SIRT1 inhibitors within Qing-Luo-Yin alleviated white adipose tissues-mediated inflammation in antigen-induced arthritis mice

ABSTRACT Background White adipose tissues (WAT) release large amounts of inflammatory mediators, which are deeply implicated in the pathology of rheumatoid arthritis (RA). Purpose The current study investigated the involvement of WAT in the treatments of antigen-induced arthritis (AIA) mice with the herbal formula Qing-Luo-Yin (QLY). Methods Cytokines and biochemical/metabolic indicators were determined by ELISA and colorimetry methods, respectively. Monocytes were analyzed by flow cytometry. Tissues were subjected to PCR, western-blot and histological analyses. Pre-adipocytes were cultured in the different mouse serum from the in vivo experiment, and some of them were treated by certain compounds or/and lipopolysaccharide. Afterwards, the catalytic activity and thermostability of SIRT1 were tested. Gene/protein expression and cytokine production were investigated too. NAMPT and SIRT1 were silenced in some cells by siRNA. Results AIA mice suffered from inflammatory adipokines-mediated metabolism and immune disorders. Besides joint protective effects, QLY therapies favored adipocyte differentiation and suppressed inflammatory adipokines release. The up-regulation of fatty acid oxidation and inflammatory monocyte polarization was therefore inhibited in peripheral tissues. PPARγ expression was generally promoted by QLY. Whereas, SIRT1 activity was always impaired, indicated by the declined NAD + levels and the increased ace-p65 expression. QLY effectively inhibited eNAMPT release in AIA mouse serum-cultured pre-adipocytes. This effect was antagonized by resveratrol (a SIRT1 agonist) and overshadowed by NAMPT silencing. QLY-related compounds berberine, dioscin and sophocarpine showed high binding affinities to SIRT1, stabilized this protein, and inhibited its deacetylation activity in vitro . Their effects on ace-p65 expression were weakened when SIRT1 was silenced. Conclusion SIRT1 inhibitors in QLY reduced eNAMPT production and up-regulated PPARγ in AIA mice, leading to inflammation remission. These clues show that except for the well-known anti-inflammatory functions, SIRT1 participates in inflammatory reactions too and could be a potential anti-rheumatic target.

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