Fructus Ligustri Lucidi preserves bone quality through the regulation of gut microbiota diversity, oxidative stress, TMAO and Sirt6 levels in aging mice

Lin Li(Beijing University of Chinese Medicine), Beibei Chen(Beijing University of Chinese Medicine), Ruyuan Zhu(Beijing University of Chinese Medicine), Rui Li(Beijing University of Chinese Medicine), Yimiao Tian(Beijing University of Chinese Medicine), Chenyue Liu(Beijing University of Chinese Medicine), Qiangqiang Jia(Beijing University of Chinese Medicine), Lili Wang(Beijing University of Chinese Medicine), Jinfa Tang(First Affiliated Hospital of Henan University of Traditional Chinese Medicine), Dandan Zhao(Beijing University of Chinese Medicine), Fangfang Mo(Beijing University of Chinese Medicine), Yan Liu(Beijing University of Chinese Medicine), Yu Li(Beijing University of Chinese Medicine), Alexander N. Orekhov(Research Institute of General Pathology and Pathophysiology, the Russian Academy of Medical Sciences), Dieter Brömme(University of British Columbia), Dongwei Zhang(Beijing University of Chinese Medicine), Si‐Hua Gao(Beijing University of Chinese Medicine)
Aging
November 12, 2019
10.18632/aging.102376
Cited by 126Open Access
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Abstract

that resulted in increased levels of flavin-containing monooxygenase-3 and trimethylamine-N-oxide (TMAO). Moreover, the increased oxidative stress further accelerated aging by increasing tumor necrosis factor-α levels in serum and reducing Sirtuin 6 (Sirt6) expression in long bones, which prompted nuclear factor kappa-B acetylation as well as over-expression and activation of cathepsin K. FLL-treated aging mice revealed a non-osteoporotic bone phenotype and an improvement on the cognitive function. The mechanism underlying these effects may be linked to the regulation of gut microbiota diversity, antioxidant activity, and the levels of TMAO and Sirt6. FLL may represent a potential source for identifying anti-senile osteoporotic drug candidates.

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