2022 年 142 巻 5 号 p. 449-456
Prolyl isomerase Pin1 is associated with various substrates and controls their functions through the isomerization of proline. Interestingly, a high fat diet increases Pin1 levels in adipose tissues. Accordingly, we investigated how Pin1 regulates energy metabolism in adipose tissues. Currently, adipocytes are divided into three types with distinct features. White adipocytes (WATs) store energy as triglycerides under fed conditions and release non-esterified fatty acids and glycerol through lipolysis while fasting. Brown and beige adipocytes, which exist in subcutaneous fat (scWAT), promote energy consumption through thermogenesis. We found that Pin1 impacts both thermogenesis and lipolysis upon interaction with distinct substrates. When mice were exposed to cold stress, both brown adipose tissues (BAT) and scWAT from adipocyte-specific Pin1 knockout (KO) mice showed higher expression levels of thermogenic genes in comparison to those from wild-type mice. Furthermore, we observed that Pin1 binds to the PRDM16 transcriptional cofactor, a major contributor to thermogenic programs, and promotes its degradation. Therefore, Pin1 suppresses thermogenesis. Meanwhile, in white adipocytes, Pin1 is involved in lipolysis. Pin1 deficiency enhanced lipolysis activity in epididymal WAT (epiWAT), but not in scWAT and BAT. In epiWAT, Pin1 interacts with adipose triglyceride lipase (ATGL) which is a rate-limiting enzyme for lipolysis, and downregulates ATGL levels. Finally, adipocyte-specific Pin1 KO mice have less body weight and better glucose metabolism under high fat diet conditions. These observations indicate that Pin1 is involved in the function of adipocytes through its association with PRDM16 and ATGL. Pin1 inhibitors could have therapeutic applications in the treatment of obesity.
