Xinjun Xu scite author profile

a b s t r a c tDiabetic nephropathy (DN) is a major diabetic complication. But the initiating molecular events triggering DN are unknown. Recent researches have addressed the role of microRNAs in diabetes and its complications. In this study, we looked for microRNAs expression during early DN, and showed microRNA-21 (miR-21) expression was downregulated in response to early DN in vitro and in vivo. Over-expression of miR-21 inhibited proliferation of mesangial cells and decreased the 24-h urine albumin excretion rate in diabetic db/db mice. Moreover, we identified PTEN as a target of miR-21. We also found PI3 K and p-Akt increased in miR-21 treated mesangial cells and db/db mice. Overall, these studies for the first time provide evidence for the potential role of miR-21 in early DN.

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Common Neurotransmission Recruited in (R,S)-Ketamine and (2R,6R)-Hydroxynorketamine–Induced Sustained Antidepressant-like Effects

Pham

Lavialle-Defaix

et al. 2018

Biological Psychiatry

117

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Glucose Sensing by Skeletal Myocytes Couples Nutrient Signaling to Systemic Homeostasis

et al. 2017

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SUMMARY Skeletal muscle is a major site of postprandial glucose disposal. Inadequate insulin action in skeletal myocytes contributes to hyperglycemia in diabetes. While glucose is known to stimulate insulin secretion by β cells, whether it directly engages nutrient signaling pathways in skeletal muscle to maintain systemic glucose homeostasis remains largely unexplored. Here we identified the Baf60c-Deptor-AKT pathway as a target of muscle glucose sensing that augments insulin action in skeletal myocytes. Genetic activation of this pathway improved postprandial glucose disposal in mice, whereas its muscle-specific ablation impaired insulin action and led to postprandial glucose intolerance. Mechanistically, glucose triggers KATP channel-dependent calcium signaling that promotes HDAC5 phosphorylation and nuclear exclusion, leading to Baf60c induction and insulin-independent AKT activation. This pathway is engaged by the anti-diabetic drugs sulfonylureas to exert their full glucose-lowering effects. These findings uncover an unexpected mechanism of glucose sensing in skeletal myocytes that contributes to homeostasis and therapeutic action.

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Sex-specific neurobiological actions of prophylactic (R,S)-ketamine, (2R,6R)-hydroxynorketamine, and (2S,6S)-hydroxynorketamine

Chen

Luna

LaGamma

et al. 2020

Neuropsychopharmacol.

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Treatment of Obese Insulin-Resistant Mice With an Allosteric MAPKAPK2/3 Inhibitor Lowers Blood Glucose and Improves Insulin Sensitivity

Özcan

Deng

et al. 2015

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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-activated protein kinase (MAPK), and MAPKAPK2/3 (MK2/3). Genetic-based inhibition of these kinases improves metabolism in obese mice. Here, we report that treatment of obese insulin-resistant mice with an allosteric MK2/3 inhibitor, compound (cmpd) 28, ameliorates glucose homeostasis by suppressing excessive HGP and enhancing insulin signaling. The metabolic improvement seen with cmpd 28 is additive with the leading T2D drug, metformin, but it is not additive with dominant-negative MK2, suggesting an on-target mechanism of action. Allosteric MK2/3 inhibitors represent a potentially new approach to T2D that is highly mechanism based, has links to human T2D, and is predicted to avoid certain adverse effects seen with current T2D drugs.

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Xinjun Xu

MicroRNA‐21 protects from mesangial cell proliferation induced by diabetic nephropathy in db/db mice

Common Neurotransmission Recruited in (R,S)-Ketamine and (2R,6R)-Hydroxynorketamine–Induced Sustained Antidepressant-like Effects

Glucose Sensing by Skeletal Myocytes Couples Nutrient Signaling to Systemic Homeostasis

Sex-specific neurobiological actions of prophylactic (R,S)-ketamine, (2R,6R)-hydroxynorketamine, and (2S,6S)-hydroxynorketamine

Treatment of Obese Insulin-Resistant Mice With an Allosteric MAPKAPK2/3 Inhibitor Lowers Blood Glucose and Improves Insulin Sensitivity

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