Upregulation of WDR6 drives hepatic de novo lipogenesis in insulin resistance in mice.
Zhenyu YaoYing GongWenbin ChenShanshan ShaoYongfeng SongHonglin GuoQihang LiSijin LiuXi-Ming WangZhenhai ZhangJiajun ZhaoYunyun XuYingjie WuQiang WanXinya ZhaoQiuhui XuanDawei WangXiaoyan LinJiawen XuJun LiuChristopher G ProudXuemin WangRui YangLili FuShaona NiuJunjie KongLing GaoTao BoJiajun ZhaoPublished in: Nature metabolism (2023)
Under normal conditions, insulin promotes hepatic de novo lipogenesis (DNL). However, during insulin resistance (IR), when insulin signalling is blunted and accompanied by hyperinsulinaemia, the promotion of hepatic DNL continues unabated and hepatic steatosis increases. Here, we show that WD40 repeat-containing protein 6 (WDR6) promotes hepatic DNL during IR. Mechanistically, WDR6 interacts with the beta-type catalytic subunit of serine/threonine-protein phosphatase 1 (PPP1CB) to facilitate PPP1CB dephosphorylation at Thr316, which subsequently enhances fatty acid synthases transcription through DNA-dependent protein kinase and upstream stimulatory factor 1. Using molecular dynamics simulation analysis, we find a small natural compound, XLIX, that inhibits the interaction of WDR6 with PPP1CB, thus reducing DNL in IR states. Together, these results reveal WDR6 as a promising target for the treatment of hepatic steatosis.
Keyphrases
- protein kinase
- molecular dynamics simulations
- type diabetes
- high fat diet induced
- insulin resistance
- fatty acid
- binding protein
- glycemic control
- adipose tissue
- molecular docking
- protein protein
- dna methylation
- gene expression
- poor prognosis
- single molecule
- amino acid
- single cell
- signaling pathway
- cell free
- nucleic acid