Andrographolide Ameliorates Diabetic Nephropathy by Attenuating Hyperglycemia-mediated Renal Oxidative Stress and Inflammation Via Akt/NF-κB Pathway

Overview

Journal Mol Cell Endocrinol

Specialties Cell Biology
Endocrinology
Molecular Biology

Date 2016 Jul 6

PMID 27378149

Citations 37

Authors

Xiaoqian Ji

Changzheng Li

Yitao Ou

Ning Li

Kai Yuan

Guizhi Yang

Xiaoyan Chen

Zhicheng Yang

Bing Liu

Wai W Cheung

Lijing Wang

Ren Huang

Tian Lan

Affiliations

Soon will be listed here.

Abstract

Diabetic nephropathy (DN) is characterized by proliferation of mesangial cells, mesangial hypertrophy and extracellular matrix (ECM) accumulation. Our recent study found that andrographolide inhibited high glucose-induced mesangial cell proliferation and fibronectin expression through inhibition of AP-1 pathway. However, whether andrographolide has reno-protective roles in DN has not been fully elucidated. Here, we studied the pharmacological effects of andrographolide against the progression of DN and high glucose-induced mesangial dysfunction. Diabetes was induced in C57BL/6 mice by intraperitoneal injection of streptozotocin (STZ). After 1 weeks after STZ injection, normal diet was substituted with a high-fat diet (HFD). Diabetic mice were intraperitoneal injected with andrographolide (2 mg/kg, twice a week). After 8 weeks, functional and histological analyses were carried out. Parallel experiments uncovering the molecular mechanism by which andrographolide prevents from DN was performed in mesangial cells. Andrographolide inhibited the increases in fasting blood glucose, triglyceride, kidney/body weight ratio, blood urea nitrogen, serum creatinine and 24-h albuminuria in diabetic mice. Andrographolide also prevented renal hypertrophy and ECM accumulation. Furthermore, andrographolide markedly attenuated NOX1 expression, ROS production and pro-inflammatory cytokines as well. Additionally, andrographolide inhibited Akt/NF-κB signaling pathway. These results demonstrate that andrographolide is protective against the progression of experimental DN by inhibiting renal oxidative stress, inflammation and fibrosis.

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