68.Singh,R., Chandrashekharappa, S., Bodduluri, S.R., Baby, B.V., Hegde, B., Kotla,N.G., Hiwale, A.A., Saiyed, T., Patel, P., Vijay-Kumar, M., et al. (2019). Enhancementof the gut barrier integrity by a microbial metabolite through the Nrf2pathway. Nat. Commun. 10, https://doi.org/10.1038/s41467-018-07859-7.
69.Muku,G.E., Murray, I.A., Espin, J.C., and Perdew, G.H. (2018). Urolithin A Is a DietaryMicrobiota-Derived Human Aryl Hydrocarbon Receptor Antagonist. Metabolites 8, https://doi.org/10.3390/metabo8040086.
70.Andreux,P.A., Blanco-Bose, W., Ryu, D., Burdet, F., Ibberson, M., Aebischer, P.,Auwerx, J., Singh, A., and Rinsch, C. (2019). The mitophagy activator urolithinA is safe and induces a molecular signature of improved mitochondrial andcellular health in humans. Nature Metabolism 1, 595–603.
71.Sun,Q., Wedick, N.M., Pan, A., Townsend, M.K., Cassidy, A., Franke, A.A., Rimm,E.B., Hu, F.B., and van Dam, R.M. (2014). Gut Microbiota Metabolites of DietaryLignans and Risk of Type 2 Diabetes: A Prospective Investigation in Two Cohortsof U. S. Women. Diabetes Care 37, 1287–1295.
72.Zhou,F., Furuhashi, K., Son, M.J., Toyozaki, M., Yoshizawa, F., Miura, Y., and Yagasaki,K. (2017). Antidiabetic effect of enterolactone in cultured muscle cells and intype 2 diabetic model db/db mice. Cytotechnology 69, 493–502.
73.Joice,R., Yasuda, K., Shafquat, A., Morgan, X.C., and Huttenhower, C. (2014). DeterminingMicrobial Products and Identifying Molecular Targets in the Human Microbiome.Cell Metab. 20, 731–741.
74.Thaiss,C.A., Levy, M., Korem, T., Dohnalova, L., Shapiro, H., Jaitin, D.A., David, E.,Winter, D.R., Gury-BenAri, M., Tatirovsky, E., et al. (2016a). Microbiota DiurnalRhythmicity Programs Host Tranome Oscillations. Cell 167, 1495–1510e1412.
75.Kasahara,K., Krautkramer, K.A., Org, E., Romano, K.A., Kerby, R.L., Vivas, E.I.,Mehrabian, M., Denu, J.M., Backheds, F., Lusis, A., et al. (2018). Interactionsbetween Roseburia intestinalis and diet modulate atherogenesis in a murinemodel. Nat. Microbiol. 3, 1461–1471.
76.Suez,J., Zmora, N., Zilberman-Schapira, G., Mor, U., Dori-Bachash, M., Bashiardes,S., Zur, M., Regev-Lehavi, D., Brik, R.B., Federici, S., et al. (2018). Post-AntibioticGut Mucosal Microbiome Reconstitution Is Impaired by Probiotics and Improved byAutologous FMT. Cell 174, 1406–1423.
作者｜gemiu
审校｜617
编辑｜笑咲
投稿/转载
联系人：何隽

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