DR1 Activation Inhibits the Proliferation of Vascular Smooth Muscle Cells Through Increasing Endogenous HS in Diabetes

Overview

Journal Aging Dis

Specialty Geriatrics

Date 2022 Jun 3

PMID 35656112

Authors

Yuxin Xi

Xin Wen

Yuanzhou Zhang

Lijie Jiao

Shuzhi Bai

Sa Shi

Guiquan Chang

Ren Wu

Fengqi Sun

Jinghui Hao

Hongzhu Li

Affiliations

Soon will be listed here.

Abstract

Tissue ischemia and hypoxia caused by the abnormal proliferation of smooth muscle cells (SMCs) in the diabetic state is an important pathological basis for diabetic microangiopathy. Studies in recent years have shown that the chronic complications of diabetes are related to the decrease of endogenous hydrogen sulfide (HS) in diabetic patients, and it has been proven that HS can inhibit the proliferation of vascular SMCs (VSMCs). Our study showed that the endogenous HS content and the expression of cystathionine gamma-lyase (CSE), which is the key enzyme of HS production, were decreased in arterial SMCs of diabetic mice. The expression of PCNA and Cyclin D1 was increased, and the expression of p21 was decreased in the diabetic state. After administration of dopamine 1-like receptors (DR1) agonist SKF38393 and exogenous HS donor NaHS, the expression of CSE was increased and the change in proliferation-related proteins caused by diabetes was reversed. It was further verified by cell experiments that SKF38393 activated calmodulin (CaM) by increasing the intracellular calcium ([Ca]) concentration, which activated the CSE/HS pathway, enhancing the HS content in vivo. We also found that SKF38393 and NaHS inhibited insulin-like growth factor-1 (IGF-1)/IGF-1R and heparin-binding EGF-like growth factor (HB-EGF)/EGFR, as well as their downstream PI3K/Akt, JAK2/STAT3 and ERK1/2 pathways. Taken together, our results suggest that DR1 activation up-regulates the CSE/HS system by increasing Ca-CaM binding, which inhibits the IGF-1/IGF-1R and HB-EGF/EGFR pathways, thereby decreasing their downstream PI3K/Akt, JAK2/STAT3 and ERK1/2 pathways to achieve the effect of inhibiting HG-induced VSMCs proliferation.

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