Bäckhed F,Wang T.The gut microbiota as an environmental factor that regulates fat storage.Proc Natl Acad Sci U S A2004;101:15718-23 PMCID:PMC524219

Valsecchi C,Castellazzi A.Gut microbiota and obesity.J Clin Gastroenterol2016;50:S157-8

Conterno L,Viola R.Obesity and the gut microbiota: does up-regulating colonic fermentation protect against obesity and metabolic disease?.Genes Nutr2011;6:241-60 PMCID:PMC3145060

Anand S.Host-microbiome interactions: gut-liver axis and its connection with other organs.NPJ Biofilms Microbiomes2022;8:89 PMCID:PMC9626460

Cai J,Jiang C,Patterson AD.Bile acid metabolism and signaling, the microbiota, and metabolic disease.Pharmacol Ther2022;237:108238

Bäckhed F,Semenkovich CF.Mechanisms underlying the resistance to diet-induced obesity in germ-free mice.Proc Natl Acad Sci U S A2007;104:979-84 PMCID:PMC1764762

Ellekilde M,Larsen CS.Transfer of gut microbiota from lean and obese mice to antibiotic-treated mice.Sci Rep2014;4:5922 PMCID:PMC4118149

Vajro P,Fasano A.Microbiota and gut-liver axis: their influences on obesity and obesity-related liver disease.J Pediatr Gastroenterol Nutr2013;56:461-8 PMCID:PMC3637398

Zheng C,Guo Q,Yin Y.Glutamate increases the lean percentage and intramuscular fat content and alters gut microbiota in Shaziling pigs.Anim Nutr2025;20:110-9 PMCID:PMC11833783

Wang F,Yao M.Dietary succinate reduces fat deposition through gut microbiota and lipid metabolism in broilers.Poult Sci2024;103:103954 PMCID:PMC11253672

Wang L,Gober HJ.Alterations in the intestinal microbiome associated with PCOS affect the clinical phenotype.Biomed Pharmacother2021;133:110958

Cui X,Jiang Z.Dietary fiber modulates abdominal fat deposition associated with cecal microbiota and metabolites in yellow chickens.Poult Sci2022;101:101721 PMCID:PMC8866719

Breton J,Déchelotte P.Dysbiotic gut bacteria in obesity: an overview of the metabolic mechanisms and therapeutic perspectives of next-generation probiotics.Microorganisms2022;10:452 PMCID:PMC8877435

Guzzardi MA,Iozzo P.Trust the gut: outcomes of gut microbiota transplant in metabolic and cognitive disorders.Neurosci Biobehav Rev2023;149:105143

Houtman TA,Smidt H.Gut microbiota and BMI throughout childhood: the role of firmicutes, bacteroidetes, and short-chain fatty acid producers.Sci Rep2022;12:3140 PMCID:PMC8873392

Ley RE,Turnbaugh P,Knight RD.Obesity alters gut microbial ecology.Proc Natl Acad Sci U S A2005;102:11070-5 PMCID:PMC1176910

May KS.Modulation of adipocyte metabolism by microbial short-chain fatty acids.Nutrients2021;13:3666 PMCID:PMC8538331

Cheng Z,Yang L.The critical role of gut microbiota in obesity.Front Endocrinol2022;13:1025706 PMCID:PMC9630587

Kieffer DA,Marco ML.Mice fed a high-fat diet supplemented with resistant starch display marked shifts in the liver metabolome concurrent with altered gut bacteria.J Nutr2016;146:2476-90 PMCID:PMC5118768

Zhang L,Li H.Metabolic phenotypes and the gut microbiota in response to dietary resistant starch type 2 in normal-weight subjects: a randomized crossover trial.Sci Rep2019;9:4736 PMCID:PMC6426958

Cho KY.Association of gut microbiota with obesity in children and adolescents.Clin Exp Pediatr2023;66:148-54 PMCID:PMC10080385

Wang G,Sun C.Gut microbiota and metabolite insights into anti-obesity effect of carboxymethyl pachymaran in high-fat diet mice.J Funct Foods2023;111:105898

Yin J,Tian Y.Obese Ningxiang pig-derived microbiota rewires carnitine metabolism to promote muscle fatty acid deposition in lean DLY pigs.Innovation2023;4:100486 PMCID:PMC10448216

Li C,Zhao G.Comparative analysis of structural composition and function of intestinal microbiota between Chinese indigenous Laiwu Pigs and commercial DLY Pigs.Vet Sci2023;10:524 PMCID:PMC10458769

Yang M,Wang J.Ningxiang pig-derived lactobacillus reuteri modulates host intramuscular fat deposition via branched-chain amino acid metabolism.Microbiome2025;13:32 PMCID:PMC11786426

Bergamaschi M,Howard J.Gut microbiome composition differences among breeds impact feed efficiency in swine.Microbiome2020;8:110 PMCID:PMC7376719

Shang P,Duan M,Chamba Y.Healthy gut microbiome composition enhances disease resistance and fat deposition in Tibetan Pigs.Front Microbiol2022;13:965292 PMCID:PMC9343729

Luo Y,Smidt H.Dynamic distribution of gut microbiota in pigs at different growth stages: composition and contribution.Microbiol Spectr2022;10:e0068821 PMCID:PMC9241710

Wu C,Hong Q,Yang H.Gut microbiota influence lipid metabolism of skeletal muscle in pigs.Front Nutr2021;8:675445 PMCID:PMC8076524

Wen C,Sun C.The gut microbiota is largely independent of host genetics in regulating fat deposition in chickens.ISME J2019;13:1422-36 PMCID:PMC6775986

Chen Y,Ma Z.Chicken cecal microbiota reduces abdominal fat deposition by regulating fat metabolism.NPJ Biofilms Microbiomes2023;9:28 PMCID:PMC10229630

Liu X,Wang Y.Age-associated changes in the growth development of abdominal fat and their correlations with cecal gut microbiota in broiler chickens.Poult Sci2023;102:102900 PMCID:PMC10466292

Liu Y,Liu X.Dietary folic acid addition reduces abdominal fat deposition mediated by alterations in gut microbiota and SCFA production in broilers.Anim Nutr2023;12:54-62 PMCID:PMC9684696

Liu X,Li Y.Fecal microbiota transplantation revealed the function of folic acid on reducing abdominal fat deposition in broiler chickens mediated by gut microbiota.Poult Sci2024;103:103392 PMCID:PMC10792633

Nan S,Zhang X.Fermented grape seed meal promotes broiler growth and reduces abdominal fat deposition through intestinal microorganisms.Front Microbiol2022;13:994033 PMCID:PMC9589342

Dai H,Zhang Y.Dietary phytosterols supplementation improves the growth performance and decreases the abdominal fat of broiler chickens by regulating intestinal epithelial structure and microbiota.Anim Feed Sci Technol2023;305:115786

Zhang Y,Li J.Dietary corn-resistant starch suppresses broiler abdominal fat deposition associated with the reduced cecal Firmicutes.Poult Sci2020;99:5827-37 PMCID:PMC7647821

Wu T,Fu Q.Effects of dietary supplementation of Anoectochilus roxburghii extract (ARE) on growth performance, abdominal fat deposition, meat quality, and gut microbiota in broilers.Poult Sci2023;102:102842 PMCID:PMC10404775

Xiao L,Qin L.Multi-omics reveal the effects and regulatory mechanism of dietary echinocystic acid supplementation on abdominal fat and liver steatosis in broiler chickens.Poult Sci2025;104:104981 PMCID:PMC11932685

Wang M,Wang C.Lactococcus G423 improve growth performance and lipid metabolism of broilers through modulating the gut microbiota and metabolites.Front Microbiol2024;15:1381756 PMCID:PMC11210191

Jing Y,Monson M.Multi-omics association reveals the effects of intestinal microbiome-host interactions on fat deposition in broilers.Front Microbiol2021;12:815538 PMCID:PMC8892104

Liu J,Zhou Y.Integrated omics analysis reveals differences in gut microbiota and gut-host metabolite profiles between obese and lean chickens.Poult Sci2022;101:102165 PMCID:PMC9523386

Lei J,Hou Q.Intestinal microbiota regulate certain meat quality parameters in chicken.Front Nutr2022;9:747705 PMCID:PMC9085416

Xiang H,Zeng D.Specific microbial taxa and functional capacity contribute to chicken abdominal fat deposition.Front Microbiol2021;12:643025 PMCID:PMC8010200

He J,Shen L.Short-chain fatty acids and their association with signalling pathways in inflammation, glucose and lipid metabolism.Int J Mol Sci2020;21:6356 PMCID:PMC7503625

Tolhurst G,Lam YS.Short-chain fatty acids stimulate glucagon-like peptide-1 secretion via the G-protein-coupled receptor FFAR2.Diabetes2012;61:364-71 PMCID:PMC3266401

den Besten G,Gerding A.Short-chain fatty acids protect against high-fat diet-induced obesity via a PPARγ-dependent switch from lipogenesis to fat oxidation.Diabetes2015;64:2398-408

Xiao S,Chen M.Xiexin Tang ameliorates dyslipidemia in high-fat diet-induced obese rats via elevating gut microbiota-derived short chain fatty acids production and adjusting energy metabolism.J Ethnopharmacol2019;241:112032

Wang L,Huang Y,Shan T.Conjugated linoleic acids inhibit lipid deposition in subcutaneous adipose tissue and alter lipid profiles in serum of pigs.J Anim Sci2023;101:skad294 PMCID:PMC10629446

di Gregorio MC, Cautela J, Galantini L. Physiology and physical chemistry of bile acids.Int J Mol Sci2021;22:1780 PMCID:PMC7916809

Dong Z,Tang C,Kan Y.New insights into microbial bile salt hydrolases: from physiological roles to potential applications.Front Microbiol2025;16:1513541 PMCID:PMC11860951

Li R,Kuipers F.Gut microbiome and bile acids in obesity-related diseases.Best Pract Res Clin Endocrinol Metab2021;35:101493

Finn PD,Kohler J.Intestinal TGR5 agonism improves hepatic steatosis and insulin sensitivity in Western diet-fed mice.Am J Physiol Gastrointest Liver Physiol2019;316:G412-24 PMCID:PMC6459286

Lun W,Guo X.Mechanism of action of the bile acid receptor TGR5 in obesity.Acta Pharm Sin B2024;14:468-91 PMCID:PMC10840437

Pols TW,Harach T.TGR5 activation inhibits atherosclerosis by reducing macrophage inflammation and lipid loading.Cell Metab2011;14:747-57 PMCID:PMC3627293

Boutagy NE,Frisard MI.Metabolic endotoxemia with obesity: is it real and is it relevant?.Biochimie2016;124:11-20 PMCID:PMC4695328

Cani PD,Iglesias MA.Metabolic endotoxemia initiates obesity and insulin resistance.Diabetes2007;56:1761-72

Mohammad S.Role of metabolic endotoxemia in systemic inflammation and potential interventions.Front Immunol2020;11:594150 PMCID:PMC7829348

Ye D,Zhao Y,Van Berkel TJ.ATP-binding cassette transporters A1 and G1, HDL metabolism, cholesterol efflux, and inflammation: important targets for the treatment of atherosclerosis.Curr Drug Targets2011;12:647-60

Gojda J.Gut microbiota as the link between elevated BCAA serum levels and insulin resistance.Biomolecules2021;11:1414 PMCID:PMC8533624

Vanweert F,Phielix E.Role of branched-chain amino acid metabolism in the pathogenesis of obesity and type 2 diabetes-related metabolic disturbances BCAA metabolism in type 2 diabetes.Nutr Diabetes2022;12:35 PMCID:PMC9356071

Daniel N,Tran TTT.Gut microbiota and fermentation-derived branched chain hydroxy acids mediate health benefits of yogurt consumption in obese mice.Nat Commun2022;13:1343 PMCID:PMC8924213

Segawa H,Miyamoto K,Endou H.Identification and functional characterization of a Na⁺-independent neutral amino acid transporter with broad substrate selectivity.J Biol Chem1999;274:19745-51

Wallace M,Roberts LS.Enzyme promiscuity drives branched-chain fatty acid synthesis in adipose tissues.Nat Chem Biol2018;14:1021-31 PMCID:PMC6245668

Green CR,Divakaruni AS.Branched-chain amino acid catabolism fuels adipocyte differentiation and lipogenesis.Nat Chem Biol2016;12:15-21 PMCID:PMC4684771

Zaganjor E,Spinelli JB.SIRT4 is an early regulator of branched-chain amino acid catabolism that promotes adipogenesis.Cell Rep2021;36:109345 PMCID:PMC8320302

Yoneshiro T,Tajima K.BCAA catabolism in brown fat controls energy homeostasis through SLC25A44.Nature2019;572:614-9 PMCID:PMC6715529

Ejtahed HS,Soroush AR,Siadat SD.Gut microbiota-derived metabolites in obesity: a systematic review.Biosci Microbiota Food Health2020;39:65-76 PMCID:PMC7392910

Mansoori S,Ng KK.Branched-chain amino acid metabolism: pathophysiological mechanism and therapeutic intervention in metabolic diseases.Obes Rev2025;26:e13856 PMCID:PMC11711082

Van Hul M, Cani PD. The gut microbiota in obesity and weight management: microbes as friends or foe?.Nat Rev Endocrinol2023;19:258-71

Nemoto S,Ohno H.Exploring body weight-influencing gut microbiota by elucidating the association with diet and host gene expression.Sci Rep2023;13:5593 PMCID:PMC10076326

Velloso LA,Saad MJ.TLR4 at the crossroads of nutrients, gut microbiota, and metabolic inflammation.Endocr Rev2015;36:245-71

Sanmiguel C,Mayer EA.Gut microbiome and obesity: a plausible explanation for obesity.Curr Obes Rep2015;4:250-61 PMCID:PMC4443745

Ecklu-Mensah G,Maseng MG.Gut microbiota and fecal short chain fatty acids differ with adiposity and country of origin: the METS-microbiome study.Nat Commun2023;14:5160 PMCID:PMC10055249

Visuthranukul C,Tepaamorndech S.Enhancing gut microbiota and microbial function with inulin supplementation in children with obesity.Int J Obes2024;48:1696-704 PMCID:PMC11584386

Slouha E,Farahbod K,Clunes LA.Type-2 diabetes mellitus and the gut microbiota: systematic review.Cureus2023;15:e49740 PMCID:PMC10757596

Zeng Y,Zhang Q.Crosstalk between glucagon-like peptide 1 and gut microbiota in metabolic diseases.mBio2024;15:e0203223 PMCID:PMC10790698

Wu J,Fan H,Xiong Q.Targeting the gut microbiota and its metabolites for type 2 diabetes mellitus.Front Endocrinol2023;14:1114424 PMCID:PMC10204722

Hernández-Montoliu L,Puig R.A specific gut microbiota signature is associated with an enhanced GLP-1 and GLP-2 secretion and improved metabolic control in patients with type 2 diabetes after metabolic Roux-en-Y gastric bypass.Front Endocrinol2023;14:1181744 PMCID:PMC10616869

Byndloss M,Duca F.The gut microbiota and diabetes: research, translation, and clinical applications - 2023 Diabetes, Diabetes Care, and Diabetologia Expert Forum.Diabetes Care2024;47:1491-508 PMCID:PMC11362125

Cui X,Yang Y.Administration of selenomethionine in combination with serine benefits diabetes via gut microbiota.Front Microbiol2022;13:1007814 PMCID:PMC9597302

Su X,Liu J.Composition of gut microbiota and non-alcoholic fatty liver disease: a systematic review and meta-analysis.Obes Rev2024;25:e13646

Zai W,Liu H.Therapeutic opportunities of IL-22 in non-alcoholic fatty liver disease: from molecular mechanisms to clinical applications.Biomedicines2021;9:1912 PMCID:PMC8698419

Maestri M,Pompili M,Ponziani FR.Gut microbiota modulation in patients with non-alcoholic fatty liver disease: effects of current treatments and future strategies.Front Nutr2023;10:1110536 PMCID:PMC9978194

Pezzino S,Mazzone C.Gut microbiome in the progression of NAFLD, NASH and cirrhosis, and its connection with biotics: a bibliometric study using dimensions scientific research database.Biology2023;12:662 PMCID:PMC10215374

Liu J,Cai J,Li H.The contribution of the gut-liver axis to the immune signaling pathway of NAFLD.Front Immunol2022;13:968799 PMCID:PMC9471422

Alveirinho M,Faleiro ML.Role of gut microbiota in metabolic syndrome: a review of recent evidence.Porto Biomed J2020;5:e105 PMCID:PMC7721214

Qureshi W,Rather MY.New therapy for metabolic syndrome: gut microbiome supplementation.World J Diabetes2024;15:1833-6 PMCID:PMC11372646

Li J,Wang Y.Gut microbiota dysbiosis contributes to the development of hypertension.Microbiome2017;5:14 PMCID:PMC5286796

Nakai M,Stevens BR.Essential hypertension is associated with changes in gut microbial metabolic pathways: a multisite analysis of ambulatory blood pressure.Hypertension2021;78:804-15

Li C,Ren H.Unraveling the gut microbiota’s role in PCOS: a new frontier in metabolic health.Front Endocrinol2025;16:1529703 PMCID:PMC11958223

Senthilkumar H.Gut microbiota: a hidden player in polycystic ovary syndrome.J Transl Med2025;23:443 PMCID:PMC11998441

da Silva TR,Rampelotto PH.Gut microbiota and gut-derived metabolites are altered and associated with dietary intake in women with polycystic ovary syndrome.J Ovarian Res2024;17:232 PMCID:PMC11583432