A hypothesis for insulin resistance in primary human adipocytes involving MRTF-A and suppression of PPAR¿

B Hansson, etc
Biochemical and Biophysical Research Communications, 2020


Obesity is the main risk factor behind insulin resistance and type 2 diabetes. Still, the mechanism behind adipocyte dysfunction is not yet resolved. Recently, we reported that rapid actin remodeling correlates with adipose cell size changes after short-term overfeeding. Therefore, we hypothesized that the actin-driven myocardin-related transcription factor (MRTF-A) contributes to impaired mature adipocyte function.Primary human adipocytes were subjected to adenoviral overexpression of MRTF-A or MRTF-B, followed by Western blot analysis and tracer glucose uptake assay. Further, we assessed cell size distribution, insulin response, MRTF-A localization, actin organization and degree of polymerization in adipocytes isolated from Ob/Ob mice.Overexpression of MRTF-A, but not MRTF-B, markedly suppressed PPAR¿ expression. Further, MRTF-A expression resulted in decreased IRS-1 level, shifted phosphorylation of Akt (pS473/pT308), IRS-1 (pS302) and AS160 (pT642), and lowered insulin-stimulated glucose uptake. Hypertrophic adipocytes from Ob/Ob mice displayed an increased proportion of polymerized actin, and increased nuclear translocation of MRTF-A compared with control (Ob/+). Similar with human adipocytes overexpressing MRTF-A, adipocytes isolated from Ob/Ob mice had reduced expression of IRS-1 and PPAR¿, as well as impaired insulin response.Together, these data demonstrate that MRTF-A negatively influences insulin sensitivity and the expression of key targets in fully mature human adipocytes. This suggests that MRTF-A is poised to exert a transcriptional response in hypertrophic adipocytes, contributing to adipocyte dysfunction and insulin resistance.

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Journal
Biochemical and Biophysical Research Communications
Year
2020
Page
doi: 10.1016/j.bbrc.2020.08.105
Institute
Lund University