Abstract
Diabetic nephropathy is a major cause of morbidity and mortality in diabetic patients. Effective therapies to prevent the development of this disease are required. Berberine (BBR) has several preventive effects on diabetes and its complications. However, the molecular mechanism of BBR on kidney function in diabetes is not well defined. Here, we reported that activation of AMP-activated protein kinase (AMPK) is required for BBR-induced improvement of kidney function in vivo. AMPK phosphorylation and activity, productions of reactive oxygen species (ROS), kidney function including serum blood urea nitrogen (BUN), creatinine clearance (Ccr), and urinary protein excretion, morphology of glomerulus were determined in vitro or in vivo. Exposure of cultured human glomerulus mesangial cells (HGMCs) to BBR time- or dose-dependently activates AMPK by increasing the thr172 phosphorylation and its activities. Inhibition of LKB1 by siRNA or mutant abolished BBR-induced AMPK activation. Incubation of cells with high glucose (HG, 30 mM) markedly induced the oxidative stress of HGMCs, which were abolished by 5-aminoimidazole-4-carboxamide ribonucleoside, AMPK gene overexpression or BBR. Importantly, the effects induced by BBR were bypassed by AMPK siRNA transfection in HG-treated HGMCs. In animal studies, streptozotocin-induced hyperglycemia dramatically promoted glomerulosclerosis and impaired kidney function by increasing serum BUN, urinary protein excretion, and decreasing Ccr, as well as increased oxidative stress. Administration of BBR remarkably improved kidney function in wildtype mice but not in AMPKα2-deficient mice. We conclude that AMPK activation is required for BBR to improve kidney function in diabetic mice.
Highlights
Diabetes mellitus represents a global threat for premature morbidity and mortality [1]
N is 5 in each group. *P,0.05 vs. control, #P,0.05 vs high glucose (HG) alone. (B) human glomerulus mesangial cells (HGMCs) infected with Ad-green fluorescence protein (GFP) or Ad-AMPK-CA for 48 hours were incubated with HG for 12 hours
We have shown that LKB1-AMPK signaling mediates BBR-protected kidney function in diabetic mice
Summary
Diabetes mellitus represents a global threat for premature morbidity and mortality [1]. Mechanisms underlying nephropathy in diabetes include a range of hemodynamic and metabolic factors [3]. In traditional Chinese medicine, BBR from Coptidis rhizoma is used as a constituent of the herbal medicine Huanglian [5]. In this form it is reported to exert anti-fungal, anti-bacterial/viral, and antioncogenic effects, as well as a beneficial effect on diabetes, and anti-atherogenic properties [6,7]. Several mechanisms are reported to be associated with the beneficial properties of BBR including improvement of sugar and lipid metabolism [8]. BBR has been reported to reduce the incidence of diabetes through suppression of oxidative stress. Whether BBR exerts its beneficial effects in DN and the molecular targets are undefined
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