Background:Branched chain amino acids(BCAAs)are important substrates for milk protein synthesis in the mammary gland,and are tightly related to lipid metabolism.No study has been performed examining the role of BCAAs ...Background:Branched chain amino acids(BCAAs)are important substrates for milk protein synthesis in the mammary gland,and are tightly related to lipid metabolism.No study has been performed examining the role of BCAAs with high fat diets on milk fat synthesis.This study was designed to investigate the effect of dietary BCAAs on growth performance of piglets,progeny body weight,and milk fat composition in sows fed a high fat diet.Four diets(CON=control diet;HF=high fat diet with 8%soybean oil;HF-MB=HF plus 0.39%BCAAs;HF-HB=HF plus 0.78%BCAAs)were fed to sows from late gestation to weaning.Results:Compared to HF,BCAAs(HF-MB and HF-HB)increased the litter weight(P<0.05)and overall litter weight gain(P<0.05)at weaning and increased colostrum fat content by 27.3–35.8%(P<0.01).Fatty acid profiles between the two doses of BCAAs were similar.Compared with HF,HF-MB tended to decrease the percentage of C18:3n3(P=0.063)and increased the percentage of C18:1n9c(P=0.03).In addition,BCAAs in HF-MB increased the concentration of total fatty acid by 22.1%in colostrum(P=0.03)but decreased that in serum at parturition by 53.2%(P=0.027).The fatty acids in colostrum that increased with BCAAs were C15:0,C17:0,C20:3n6,C20:4n6,C20:5n3 and C22:6n3(P=0.00~0.04).Colostrum fatty acids of C20:0,C21:0,C22:0,C16:1,C20:1,C18:1n9c also tended to be increased(0.05<P<0.1)with BCAAs.The change in sow serum fatty acid profile due to BCAAs was different from that in colostrum.Conclusions:BCAAs in high fat diet of sows altered the fatty acid composition in colostrum and enhanced litter growth.Our study indicated that BCAAs supplementation can enhance mammary fatty acid uptake and mammary fat synthesis and that supplemental BCAAs and fat in late gestation and lactation diets for sows can improve reproductive performance.展开更多
In this study,we conducted a 56-d feeding trial to investigate the effects of replacing the fish oil(FO)with palm oil(PO)on the performance,tissue fatty acid(FA)composition,and mRNA levels of genes related to hepatic ...In this study,we conducted a 56-d feeding trial to investigate the effects of replacing the fish oil(FO)with palm oil(PO)on the performance,tissue fatty acid(FA)composition,and mRNA levels of genes related to hepatic lipid metabolism in grouper(Epinephelus coioides).Five isolipidic(13%crude lipid)and isonitrogenous(48%CP)diets were formulated by incrementally adding PO to the control diet(25%fish meal and 9%added FO)to replace FO in the control diets.Triplicate groups of 30 groupers(initial weight:12.6±0.1 g)were fed one of the diets twice daily,to apparent satiety.The replacement of FO with 50%PO revealed maximum growth without affecting the performance and whole-body proximate compositions,and replacing FO with 100%PO revealed a comparable(P>0.05)growth with that of the control diet,suggesting PO as a suitable alternative to FO.The analysis of FA profiles in the dorsal muscle and liver though reflected the FA profile of the diet,PO substitutions above 50%could compromise(P<0.05)the FA profile in the liver and flesh of the fish species in comparison with the control diet.Furthermore,the mRNA levels of FAS,G6PD,LPL,PPARА,and D6FAD genes in the liver had positive linear and/or quadratic responses,but the SCD,HSL,ATGL,FABP,SREBP-1C and ELOVL5 had the opposite trend,with increasing dietary PO inclusion levels,whereas the mRNA level of ACC was not affected by dietary treatments.The optimal level of PO substitution for FO was estimated to be 47.1%of the feed,based on the regression analysis of percent weight gains against dietary PO inclusion levels;however,it might affect the FA profile in the liver and flesh of the fish species,and further study is required to investigate whether the changes in tissue FA composition will affect the welfare and market value over a production cycle of grouper.展开更多
Patients undergoing Roux-en-Y gastric bypass(RYGB)surgery elicit striking loss of body weight. Anatomical restructuring of the gastrointestinal(GI) tract, leading to reduced caloric intake and changes in food preferen...Patients undergoing Roux-en-Y gastric bypass(RYGB)surgery elicit striking loss of body weight. Anatomical restructuring of the gastrointestinal(GI) tract, leading to reduced caloric intake and changes in food preference, are thought to be the primary drivers of weight loss in bariatric surgery patients. However, the mechanisms by which RYGB surgery causes a reduced preference for fatty foods remain elusive. In a recent report, Hankir et al described how RYGB surgery modulated lipid nutrient signals in the intestine of rats to blunt their craving for fatty food. The authors reported that RYGB surgery restored an endogenous fat-satiety signaling pathway, mediated via oleoylethanolamide(OEA), that was greatly blunted in obese animals. In RYGB rats, high fat diet(HFD) led to increased production of OEA that activated the intestinal peroxisome proliferation activator receptors-α(PPARα). In RYGB rats, activation of PPARα by OEA was accompanied by enhanced dopamine neurotransmission in the dorsal striatum and reduced preference for HFD. The authors showed that OEA-mediated signals to the midbrain were transmitted via the vagus nerve. Interfering with either the production of OEA in enterocytes, or blocking of vagal and striatal D1 receptors signals eliminated the decreased craving for fat in RYGB rats. These studies demonstrated that bariatric surgery led to alterations in the reward circuitry of the brain in RYGB rats and reduced their preference for HFD.展开更多
Lutein is a nutraceutical compound that promotes human eye health and prevents neurodegenerative diseases.The oral bioavailability of lutein is affected by both extrinsic and intrinsic factors in the host.Although hyd...Lutein is a nutraceutical compound that promotes human eye health and prevents neurodegenerative diseases.The oral bioavailability of lutein is affected by both extrinsic and intrinsic factors in the host.Although hydrophobicity of the compound is further challenging,its lipophilicity can be utilized to micellize and thereby improve its oral bioavailability.Currently,available data on the effects of dietary fats on lutein micellization and permeation is limited and needs further exploration.In this study,the influence of 17 carrier type edible oils on lutein micellization and permeation,was investigated in a simulated digestion model.The overall effectiveness of these oils to permeate micellized lutein was attributed to its Fatty Acid(FA)profile.While 94%of the edible oils exhibited a positive influence on the permeation of micellized lutein,the micellization and permeation efficiency of these oils were significantly(p≤0.05)modulated by the saturation of FA in the order Saturated(SFA)>Mono-Unsaturated(MUFA)>Poly-Unsaturated(PUFA).The highest apparent permeability coefficient was exhibited by lutein micellized in ghee(3.01×10^(-6) cm/s)and butter(2.93×10^(-6) cm/s),which was 1.28 and 1.24 folds higher than lutein alone(2.35×10^(-6) cm/s)respectively.Exceptionally MUFA rich olive oil and PUFA rich flaxseed oil improved lutein permeation by 1.19(2.80×10^(-6) cm/s)and 1.14 folds(2.69×10^(-6) cm/s)respectively.This study is the first to report the influence of saturated fatty acids on micellization and permeation of lutein.Furthermore,the outcomes of this study offer the field of lutein delivery systems a fresh perspective.展开更多
基金This study is funded by The National Key Research and Development Program of China(2018YFD0500402).
文摘Background:Branched chain amino acids(BCAAs)are important substrates for milk protein synthesis in the mammary gland,and are tightly related to lipid metabolism.No study has been performed examining the role of BCAAs with high fat diets on milk fat synthesis.This study was designed to investigate the effect of dietary BCAAs on growth performance of piglets,progeny body weight,and milk fat composition in sows fed a high fat diet.Four diets(CON=control diet;HF=high fat diet with 8%soybean oil;HF-MB=HF plus 0.39%BCAAs;HF-HB=HF plus 0.78%BCAAs)were fed to sows from late gestation to weaning.Results:Compared to HF,BCAAs(HF-MB and HF-HB)increased the litter weight(P<0.05)and overall litter weight gain(P<0.05)at weaning and increased colostrum fat content by 27.3–35.8%(P<0.01).Fatty acid profiles between the two doses of BCAAs were similar.Compared with HF,HF-MB tended to decrease the percentage of C18:3n3(P=0.063)and increased the percentage of C18:1n9c(P=0.03).In addition,BCAAs in HF-MB increased the concentration of total fatty acid by 22.1%in colostrum(P=0.03)but decreased that in serum at parturition by 53.2%(P=0.027).The fatty acids in colostrum that increased with BCAAs were C15:0,C17:0,C20:3n6,C20:4n6,C20:5n3 and C22:6n3(P=0.00~0.04).Colostrum fatty acids of C20:0,C21:0,C22:0,C16:1,C20:1,C18:1n9c also tended to be increased(0.05<P<0.1)with BCAAs.The change in sow serum fatty acid profile due to BCAAs was different from that in colostrum.Conclusions:BCAAs in high fat diet of sows altered the fatty acid composition in colostrum and enhanced litter growth.Our study indicated that BCAAs supplementation can enhance mammary fatty acid uptake and mammary fat synthesis and that supplemental BCAAs and fat in late gestation and lactation diets for sows can improve reproductive performance.
基金This study was supported by funding from the National Natural Science Foundation of China(Grant No.31772861)the Science and Technology Project of Fujian Province of China(No.2020N0012).
文摘In this study,we conducted a 56-d feeding trial to investigate the effects of replacing the fish oil(FO)with palm oil(PO)on the performance,tissue fatty acid(FA)composition,and mRNA levels of genes related to hepatic lipid metabolism in grouper(Epinephelus coioides).Five isolipidic(13%crude lipid)and isonitrogenous(48%CP)diets were formulated by incrementally adding PO to the control diet(25%fish meal and 9%added FO)to replace FO in the control diets.Triplicate groups of 30 groupers(initial weight:12.6±0.1 g)were fed one of the diets twice daily,to apparent satiety.The replacement of FO with 50%PO revealed maximum growth without affecting the performance and whole-body proximate compositions,and replacing FO with 100%PO revealed a comparable(P>0.05)growth with that of the control diet,suggesting PO as a suitable alternative to FO.The analysis of FA profiles in the dorsal muscle and liver though reflected the FA profile of the diet,PO substitutions above 50%could compromise(P<0.05)the FA profile in the liver and flesh of the fish species in comparison with the control diet.Furthermore,the mRNA levels of FAS,G6PD,LPL,PPARА,and D6FAD genes in the liver had positive linear and/or quadratic responses,but the SCD,HSL,ATGL,FABP,SREBP-1C and ELOVL5 had the opposite trend,with increasing dietary PO inclusion levels,whereas the mRNA level of ACC was not affected by dietary treatments.The optimal level of PO substitution for FO was estimated to be 47.1%of the feed,based on the regression analysis of percent weight gains against dietary PO inclusion levels;however,it might affect the FA profile in the liver and flesh of the fish species,and further study is required to investigate whether the changes in tissue FA composition will affect the welfare and market value over a production cycle of grouper.
文摘Patients undergoing Roux-en-Y gastric bypass(RYGB)surgery elicit striking loss of body weight. Anatomical restructuring of the gastrointestinal(GI) tract, leading to reduced caloric intake and changes in food preference, are thought to be the primary drivers of weight loss in bariatric surgery patients. However, the mechanisms by which RYGB surgery causes a reduced preference for fatty foods remain elusive. In a recent report, Hankir et al described how RYGB surgery modulated lipid nutrient signals in the intestine of rats to blunt their craving for fatty food. The authors reported that RYGB surgery restored an endogenous fat-satiety signaling pathway, mediated via oleoylethanolamide(OEA), that was greatly blunted in obese animals. In RYGB rats, high fat diet(HFD) led to increased production of OEA that activated the intestinal peroxisome proliferation activator receptors-α(PPARα). In RYGB rats, activation of PPARα by OEA was accompanied by enhanced dopamine neurotransmission in the dorsal striatum and reduced preference for HFD. The authors showed that OEA-mediated signals to the midbrain were transmitted via the vagus nerve. Interfering with either the production of OEA in enterocytes, or blocking of vagal and striatal D1 receptors signals eliminated the decreased craving for fat in RYGB rats. These studies demonstrated that bariatric surgery led to alterations in the reward circuitry of the brain in RYGB rats and reduced their preference for HFD.
基金The authors express their sincere gratitude to Prof.Dr.Praveenkumar Shetty,Director(R&D),Nitte(DU)and Prof.Dr.Anirban Chakraborty,Director(NUCSER),Nitte(DU)for providing research facilities.The authors are grateful to Prof.Dr.Indrani Karunasagar,Director(DST-NUTEC),Nitte(DU)and Prof.Dr.Iddya Karunasagar,Advisor(Research and Patent),Nitte(DU)for their constant support and guidance.The authors also extend their gratitude to Prof.KK Bhat,Former HOD,Sensory Science Dept.,CFTRI,Mysore for his valuable suggestions.The authors acknowledge the Indian Council of Medical Research,New Delhi,India for funding this study.
文摘Lutein is a nutraceutical compound that promotes human eye health and prevents neurodegenerative diseases.The oral bioavailability of lutein is affected by both extrinsic and intrinsic factors in the host.Although hydrophobicity of the compound is further challenging,its lipophilicity can be utilized to micellize and thereby improve its oral bioavailability.Currently,available data on the effects of dietary fats on lutein micellization and permeation is limited and needs further exploration.In this study,the influence of 17 carrier type edible oils on lutein micellization and permeation,was investigated in a simulated digestion model.The overall effectiveness of these oils to permeate micellized lutein was attributed to its Fatty Acid(FA)profile.While 94%of the edible oils exhibited a positive influence on the permeation of micellized lutein,the micellization and permeation efficiency of these oils were significantly(p≤0.05)modulated by the saturation of FA in the order Saturated(SFA)>Mono-Unsaturated(MUFA)>Poly-Unsaturated(PUFA).The highest apparent permeability coefficient was exhibited by lutein micellized in ghee(3.01×10^(-6) cm/s)and butter(2.93×10^(-6) cm/s),which was 1.28 and 1.24 folds higher than lutein alone(2.35×10^(-6) cm/s)respectively.Exceptionally MUFA rich olive oil and PUFA rich flaxseed oil improved lutein permeation by 1.19(2.80×10^(-6) cm/s)and 1.14 folds(2.69×10^(-6) cm/s)respectively.This study is the first to report the influence of saturated fatty acids on micellization and permeation of lutein.Furthermore,the outcomes of this study offer the field of lutein delivery systems a fresh perspective.