To explore the potential utilization of Elaeagnus mollis,we conducted a comprehensive assessment of its phytochemical composition,antioxidant properties,cholinesterase inhibition,and anti-HepG2 cell proliferation acti...To explore the potential utilization of Elaeagnus mollis,we conducted a comprehensive assessment of its phytochemical composition,antioxidant properties,cholinesterase inhibition,and anti-HepG2 cell proliferation activity across different plant parts(branch wood,branch bark,and pericarp)using various solvents(water,methanol,ethanol,and n-hexane).Our findings revealed that water extracts displayed superior antioxidant activities in ABTS and RP assays,while methanol extracts exhibited better performance in DPPH and FRAP assays.Moreover,methanol extracts demonstrated the highest effectiveness against anti-HepG2 cell proliferation,whereas n-hexane extracts showed greater efficiency in cholinesterase inhibition.Notably,branch bark extracts exhibited the highest levels of phytochemical compounds,with both branch bark and pericarp extracts demonstrating significant effects in cholinesterase inhibition and anti-HepG2 cell proliferation.Correlation analysis indicated that phytochemical compounds were primarily responsible for the observed biological activities.Overall,extracts from the branch bark and pericarp of E.mollis showed promising potential for antioxidant and anticancer activities,suggesting their suitability for applications in the pharmaceutical industry as health-promoting products.展开更多
Objective:Ovarian cancer(OC)ranks among the leading causes of mortality among the female cancers worldwide.Numerous studies have explored the development and progression of OC at multiple genetic regulatory levels.How...Objective:Ovarian cancer(OC)ranks among the leading causes of mortality among the female cancers worldwide.Numerous studies have explored the development and progression of OC at multiple genetic regulatory levels.However,relatively few studies have explored the impact of post-translational modifications(PTM)on OC progression,which is essential for uncovering new therapeutic targets.This study aimed to systematically identify the key PTM types involved in OCprogression,and to explore and evaluate their translational potential as therapeutic targets.Methods:First,we utilized multiple general PTM antibodies to compare gross PTM levels between normal ovarian and OC tissues from clinical females.After identifying lactylation as the PTM with the most significant differences,we selected representative samples for label-free mass spectrometry to identify specific lactylation sites.Next,we transfected A2780(OC)cells with either wild-type(WT)or mutant(K192A[Q])poly(ADP-ribose)polymerase 1(PARP1)conjugated to enhanced green fluorescent protein(EGFP)with a StrepⅡpeptide tag and assessed various cellular indexes related to cell proliferation(clonogenicity assay),migration(scratch wound healing assay),and reactive oxygen species levels.Results:Pan-lactylation was significantly upregulated in clinical OC samples,with PARP1 lactylation at K192 being one of the most common modifications.The growth and migration of A2780 cells were markedly suppressed by overexpressing PARP1-WT but not mutant PARP1.Overexpressing PARP1 significantly downregulated the phosphorylation of extracellular signal-regulated kinases 1/2(ERK1/2).Conclusion:This study uncovered a novel PTM of PARP1 in OC,lactylation,and demonstrated that lactylation at K192 is crucial in regulating OC cell growth and migration via the ERK1/2 pathway.Further investigations are required to elucidate the broader functional implications of PARP1 lactylation and its therapeutic potential.展开更多
Following the publication,concerns have been raised about a number of figures in this article.The western blots in this article were presented with atypical,unusually shaped and possibly anomalous protein bands in man...Following the publication,concerns have been raised about a number of figures in this article.The western blots in this article were presented with atypical,unusually shaped and possibly anomalous protein bands in many cases.展开更多
Objective:To construct a pH-responsive paclitaxel(PTX)-exosome composite nanocarrier and investigate its inhibitory effect on the proliferation of endometrial cancer cells(HEC-1A).Methods:PTX was loaded into exosomes ...Objective:To construct a pH-responsive paclitaxel(PTX)-exosome composite nanocarrier and investigate its inhibitory effect on the proliferation of endometrial cancer cells(HEC-1A).Methods:PTX was loaded into exosomes derived from adipose mesenchymal stem cells using the thin-film hydration method,and modified with polyethylene glycol-polylactic-co-glycolic acid(PEG-PLGA)to form nanocarriers(PTX-Exo-NPs).The particle size and morphology were detected by nanoparticle size and Zeta potential analyzer;drug encapsulation efficiency and drug loading capacity were determined by high-performance liquid chromatography;drug release behavior was evaluated in vitro under simulated acidic(pH 5.5)and physiological(pH 7.4)conditions;MTT assay and flow cytometry were used to detect the effects of the carrier on the proliferation,apoptosis,and cell cycle distribution of HEC-1A cells.Results:PTX-Exo-NPs exhibited a uniform spherical shape with a particle size of(128.5±5.2)nm,PTX encapsulation efficiency of 92.3%±2.1%,and drug loading capacity of 15.6%±0.8%.Drug release rate in the acidic environment(85.3%±2.1%within 72 h)was significantly higher than that in the physiological environment(48.0%±1.7%).In vitro experiments demonstrated that the proliferation inhibition rate of PTX-Exo-NPs on HEC-1A cells was higher than that of free PTX,with a lower IC50(0.64μM vs 4.70μM),and could induce cell apoptosis(apoptosis rate:28.7%±2.1%vs 14.2%±1.5%)and promote cell cycle arrest(G_2/M rate:45.3%±3.2%).Conclusion:PTX-Exo-NPs exhibit pH-responsive characteristics,which can target drug release through the acidic microenvironment,enhance the proliferation inhibition and pro-apoptotic effect on endometrial cancer cells,thus serving as a potential strategy for targeted therapy of endometrial tumors.展开更多
The published article titled“lncRNA FEZF1-AS1 Is Associated with Prognosis in Lung Adenocarcinoma and Promotes Cell Proliferation,Migration,and Invasion”has been retracted from Oncology Research,Vol.27,No.1,2019,pp...The published article titled“lncRNA FEZF1-AS1 Is Associated with Prognosis in Lung Adenocarcinoma and Promotes Cell Proliferation,Migration,and Invasion”has been retracted from Oncology Research,Vol.27,No.1,2019,pp.39–45.展开更多
Adult neurogenesis continuously produces new neurons critical for cognitive plasticity in adult rodents.While it is known transforming growth factor-βsignaling is important in embryonic neurogenesis,its role in postn...Adult neurogenesis continuously produces new neurons critical for cognitive plasticity in adult rodents.While it is known transforming growth factor-βsignaling is important in embryonic neurogenesis,its role in postnatal neurogenesis remains unclear.In this study,to define the precise role of transforming growth factor-βsignaling in postnatal neurogenesis at distinct stages of the neurogenic cascade both in vitro and in vivo,we developed two novel inducible and cell type-specific mouse models to specifically silence transforming growth factor-βsignaling in neural stem cells in(mGFAPcre-ALK5fl/fl-Ai9)or immature neuroblasts in(DCXcreERT2-ALK5fl/fl-Ai9).Our data showed that exogenous transforming growth factor-βtreatment led to inhibition of the proliferation of primary neural stem cells while stimulating their migration.These effects were abolished in activin-like kinase 5(ALK5)knockout primary neural stem cells.Consistent with this,inhibition of transforming growth factor-βsignaling with SB-431542 in wild-type neural stem cells stimulated proliferation while inhibited the migration of neural stem cells.Interestingly,deletion of transforming growth factor-βreceptor in neural stem cells in vivo inhibited the migration of postnatal born neurons in mGFAPcre-ALK5fl/fl-Ai9 mice,while abolishment of transforming growth factor-βsignaling in immature neuroblasts in DCXcreERT2-ALK5fl/fl-Ai9 mice did not affect the migration of these cells in the hippocampus.In summary,our data supports a dual role of transforming growth factor-βsignaling in the proliferation and migration of neural stem cells in vitro.Moreover,our data provides novel insights on cell type-specific-dependent requirements of transforming growth factor-βsignaling on neural stem cell proliferation and migration in vivo.展开更多
The published article titled“Long Noncoding RNA SChLAP1 Accelerates the Proliferation and Metastasis of Prostate Cancer via Targeting miR-198 and Promoting the MAPK1 Pathway”has been retracted from Oncology Research...The published article titled“Long Noncoding RNA SChLAP1 Accelerates the Proliferation and Metastasis of Prostate Cancer via Targeting miR-198 and Promoting the MAPK1 Pathway”has been retracted from Oncology Research,Vol.26,No.1,2018,pp.131–143.展开更多
The published article titled“Triptolide inhibits proliferation and migration of human neuroblastoma SH-SY5Y cells by upregulating microRNA-181a”has been retracted from Oncology Research,Vol.26,No.8,2018,PP.1235-1243.
The published article titled“Procaine inhibits the proliferation and migration of colon cancer cells through inactivation of the ERK/MAPK/FAK pathways by regulation of RhoA”has been retracted from Oncology Research,...The published article titled“Procaine inhibits the proliferation and migration of colon cancer cells through inactivation of the ERK/MAPK/FAK pathways by regulation of RhoA”has been retracted from Oncology Research,Vol.26,No.2,2018,pp.209–217.展开更多
The published article titled“Puerarin inhibits proliferation and induces apoptosis by upregulation of miR-16 in bladder cancer cell line T24”has been retracted from Oncology Research,Vol.26,No.8,2018,pp.1227–1234.
Objectives:Novel drug delivery systems have been designed to enhance local drug concentrations while reducing side effects conducive to improved breast cancer treatment outcomes.This study aimed to identify the anti-c...Objectives:Novel drug delivery systems have been designed to enhance local drug concentrations while reducing side effects conducive to improved breast cancer treatment outcomes.This study aimed to identify the anti-cancer function of zeolite imidazole ester-based material loaded with camptothecin nanoparticles.Methods:We utilized a zeolitic imidazolate backbone material to fabricate 9-hydroxycamptothecin nanoparticles and investigated their impact on breast cancer cell proliferation.Scanning electron microscopy and Fourier-transform infrared spectroscopy revealed changes in the carrier skeleton of the loaded 9-hydroxyl camptothecin,characterized by a reduction in surface smoothness,accompanied by slight collapses and folds on the particle surface.Notably,we detected vibration of the benzene ring in the 9-hydroxycamptothecin structure within the nanoparticles.Cell proliferation was tested by CCK-8.Protein expression was measured byWestern blot.The efficacy of nanoparticles was evaluated by animal experiments.Results:In this study,we utilized a zeolitic imidazolate backbone material to fabricate 9-hydroxycamptothecin(9-HCPT)nanoparticles and investigated their impact on breast cancer cell proliferation.Scanning electron microscopy and Fourier-transform infrared spectroscopy revealed changes in the carrier skeleton of the loaded 9-hydroxyl camptothecin,characterized by a reduction in surface smoothness,accompanied by slight collapses and folds on the particle surface.Notably,we detected vibration of the benzene ring in the 9-HCPT structure within the nanoparticles.Using the CCK-8 method,we evaluated the inhibitory effect of these nanoparticles on breast cancer cells and observed a significant reduction in the cytotoxicity of camptothecin(CPT)when incorporated into the zeolite imidazole ester skeleton material.Immunoblot analysis showed upregulation of cyclic GMP-AMP synthase(cGAS),stimulator of interferon genes(STING),andNF-κB-p65 in response to the nanoparticles.These results showed that our nanoparticles might be a useful drug delivery strategy to overcome breast cancer drug resistance.Conclusion:Thefindings of this study suggest that nanoparticles loaded with CPT and formed fromzeolite imidazole ester backbone material possess immune-enhancing properties that could suppress breast cancer progression.Accordingly,these nanoparticles hold promise as potential lead compounds for combined immunotherapy in breast cancer treatment.展开更多
Background Reproductive efficiency in goats is closely linked to the healthy development of follicles,with the proliferation of ovarian granulosa cells(GCs)playing a crucial role in this process.Sirtuin 3(SIRT3),an en...Background Reproductive efficiency in goats is closely linked to the healthy development of follicles,with the proliferation of ovarian granulosa cells(GCs)playing a crucial role in this process.Sirtuin 3(SIRT3),an enzyme that catalyzes post-translational modifications(PTMs)of proteins,is known to regulate a variety of mitochondrial metabolic pathways,thereby affecting cell fate.However,the specific effect of SIRT3 on the follicular development process remains unclear.Therefore,this study aimed to investigate the regulatory role of SIRT3 in the mitochondrial function and proliferation of goat GCs,as well as the underlying mechanisms involved.Results In this study,GCs from small follicles in goat ovaries presented increased proliferative potential and elevated SIRT3 expression levels compared with those from large follicles.In vitro,SIRT3 overexpression enhanced mitochondrial function,promoted proliferation and inhibited apoptosis in GCs.Correspondingly,the inhibition of SIRT3 led to the opposite effects.Notably,SIRT3 interacted with carnitine palmitoyl transferase 2(CPT2)and stabilized the CPT2 protein by mediating delactylation,which prolonged the half-life of CPT2 and prevented its degradation.Further investigation revealed that CPT2 overexpression enhanced fatty acidβ-oxidation and mitochondrial function in GCs.Additionally,CPT2 promoted the proliferation of GCs by increasing the protein levels ofβ-catenin and its downstream target,cyclin D1(CCND1).However,this effect was reversed by 3-TYP(a SIRT3 inhibitor).Conclusions SIRT3 stabilizes CPT2 protein expression through delactylation,thereby enhancing mitochondrial function and the proliferative capacity of GCs in goats.This study provides novel insights into the molecular mechanisms and regulatory pathways involved in mammalian follicular development.展开更多
Cervical cancer is a major malignancy that poses a significant threat to women's health[1].In 2020,an estimated 604,000 new cases and 342,000 deaths were reported globally[2].The most common pathological subtype i...Cervical cancer is a major malignancy that poses a significant threat to women's health[1].In 2020,an estimated 604,000 new cases and 342,000 deaths were reported globally[2].The most common pathological subtype is squamous cell carcinoma[3,4].However,treatment options for advanced cervical squamous cell carcinoma(CSCC)are limited.Surgery is often not feasible at this stage,resulting in poor prognosis[5,6].Therefore,identifying novel molecular markers and elucidating the mechanisms that drive CSCC growth and metastasis are crucial for improving treatment outcomes.展开更多
BACKGROUND MEX3A is a member of the human homologous gene MEX-3 family.It has been shown to promote cell proliferation and migration in various cancers,indicating its potential clinical significance.However,the role o...BACKGROUND MEX3A is a member of the human homologous gene MEX-3 family.It has been shown to promote cell proliferation and migration in various cancers,indicating its potential clinical significance.However,the role of MEX3A in hepatocellular carcinoma(HCC)remains largely unexplored,with limited reports available in the literature.AIM To investigate expression and clinical significance of MEX3A in HCC and explore its potential role in tumor progression.METHODS We analyzed MEX3A mRNA expression in HCC and adjacent tissues using data from The Cancer Genome Atlas(TCGA).The correlation between MEX3A expression and overall survival(OS)was evaluated.Immunohistochemistry was performed on HCC surgical specimens to validate MEX3A expression and its association with clinical parameters,including hepatitis B virus(HBV)positivity,tumor differentiation and tumor size.Additionally,MEX3A knockdown HCC cell lines were constructed to explore the biological functions of MEX3A.Cell prolif-eration was assessed using cell counting kit-8 and clone formation assays,while cell cycle progression was analyzed by flow cytometry.The effects of MEX3A on the Wnt/β-catenin signaling pathway were examined by western blotting and immunofluorescence.Cell migration was evaluated using scratch and Transwell assays.Finally,the role of the transcription factor RORA in mediating MEX3A effects was explored by silencing RORA and analyzing its impact on cell proliferation and protein expression.RESULTS TCGA data analysis revealed that MEX3A mRNA expression was significantly higher in HCC tissues compared to adjacent tissues.Higher MEX3A expression was associated with poorer OS.These findings were validated in HCC surgical specimens.Immunohistochemistry confirmed elevated MEX3A expression in HCC tissues and showed positive correlations with Ki-67 and vimentin levels.MEX3A expression was closely related to HBV positivity,tumor differentiation and tumor size.Mechanistic studies demonstrated that MEX3A knockdown inhibited cell proliferation and cell cycle progression,as shown by reduced expression ofβ-catenin,c-Myc and cyclin D1.Additionally,MEX3A knockdown inhibited the nuclear entry ofβ-catenin,thereby suppressing the activation of downstream oncogenic pathways.MEX3A depletion significantly reduced the migratory ability of HCC cells,likely through downregulation of the epithelial-mesenchymal transition pathway.Transcription factor analysis identified RORA as a potential mediator of MEX3A effects.Silencing RORA antagonized the effects of MEX3A on cell proliferation and the expression ofβ-catenin,c-Myc and cyclin D1.CONCLUSION MEX3A promotes cell proliferation in HCC by regulating the RORA/β-catenin pathway.Our findings suggest that MEX3A could serve as a prognostic marker and therapeutic target for HCC.展开更多
BACKGROUND Ras-related protein Rab24,which belongs to the small GTPase family,plays a crucial role in regulating intracellular protein trafficking.Dysregulation of Rab24 has been recently identified in hepatocellular ...BACKGROUND Ras-related protein Rab24,which belongs to the small GTPase family,plays a crucial role in regulating intracellular protein trafficking.Dysregulation of Rab24 has been recently identified in hepatocellular carcinoma(HCC).However,its clinical significance and tumor related effects remain to be further clarified.AIM To explore the expression pattern of Rab24 and its role in HCC progression.METHODS The expression profile of Rab24 was tested in HCC tissues together with adjacent tissues from transcriptional,mRNA,and protein levels.The prognostic role of Rab24 in HCC was assessed by univariate and multivariate analyses.Clinical outcomes were evaluated by the Kaplan-Meier analysis and log-rank test.The effect of Rab24 on cell proliferation was tested through cellular experiments and xenograft experiments.RESULTS Rab24 expression was elevated in HCC tissues compared to adjacent liver tissues.High expression of Rab24 was significantly associated with larger tumor size and advanced tumor stage.Moreover,HCC patients with high Rab24 expression showed poorer overall survival,and Rab24 was identified as an independent prognosis factor according to multivariate analysis.By using overexpression and shRNA knockdown strategies in HCC cell lines,we found that Rab24 can promote HCC proliferation.Finally,we validated that silencing Rab24 significantly attenuated xenograft growth in vivo.CONCLUSION Our study demonstrated that high expression of Rab24 was significantly correlated with poorer prognosis of HCC patients,indicating the potential of Rab24 as a novel clinical biomarker and therapeutic target.展开更多
Hair follicle stem cell(HFSC),capable of self-renewal and differentiation in hair follicle,represents an emerging stem cell model for regenerative medicine.The interaction between HFSC and dermal papilla cell(DPC)gove...Hair follicle stem cell(HFSC),capable of self-renewal and differentiation in hair follicle,represents an emerging stem cell model for regenerative medicine.The interaction between HFSC and dermal papilla cell(DPC)governs hair follicle development.FGF7 functions as a paracrine protein regulating epithelial proliferation,differentiation and migration.The single-cell transcriptome profling and immunofuorescence analysis demonstrated that FGF7 localizes at DPC,while FGF7 receptor(FGFR2)expresses in both DPC and HFSC.Through co-culture experiments of HFSC and DPC,the results indicated that FGF7 secreted from DPC promotes the proliferation of DPC and HFSC via Wnt signaling pathway and induces HFSC differentiation.Furthermore,CUT&Tag assay revealed genomic colocalization between FGF7 and pluripotency-related genes and GSK3β.Electrophoretic mobility shift assay(EMSA)demonstrated that FGF7 interacts with the promoter region of CISH and PRKX.This research provides valuable insights into the molecular mechanisms underlying the hair cycle.Understanding the interaction between HFSC and DPC,as well as the role of FGF7,may advance regenerative medicine and hair loss treatment.展开更多
BACKGROUND Pancreatic cancer(PC)is one of the most aggressive malignancies characterized by rapid progression and poor prognosis.The involvement of cancer stem cells(CSCs)and Octamer transcription factor 4(OCT4)in PC ...BACKGROUND Pancreatic cancer(PC)is one of the most aggressive malignancies characterized by rapid progression and poor prognosis.The involvement of cancer stem cells(CSCs)and Octamer transcription factor 4(OCT4)in PC pathobiology is being increasingly recognized.AIM To investigate the role of OCT4 in pancreatic CSCs and its effect on PC cell prolif-eration,migration,drug sensitivity,and stemness maintenance.METHODS We analyzed OCT4 and CD133 expression in PC tissues and cell lines.BxPC-3 cells were used to assess the effects of OCT4 modulation on cellular behavior.Proliferation,migration,and stemness of BxPC-3 cells were evaluated,and the PI3K/AKT/mTOR pathway was examined to gain mechanistic insights.RESULTS OCT4 and CD133 were significantly overexpressed in PC tissues.OCT4 mo-dulation altered BxPC-3 cell proliferation,invasion,and stemness,with OCT4 overexpression(OV-OCT4)enhancing these properties and OCT4 interference decreasing them.OV-OCT4 activated the PI3K/AKT/mTOR pathway,which correlated with an increase in PC stem cells(PCSC).CONCLUSION OCT4 plays a crucial role in PCSCs by influencing the aggressiveness and drug resistance of PC cells,thus presenting itself as a potential therapeutic target.展开更多
The published article titled“Overexpression of long noncoding RNA PTENP1 inhibits cell proliferation and migration via suppression of miR-19b in breast cancer cells”has been retracted from Oncology Research,Vol.26,N...The published article titled“Overexpression of long noncoding RNA PTENP1 inhibits cell proliferation and migration via suppression of miR-19b in breast cancer cells”has been retracted from Oncology Research,Vol.26,No.6,2018,pp.869–878.展开更多
Organisms on Earth evolve and coexist with natural Electromagnetic Fields(EMFs).Although many reports have suggested the potential anti-neoplastic effects of EMFs with specific parameters,the studies on the influence ...Organisms on Earth evolve and coexist with natural Electromagnetic Fields(EMFs).Although many reports have suggested the potential anti-neoplastic effects of EMFs with specific parameters,the studies on the influence of natural EMFs on cancers are still rare.Herein,an EMF emitter has been developed to investigate the effects of the extremely-low frequency SR-mimicking EMF(SREMF)on cancer and normal cell proliferation.The numerical simulation has revealed that the emitter with specific parameters is able to enhance EMF intensity and uniformity on the designated plane above the emitter.More importantly,honeycomb-like emitter array can generate a stronger EMF intensity on the 20 mm plane above the array.Cell colony formation assays have demonstrated that SREMF generated by the honeycomb-like emitter array can significantly inhibit Hela cell proliferation in a cell-density-dependent manner.The morphological changes of SREMF-exposed Hela cells suggest that the anti-proliferative effect of SREMF may be caused by apoptosis induction.In contrast,no detrimental effect is observed for SREMF-treated normal cells,which probably can be explained by the evolutionary adaptation.Hence,this work can not only contribute to understanding the impact of natural EMF on creatures,but also afford a novel strategy to personalized cancer prevention and treatment.展开更多
The published article titled“MicroRNA-98-5p Inhibits Cell Proliferation and Induces Cell Apoptosis in Hepatocellular Carcinoma via Targeting IGF2BP1”has been retracted from Oncology Research,Vol.25,No.7,2017,pp.1117...The published article titled“MicroRNA-98-5p Inhibits Cell Proliferation and Induces Cell Apoptosis in Hepatocellular Carcinoma via Targeting IGF2BP1”has been retracted from Oncology Research,Vol.25,No.7,2017,pp.1117–1127.展开更多
基金National Natural Science Foundation of China(Grant No.31600549).
文摘To explore the potential utilization of Elaeagnus mollis,we conducted a comprehensive assessment of its phytochemical composition,antioxidant properties,cholinesterase inhibition,and anti-HepG2 cell proliferation activity across different plant parts(branch wood,branch bark,and pericarp)using various solvents(water,methanol,ethanol,and n-hexane).Our findings revealed that water extracts displayed superior antioxidant activities in ABTS and RP assays,while methanol extracts exhibited better performance in DPPH and FRAP assays.Moreover,methanol extracts demonstrated the highest effectiveness against anti-HepG2 cell proliferation,whereas n-hexane extracts showed greater efficiency in cholinesterase inhibition.Notably,branch bark extracts exhibited the highest levels of phytochemical compounds,with both branch bark and pericarp extracts demonstrating significant effects in cholinesterase inhibition and anti-HepG2 cell proliferation.Correlation analysis indicated that phytochemical compounds were primarily responsible for the observed biological activities.Overall,extracts from the branch bark and pericarp of E.mollis showed promising potential for antioxidant and anticancer activities,suggesting their suitability for applications in the pharmaceutical industry as health-promoting products.
文摘Objective:Ovarian cancer(OC)ranks among the leading causes of mortality among the female cancers worldwide.Numerous studies have explored the development and progression of OC at multiple genetic regulatory levels.However,relatively few studies have explored the impact of post-translational modifications(PTM)on OC progression,which is essential for uncovering new therapeutic targets.This study aimed to systematically identify the key PTM types involved in OCprogression,and to explore and evaluate their translational potential as therapeutic targets.Methods:First,we utilized multiple general PTM antibodies to compare gross PTM levels between normal ovarian and OC tissues from clinical females.After identifying lactylation as the PTM with the most significant differences,we selected representative samples for label-free mass spectrometry to identify specific lactylation sites.Next,we transfected A2780(OC)cells with either wild-type(WT)or mutant(K192A[Q])poly(ADP-ribose)polymerase 1(PARP1)conjugated to enhanced green fluorescent protein(EGFP)with a StrepⅡpeptide tag and assessed various cellular indexes related to cell proliferation(clonogenicity assay),migration(scratch wound healing assay),and reactive oxygen species levels.Results:Pan-lactylation was significantly upregulated in clinical OC samples,with PARP1 lactylation at K192 being one of the most common modifications.The growth and migration of A2780 cells were markedly suppressed by overexpressing PARP1-WT but not mutant PARP1.Overexpressing PARP1 significantly downregulated the phosphorylation of extracellular signal-regulated kinases 1/2(ERK1/2).Conclusion:This study uncovered a novel PTM of PARP1 in OC,lactylation,and demonstrated that lactylation at K192 is crucial in regulating OC cell growth and migration via the ERK1/2 pathway.Further investigations are required to elucidate the broader functional implications of PARP1 lactylation and its therapeutic potential.
文摘Following the publication,concerns have been raised about a number of figures in this article.The western blots in this article were presented with atypical,unusually shaped and possibly anomalous protein bands in many cases.
文摘Objective:To construct a pH-responsive paclitaxel(PTX)-exosome composite nanocarrier and investigate its inhibitory effect on the proliferation of endometrial cancer cells(HEC-1A).Methods:PTX was loaded into exosomes derived from adipose mesenchymal stem cells using the thin-film hydration method,and modified with polyethylene glycol-polylactic-co-glycolic acid(PEG-PLGA)to form nanocarriers(PTX-Exo-NPs).The particle size and morphology were detected by nanoparticle size and Zeta potential analyzer;drug encapsulation efficiency and drug loading capacity were determined by high-performance liquid chromatography;drug release behavior was evaluated in vitro under simulated acidic(pH 5.5)and physiological(pH 7.4)conditions;MTT assay and flow cytometry were used to detect the effects of the carrier on the proliferation,apoptosis,and cell cycle distribution of HEC-1A cells.Results:PTX-Exo-NPs exhibited a uniform spherical shape with a particle size of(128.5±5.2)nm,PTX encapsulation efficiency of 92.3%±2.1%,and drug loading capacity of 15.6%±0.8%.Drug release rate in the acidic environment(85.3%±2.1%within 72 h)was significantly higher than that in the physiological environment(48.0%±1.7%).In vitro experiments demonstrated that the proliferation inhibition rate of PTX-Exo-NPs on HEC-1A cells was higher than that of free PTX,with a lower IC50(0.64μM vs 4.70μM),and could induce cell apoptosis(apoptosis rate:28.7%±2.1%vs 14.2%±1.5%)and promote cell cycle arrest(G_2/M rate:45.3%±3.2%).Conclusion:PTX-Exo-NPs exhibit pH-responsive characteristics,which can target drug release through the acidic microenvironment,enhance the proliferation inhibition and pro-apoptotic effect on endometrial cancer cells,thus serving as a potential strategy for targeted therapy of endometrial tumors.
文摘The published article titled“lncRNA FEZF1-AS1 Is Associated with Prognosis in Lung Adenocarcinoma and Promotes Cell Proliferation,Migration,and Invasion”has been retracted from Oncology Research,Vol.27,No.1,2019,pp.39–45.
基金supported by NIH grants,Nos.R01NS125074,R01AG083164,R01NS107365,and R21NS127177(to YL),1F31NS129204-01A1(to KW)and Albert Ryan Fellowship(to KW).
文摘Adult neurogenesis continuously produces new neurons critical for cognitive plasticity in adult rodents.While it is known transforming growth factor-βsignaling is important in embryonic neurogenesis,its role in postnatal neurogenesis remains unclear.In this study,to define the precise role of transforming growth factor-βsignaling in postnatal neurogenesis at distinct stages of the neurogenic cascade both in vitro and in vivo,we developed two novel inducible and cell type-specific mouse models to specifically silence transforming growth factor-βsignaling in neural stem cells in(mGFAPcre-ALK5fl/fl-Ai9)or immature neuroblasts in(DCXcreERT2-ALK5fl/fl-Ai9).Our data showed that exogenous transforming growth factor-βtreatment led to inhibition of the proliferation of primary neural stem cells while stimulating their migration.These effects were abolished in activin-like kinase 5(ALK5)knockout primary neural stem cells.Consistent with this,inhibition of transforming growth factor-βsignaling with SB-431542 in wild-type neural stem cells stimulated proliferation while inhibited the migration of neural stem cells.Interestingly,deletion of transforming growth factor-βreceptor in neural stem cells in vivo inhibited the migration of postnatal born neurons in mGFAPcre-ALK5fl/fl-Ai9 mice,while abolishment of transforming growth factor-βsignaling in immature neuroblasts in DCXcreERT2-ALK5fl/fl-Ai9 mice did not affect the migration of these cells in the hippocampus.In summary,our data supports a dual role of transforming growth factor-βsignaling in the proliferation and migration of neural stem cells in vitro.Moreover,our data provides novel insights on cell type-specific-dependent requirements of transforming growth factor-βsignaling on neural stem cell proliferation and migration in vivo.
文摘The published article titled“Long Noncoding RNA SChLAP1 Accelerates the Proliferation and Metastasis of Prostate Cancer via Targeting miR-198 and Promoting the MAPK1 Pathway”has been retracted from Oncology Research,Vol.26,No.1,2018,pp.131–143.
文摘The published article titled“Triptolide inhibits proliferation and migration of human neuroblastoma SH-SY5Y cells by upregulating microRNA-181a”has been retracted from Oncology Research,Vol.26,No.8,2018,PP.1235-1243.
文摘The published article titled“Procaine inhibits the proliferation and migration of colon cancer cells through inactivation of the ERK/MAPK/FAK pathways by regulation of RhoA”has been retracted from Oncology Research,Vol.26,No.2,2018,pp.209–217.
文摘The published article titled“Puerarin inhibits proliferation and induces apoptosis by upregulation of miR-16 in bladder cancer cell line T24”has been retracted from Oncology Research,Vol.26,No.8,2018,pp.1227–1234.
基金supported by grants from the Guangdong Basic and Applied Basic Research Foundation(No.2023B1515130009)the Science and Technology Bureau of Foshan(No.FS0AA-KJ819-4901-0082).
文摘Objectives:Novel drug delivery systems have been designed to enhance local drug concentrations while reducing side effects conducive to improved breast cancer treatment outcomes.This study aimed to identify the anti-cancer function of zeolite imidazole ester-based material loaded with camptothecin nanoparticles.Methods:We utilized a zeolitic imidazolate backbone material to fabricate 9-hydroxycamptothecin nanoparticles and investigated their impact on breast cancer cell proliferation.Scanning electron microscopy and Fourier-transform infrared spectroscopy revealed changes in the carrier skeleton of the loaded 9-hydroxyl camptothecin,characterized by a reduction in surface smoothness,accompanied by slight collapses and folds on the particle surface.Notably,we detected vibration of the benzene ring in the 9-hydroxycamptothecin structure within the nanoparticles.Cell proliferation was tested by CCK-8.Protein expression was measured byWestern blot.The efficacy of nanoparticles was evaluated by animal experiments.Results:In this study,we utilized a zeolitic imidazolate backbone material to fabricate 9-hydroxycamptothecin(9-HCPT)nanoparticles and investigated their impact on breast cancer cell proliferation.Scanning electron microscopy and Fourier-transform infrared spectroscopy revealed changes in the carrier skeleton of the loaded 9-hydroxyl camptothecin,characterized by a reduction in surface smoothness,accompanied by slight collapses and folds on the particle surface.Notably,we detected vibration of the benzene ring in the 9-HCPT structure within the nanoparticles.Using the CCK-8 method,we evaluated the inhibitory effect of these nanoparticles on breast cancer cells and observed a significant reduction in the cytotoxicity of camptothecin(CPT)when incorporated into the zeolite imidazole ester skeleton material.Immunoblot analysis showed upregulation of cyclic GMP-AMP synthase(cGAS),stimulator of interferon genes(STING),andNF-κB-p65 in response to the nanoparticles.These results showed that our nanoparticles might be a useful drug delivery strategy to overcome breast cancer drug resistance.Conclusion:Thefindings of this study suggest that nanoparticles loaded with CPT and formed fromzeolite imidazole ester backbone material possess immune-enhancing properties that could suppress breast cancer progression.Accordingly,these nanoparticles hold promise as potential lead compounds for combined immunotherapy in breast cancer treatment.
基金supported by the National Key Research and Development Program of China(2022YFD1300202)the Technology Innovation and Application Development Special Project of Chongqing(cstc2021jscx-gksbX0008).
文摘Background Reproductive efficiency in goats is closely linked to the healthy development of follicles,with the proliferation of ovarian granulosa cells(GCs)playing a crucial role in this process.Sirtuin 3(SIRT3),an enzyme that catalyzes post-translational modifications(PTMs)of proteins,is known to regulate a variety of mitochondrial metabolic pathways,thereby affecting cell fate.However,the specific effect of SIRT3 on the follicular development process remains unclear.Therefore,this study aimed to investigate the regulatory role of SIRT3 in the mitochondrial function and proliferation of goat GCs,as well as the underlying mechanisms involved.Results In this study,GCs from small follicles in goat ovaries presented increased proliferative potential and elevated SIRT3 expression levels compared with those from large follicles.In vitro,SIRT3 overexpression enhanced mitochondrial function,promoted proliferation and inhibited apoptosis in GCs.Correspondingly,the inhibition of SIRT3 led to the opposite effects.Notably,SIRT3 interacted with carnitine palmitoyl transferase 2(CPT2)and stabilized the CPT2 protein by mediating delactylation,which prolonged the half-life of CPT2 and prevented its degradation.Further investigation revealed that CPT2 overexpression enhanced fatty acidβ-oxidation and mitochondrial function in GCs.Additionally,CPT2 promoted the proliferation of GCs by increasing the protein levels ofβ-catenin and its downstream target,cyclin D1(CCND1).However,this effect was reversed by 3-TYP(a SIRT3 inhibitor).Conclusions SIRT3 stabilizes CPT2 protein expression through delactylation,thereby enhancing mitochondrial function and the proliferative capacity of GCs in goats.This study provides novel insights into the molecular mechanisms and regulatory pathways involved in mammalian follicular development.
基金supported by the Hebei Provincial Central Guidance Local Science and Technology Development Fund(grant number 236Z7714G).
文摘Cervical cancer is a major malignancy that poses a significant threat to women's health[1].In 2020,an estimated 604,000 new cases and 342,000 deaths were reported globally[2].The most common pathological subtype is squamous cell carcinoma[3,4].However,treatment options for advanced cervical squamous cell carcinoma(CSCC)are limited.Surgery is often not feasible at this stage,resulting in poor prognosis[5,6].Therefore,identifying novel molecular markers and elucidating the mechanisms that drive CSCC growth and metastasis are crucial for improving treatment outcomes.
基金Supported by Suzhou Municipal Science and Technology Bureau,No.SYS2020081.
文摘BACKGROUND MEX3A is a member of the human homologous gene MEX-3 family.It has been shown to promote cell proliferation and migration in various cancers,indicating its potential clinical significance.However,the role of MEX3A in hepatocellular carcinoma(HCC)remains largely unexplored,with limited reports available in the literature.AIM To investigate expression and clinical significance of MEX3A in HCC and explore its potential role in tumor progression.METHODS We analyzed MEX3A mRNA expression in HCC and adjacent tissues using data from The Cancer Genome Atlas(TCGA).The correlation between MEX3A expression and overall survival(OS)was evaluated.Immunohistochemistry was performed on HCC surgical specimens to validate MEX3A expression and its association with clinical parameters,including hepatitis B virus(HBV)positivity,tumor differentiation and tumor size.Additionally,MEX3A knockdown HCC cell lines were constructed to explore the biological functions of MEX3A.Cell prolif-eration was assessed using cell counting kit-8 and clone formation assays,while cell cycle progression was analyzed by flow cytometry.The effects of MEX3A on the Wnt/β-catenin signaling pathway were examined by western blotting and immunofluorescence.Cell migration was evaluated using scratch and Transwell assays.Finally,the role of the transcription factor RORA in mediating MEX3A effects was explored by silencing RORA and analyzing its impact on cell proliferation and protein expression.RESULTS TCGA data analysis revealed that MEX3A mRNA expression was significantly higher in HCC tissues compared to adjacent tissues.Higher MEX3A expression was associated with poorer OS.These findings were validated in HCC surgical specimens.Immunohistochemistry confirmed elevated MEX3A expression in HCC tissues and showed positive correlations with Ki-67 and vimentin levels.MEX3A expression was closely related to HBV positivity,tumor differentiation and tumor size.Mechanistic studies demonstrated that MEX3A knockdown inhibited cell proliferation and cell cycle progression,as shown by reduced expression ofβ-catenin,c-Myc and cyclin D1.Additionally,MEX3A knockdown inhibited the nuclear entry ofβ-catenin,thereby suppressing the activation of downstream oncogenic pathways.MEX3A depletion significantly reduced the migratory ability of HCC cells,likely through downregulation of the epithelial-mesenchymal transition pathway.Transcription factor analysis identified RORA as a potential mediator of MEX3A effects.Silencing RORA antagonized the effects of MEX3A on cell proliferation and the expression ofβ-catenin,c-Myc and cyclin D1.CONCLUSION MEX3A promotes cell proliferation in HCC by regulating the RORA/β-catenin pathway.Our findings suggest that MEX3A could serve as a prognostic marker and therapeutic target for HCC.
文摘BACKGROUND Ras-related protein Rab24,which belongs to the small GTPase family,plays a crucial role in regulating intracellular protein trafficking.Dysregulation of Rab24 has been recently identified in hepatocellular carcinoma(HCC).However,its clinical significance and tumor related effects remain to be further clarified.AIM To explore the expression pattern of Rab24 and its role in HCC progression.METHODS The expression profile of Rab24 was tested in HCC tissues together with adjacent tissues from transcriptional,mRNA,and protein levels.The prognostic role of Rab24 in HCC was assessed by univariate and multivariate analyses.Clinical outcomes were evaluated by the Kaplan-Meier analysis and log-rank test.The effect of Rab24 on cell proliferation was tested through cellular experiments and xenograft experiments.RESULTS Rab24 expression was elevated in HCC tissues compared to adjacent liver tissues.High expression of Rab24 was significantly associated with larger tumor size and advanced tumor stage.Moreover,HCC patients with high Rab24 expression showed poorer overall survival,and Rab24 was identified as an independent prognosis factor according to multivariate analysis.By using overexpression and shRNA knockdown strategies in HCC cell lines,we found that Rab24 can promote HCC proliferation.Finally,we validated that silencing Rab24 significantly attenuated xenograft growth in vivo.CONCLUSION Our study demonstrated that high expression of Rab24 was significantly correlated with poorer prognosis of HCC patients,indicating the potential of Rab24 as a novel clinical biomarker and therapeutic target.
基金supported by the National Key Research And Development Program of China(2022YFD1300204)。
文摘Hair follicle stem cell(HFSC),capable of self-renewal and differentiation in hair follicle,represents an emerging stem cell model for regenerative medicine.The interaction between HFSC and dermal papilla cell(DPC)governs hair follicle development.FGF7 functions as a paracrine protein regulating epithelial proliferation,differentiation and migration.The single-cell transcriptome profling and immunofuorescence analysis demonstrated that FGF7 localizes at DPC,while FGF7 receptor(FGFR2)expresses in both DPC and HFSC.Through co-culture experiments of HFSC and DPC,the results indicated that FGF7 secreted from DPC promotes the proliferation of DPC and HFSC via Wnt signaling pathway and induces HFSC differentiation.Furthermore,CUT&Tag assay revealed genomic colocalization between FGF7 and pluripotency-related genes and GSK3β.Electrophoretic mobility shift assay(EMSA)demonstrated that FGF7 interacts with the promoter region of CISH and PRKX.This research provides valuable insights into the molecular mechanisms underlying the hair cycle.Understanding the interaction between HFSC and DPC,as well as the role of FGF7,may advance regenerative medicine and hair loss treatment.
基金Supported by Inner Mongolia Natural Science Foundation and the 3rd Affiliated of Inner Medical University,No.2021MS08067.
文摘BACKGROUND Pancreatic cancer(PC)is one of the most aggressive malignancies characterized by rapid progression and poor prognosis.The involvement of cancer stem cells(CSCs)and Octamer transcription factor 4(OCT4)in PC pathobiology is being increasingly recognized.AIM To investigate the role of OCT4 in pancreatic CSCs and its effect on PC cell prolif-eration,migration,drug sensitivity,and stemness maintenance.METHODS We analyzed OCT4 and CD133 expression in PC tissues and cell lines.BxPC-3 cells were used to assess the effects of OCT4 modulation on cellular behavior.Proliferation,migration,and stemness of BxPC-3 cells were evaluated,and the PI3K/AKT/mTOR pathway was examined to gain mechanistic insights.RESULTS OCT4 and CD133 were significantly overexpressed in PC tissues.OCT4 mo-dulation altered BxPC-3 cell proliferation,invasion,and stemness,with OCT4 overexpression(OV-OCT4)enhancing these properties and OCT4 interference decreasing them.OV-OCT4 activated the PI3K/AKT/mTOR pathway,which correlated with an increase in PC stem cells(PCSC).CONCLUSION OCT4 plays a crucial role in PCSCs by influencing the aggressiveness and drug resistance of PC cells,thus presenting itself as a potential therapeutic target.
文摘The published article titled“Overexpression of long noncoding RNA PTENP1 inhibits cell proliferation and migration via suppression of miR-19b in breast cancer cells”has been retracted from Oncology Research,Vol.26,No.6,2018,pp.869–878.
基金supported by National Key R&D Program of China(No.2022YFE0138500)Program of Jilin University Science and Technology Innovative Research Team(2020TD-03)Natural Science Foundation of Shandong Province of China(ZR2022QE289).
文摘Organisms on Earth evolve and coexist with natural Electromagnetic Fields(EMFs).Although many reports have suggested the potential anti-neoplastic effects of EMFs with specific parameters,the studies on the influence of natural EMFs on cancers are still rare.Herein,an EMF emitter has been developed to investigate the effects of the extremely-low frequency SR-mimicking EMF(SREMF)on cancer and normal cell proliferation.The numerical simulation has revealed that the emitter with specific parameters is able to enhance EMF intensity and uniformity on the designated plane above the emitter.More importantly,honeycomb-like emitter array can generate a stronger EMF intensity on the 20 mm plane above the array.Cell colony formation assays have demonstrated that SREMF generated by the honeycomb-like emitter array can significantly inhibit Hela cell proliferation in a cell-density-dependent manner.The morphological changes of SREMF-exposed Hela cells suggest that the anti-proliferative effect of SREMF may be caused by apoptosis induction.In contrast,no detrimental effect is observed for SREMF-treated normal cells,which probably can be explained by the evolutionary adaptation.Hence,this work can not only contribute to understanding the impact of natural EMF on creatures,but also afford a novel strategy to personalized cancer prevention and treatment.
文摘The published article titled“MicroRNA-98-5p Inhibits Cell Proliferation and Induces Cell Apoptosis in Hepatocellular Carcinoma via Targeting IGF2BP1”has been retracted from Oncology Research,Vol.25,No.7,2017,pp.1117–1127.
