Wednesday, January 15, 2025
1/15/2025
PROJECT SUMMARY Aging is characterized by chronic, low-grade inflammation that has been termed “Inflammaging.” Similar to aging, obesity is linked to chronic inflammation and older obese adults are at higher risk for developing insulin resistance and ultimately diabetes compared to their lean and aged counterparts. Adipose tissue links inflammaging and obesity to the development of insulin resistance. The mitogen-activated protein kinase (MAPK) family can promote adipocyte insulin resistance and promote/exacerbate adipocyte inflammation. For instance, phosphorylation of the MAPK, extracellular signal-regulated protein kinase 1/2 (ERK1/2), inhibits insulin signaling and induces inflammatory gene expression. However, it is unclear how MAPKs are deactivated in response to adipose tissue inflammation and if MAPK deactivation is critical to compensate and protect against aging- induced insulin resistance in lean vs obese populations. Deactivation of MAPKs is critical for homeostasis in order to maintain adipose tissue function, whereas loss of deactivation potentially amplifies MAPK pro- inflammatory signals that drives metabolic disease progression. Thus, there is a critical need to understand the molecular underpinnings for MAPK deactivation that initiate and fuel inflammaging and obesity in order to identify potential therapeutic targets to treat the progression of subclinical aging before permanent phenotypes like diabetes manifest. This project tests the hypothesis that that dual-specificity phosphatase 5 (DUSP5) is a critical deactivator of nuclear ERK1/2 signaling that serves as a feedback inhibitor to limit Inflammaging-induced insulin resistance in adipose tissue, particularly when linked to obesity. Two aims have been devloped in this proposal to test this postulate. Aim 1, will test the hypothesis that DUSP5 knockout mice have aggravated inflammation, insulin resistance and ERK1/2 activation in aged mice vs. lean counterparts. Aim 2, will test the hypothesis that obesity exacerbates aging-induced inflammation and insulin resistance in DUSP5 knockout mice. This proposal will highlight an emerging role for phosphatases, particularly DUSP5, in adipocyte biology and provide new insights into the control of adipose tissue inflammaging and obesity linked insulin resistance.
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