between HCCs and adjacent tissues.Consistent with this,serum GS levels in HCC patients were significantly higher than those in liver cirrhosis patients and healthy donors,while the latter two groups were also significantly different.In addition, a diagnostic cutoff value of 2.6 mg/ml was used for GS;it was elevated in 19(76.0%)of 25 HCC patients with AFP≤20 ng/ml and 47(88.7%)of 53 HCC patients with AFP≤200 ng/ml.CONCLUSION:GS and PBLD are abnormally expressed in most HCCs.GS may be a novel serum marker for early HCC, especially for those patients with low AFP levels(≤200 ng/ml).
基金This work was supported by PON(Programma Operativo Nazionale)Project No.01_00937PRIN(Progetti di Ricerca di Rilevante Interesse Nazionale)Project No 2017PAB8EM to CI granted by MIUR(Ministry of Education,University and Research)ItalyPRIN(Progetti di Ricerca di Rilevante Interesse Nazionale)Project No 2017PAB8EM.
文摘Among the different targets of administered drugs,there are membrane transporters that play also a role in drug delivery and disposition.Moreover,drug-transporter interactions are responsible for off-target effects of drugs underlying their toxicity.The improvement of the drug design process is subjected to the identification of those membrane transporters mostly relevant for drug absorption,delivery and side effect production.A peculiar group of proteins with great relevance to pharmacology is constituted by the membrane transporters responsible for managing glutamine traffic in different body districts.The interest around glutamine metabolism lies in its physio-pathological role;glutamine is considered a conditionally essential amino acid because highly proliferative cells have an increased request of glutamine that cannot be satisfied only by endogenous synthesis.Then,glutamine transporters provide cells with this special nutrient.Among the glutamine transporters,SLC1A5,SLC6A14,SLC6A19,SLC7A5,SLC7A8 and some members of SLC38 family are the best characterized,so far,in both physiological and pathological conditions.Few 3D structures have been solved by CryoEM;other structural data on these transporters have been obtained by computational analysis.Interactions with drugs have been described for several transporters of this group.For some of them,the studies are at an advanced stage,for others,the studies are still in nuce and novel biochemical findings open intriguing perspectives.
