2015
DOI: 10.2337/db14-1945
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Treatment of Obese Insulin-Resistant Mice With an Allosteric MAPKAPK2/3 Inhibitor Lowers Blood Glucose and Improves Insulin Sensitivity

Abstract: The prevalence of obesity-induced type 2 diabetes (T2D) is increasing worldwide, and new treatment strategies are needed. We recently discovered that obesity activates a previously unknown pathway that promotes both excessive hepatic glucose production (HGP) and defective insulin signaling in hepatocytes, leading to exacerbation of hyperglycemia and insulin resistance in obesity. At the hub of this new pathway is a kinase cascade involving calcium/calmodulin-dependent protein kinase II (CaMKII), p38α mitogen-a… Show more

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Cited by 32 publications
(40 citation statements)
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“…Nonetheless, future studies will likely reveal additional DACH1 targets in HCs that may shed additional light on gene expression changes in obesity. Finally, we recently published that drug-mediated inhibition of MK2, an enzyme linked to CaMKII in HCs in obesity, improves metabolism in obese mice (Ozcan et al, 2015), which is consistent with genetic studies conducted by our group (Ozcan et al, 2013) and an independent laboratory (Ruiz et al, 2015). Given that the upstream kinase pathway promotes diabetes by suppressing ATF6, the findings in this report provide important mechanistic underpinnings for future therapeutic strategies that attempt to improve metabolism in obese T2D subjects by targeting this pathway.…”
Section: Discussionsupporting
confidence: 85%
See 1 more Smart Citation
“…Nonetheless, future studies will likely reveal additional DACH1 targets in HCs that may shed additional light on gene expression changes in obesity. Finally, we recently published that drug-mediated inhibition of MK2, an enzyme linked to CaMKII in HCs in obesity, improves metabolism in obese mice (Ozcan et al, 2015), which is consistent with genetic studies conducted by our group (Ozcan et al, 2013) and an independent laboratory (Ruiz et al, 2015). Given that the upstream kinase pathway promotes diabetes by suppressing ATF6, the findings in this report provide important mechanistic underpinnings for future therapeutic strategies that attempt to improve metabolism in obese T2D subjects by targeting this pathway.…”
Section: Discussionsupporting
confidence: 85%
“…We have recently identified activation of hepatocyte (HC) CaMKII/p38 as a major contributor to aberrant HGP and perturbed insulin signaling in obesity (Ozcan et al, 2013; Ozcan et al, 2012). Treatment of obese mice with a drug inhibitor of the pathway lowers plasma glucose and corrects hyperinsulinemia and is additive in these benefits with the current leading T2D drug, metformin (Ozcan et al, 2015). The CaMKII pathway in HCs perturbs metabolism by lowering the transcription factor ATF6, which can function as a homeostatic regulator of the endoplasmic reticulum (ER) stress response by inducing the chaperone, p58 IPK (Wu et al, 2007).…”
Section: Introductionmentioning
confidence: 99%
“…This pathway has been observed to be upregulated in type II diabetic patients (reviewed in 44 ). In addition, inhibition of MAPKAP2 and MAPKAP3 in obese, insulin-resistant mice has been shown to result in improved metabolism 45 , in line with the association between upregulation of PLAGL1 and the development of TNDM. Furthermore, PLAGL1 may be implicated in lipid metabolism and obesity through its effect on IDI1, PNPLA1, JAK3 , and RAB37 expression 4649 .…”
Section: Resultsmentioning
confidence: 66%
“…To circumvent p38MAPK inhibitor toxicity, an alternative strategy is to target one of the downstream targets of this kinase, such as PRAK/MK5, MSK1/2, MK3, or MK2. Interestingly, similar to p38MAPK, MK2 was recently reported to be activated in diabetic liver (11) and heart (13), and MK2 inhibition improves glucose homeostasis and insulin sensitivity in obese mice (14). Furthermore, mice lacking both MK2 and MK3 display differences in the expression of various genes involved in lipid and carbohydrate metabolism in skeletal muscle (15).…”
mentioning
confidence: 96%