Nowadays,inflammatory bowel disease(IBD)-patient therapies are mainly based on corticosteroid,thiopurine,and immunomodulator treatments.Patients with active disease,that do not respond to corticosteroid and/or thiopur...Nowadays,inflammatory bowel disease(IBD)-patient therapies are mainly based on corticosteroid,thiopurine,and immunomodulator treatments.Patients with active disease,that do not respond to corticosteroid and/or thiopurine treatment,can switch to the usage of the chimeric monoclonal antibody infliximab(IFX).However,to date,no treatment appeared to be conclusive in lowering the incidence of IBD relapses.With the aim to increase the effectiveness of IFX treatment,we combined it with an adjuvant purple corn supplementation enriched in anthocyanins.IBD-patients were enrolled before they underwent to the IFX-infusion,and they were allocated in 2 different study arms.Patients in the intervention-arm followed a dietary supplementation with purple corn water-soluble extract,whereas control patients had a daily consumption of red fruit tea.16S rDNA gene-sequencing and high-resolution mass-spectrometry metabo-lipidomics analyses were conducted on stool and sera samples,respectively.As a result,the experimental intervention mainly affected the serum metabolome of IBD-patients by decreasing the concentration of specific lipids.Focusing on IBD patient annotated taxa,a significant decrease in Lactobacillus and Bifi dobacterium relative abundances was found.As far as it concerns the ulcerative colitis patient subset,the experimental intervention led to a decrease in Alistipes and Erysipelotrichaceae UCG-003 genus abundances and a concomitant Parabacteroides increase.On the contrary,after treatment,Crohn’s disease patients did not exhibit metataxonomics differences at the genus level.At the end of the treatment that led to a reshaped microbiota community,the gathered data paves the way for the usage of a specifically designed probiotic supplementation as a valuable strategy for IBD-patients under IFX infusion.展开更多
Oleosin, caleosin and steroleosin are normally expressed in developing seed cells and are targeted to oil bodies. In the present work, the cDNA of each gene tagged with fluorescent proteins was transiently expressed i...Oleosin, caleosin and steroleosin are normally expressed in developing seed cells and are targeted to oil bodies. In the present work, the cDNA of each gene tagged with fluorescent proteins was transiently expressed into tobacco protoplasts and the fluorescent patterns observed by confocal laser scanning microscopy. Our results indicated clear differences in the endocellular localization of the three proteins. Oleosin and caleosin both share a common structure consisting of a central hydrophobic domain flanked by two hydrophilic domains and were correctly targeted to lipid droplets (LD), whereas steroleosin, characterized by an N-terminal oil body anchoring domain, was mainly retained in the endoplasmic reticulum (ER). Protoplast fractionation on sucrose gradients indicated that both oleosin and caleosin- green fluorescent protein (GFP) peaked at different fractions than where steroleosin-GFP or the ER marker binding immunoglobulin protein (BiP), were recovered. Chemical analysis confirmed the presence of triacylglycerols in one of the fractions where oleosin-GFP was recovered. Finally, only oleosin- and caleosin-GFP were able to reconstitute artificial oil bodies in the presence of triacylglycerols and phospholipids. Taken together, our results pointed out for the first time that leaf LDs can be separated by the ER and both oleosin or caleosin are selectively targeted due to the existence of selective mechanisms controlling protein association with these organelles.展开更多
基金supported by the grant from Italian Ministry of Health Ricerca Corrente 2023 IRCCS“S.de Bellis”by the Apulia Region grant SiCURA“Soluzioni Innovative per la gestione del paziente e il follow up terapeutico della Colite UlceRosA”(KC3U5Y1).
文摘Nowadays,inflammatory bowel disease(IBD)-patient therapies are mainly based on corticosteroid,thiopurine,and immunomodulator treatments.Patients with active disease,that do not respond to corticosteroid and/or thiopurine treatment,can switch to the usage of the chimeric monoclonal antibody infliximab(IFX).However,to date,no treatment appeared to be conclusive in lowering the incidence of IBD relapses.With the aim to increase the effectiveness of IFX treatment,we combined it with an adjuvant purple corn supplementation enriched in anthocyanins.IBD-patients were enrolled before they underwent to the IFX-infusion,and they were allocated in 2 different study arms.Patients in the intervention-arm followed a dietary supplementation with purple corn water-soluble extract,whereas control patients had a daily consumption of red fruit tea.16S rDNA gene-sequencing and high-resolution mass-spectrometry metabo-lipidomics analyses were conducted on stool and sera samples,respectively.As a result,the experimental intervention mainly affected the serum metabolome of IBD-patients by decreasing the concentration of specific lipids.Focusing on IBD patient annotated taxa,a significant decrease in Lactobacillus and Bifi dobacterium relative abundances was found.As far as it concerns the ulcerative colitis patient subset,the experimental intervention led to a decrease in Alistipes and Erysipelotrichaceae UCG-003 genus abundances and a concomitant Parabacteroides increase.On the contrary,after treatment,Crohn’s disease patients did not exhibit metataxonomics differences at the genus level.At the end of the treatment that led to a reshaped microbiota community,the gathered data paves the way for the usage of a specifically designed probiotic supplementation as a valuable strategy for IBD-patients under IFX infusion.
文摘Oleosin, caleosin and steroleosin are normally expressed in developing seed cells and are targeted to oil bodies. In the present work, the cDNA of each gene tagged with fluorescent proteins was transiently expressed into tobacco protoplasts and the fluorescent patterns observed by confocal laser scanning microscopy. Our results indicated clear differences in the endocellular localization of the three proteins. Oleosin and caleosin both share a common structure consisting of a central hydrophobic domain flanked by two hydrophilic domains and were correctly targeted to lipid droplets (LD), whereas steroleosin, characterized by an N-terminal oil body anchoring domain, was mainly retained in the endoplasmic reticulum (ER). Protoplast fractionation on sucrose gradients indicated that both oleosin and caleosin- green fluorescent protein (GFP) peaked at different fractions than where steroleosin-GFP or the ER marker binding immunoglobulin protein (BiP), were recovered. Chemical analysis confirmed the presence of triacylglycerols in one of the fractions where oleosin-GFP was recovered. Finally, only oleosin- and caleosin-GFP were able to reconstitute artificial oil bodies in the presence of triacylglycerols and phospholipids. Taken together, our results pointed out for the first time that leaf LDs can be separated by the ER and both oleosin or caleosin are selectively targeted due to the existence of selective mechanisms controlling protein association with these organelles.
