Vascular smooth muscle cell phenotypic transition regulates gap junctions of cardiomyocyte

En Zhou,Tiantian Zhang,Changlong Bi,Zongqi Zhang,Changqian Wang

doi:10.1007/s00380-020-01602-3

Abstract

Atrial fibrillation (AF) is one of the most prevalent arrhythmias. Myocardial sleeves of the pulmonary vein are critical in the occurrence of AF. Our study aims to investigate the effect of synthetic vascular smooth muscle cells (SMCs) on gap junction proteins in cardiomyocytes. (1) Extraction of vascular SMCs from the pulmonary veins of Norway rats. TGF-β1 was used to induce the vascular SMCs switching to the synthetic phenotype and 18-α-GA was used to inhibit gap junctions of SMCs. The contractile and synthetic phenotype vascular SMCs were cocultured with HL-1 cells; (2) Western blotting was used to detect the expression of Cx43, Cx40 and Cx45 in HL-1 cells, and RT-PCR to test microRNA 27b in vascular SMCs or in HL-1 cells; (3) Lucifer yellow dye transfer experiment was used to detect the function of gap junctions. (1) TGF- β1 induced the vascular SMCs switching to synthetic phenotype; (2) Cx43 was significantly increased, and Cx40 and Cx45 were decreased in HL-1 cocultured with synthetic SMCs; (3) The fluorescence intensity of Lucifer yellow was higher in HL-1 cocultured with synthetic SMCs than that in the cells cocultured with contractile SMCs, which was inhibited by18-α-GA; (4) the expression of microRNA 27b was increased in HL-1 cocultured with synthetic SMCs, which was attenuated markedly by 18-α-GA. (5) the expression of ZFHX3 was decreased in HL-1 cocultured with synthetic SMCs, which was reversed by 18-α-GA. The gap junction proteins of HL-1 were regulated by pulmonary venous SMCs undergoing phenotypic transition in this study, accompanied with the up-regulation of microRNA 27b and the down-regulation of ZFHX3 in HL-1 cells, which was associated with heterocellular gap junctions between HL-1 and pulmonary venous SMCs.

Highlights

Atrial fibrillation (AF) is one of the most prevalent arrhythmias, which increased the risk of heart failure, stroke and sudden death [1, 2]
(1) TGF- β1 induced the vascular smooth muscle cells (SMCs) switching to synthetic phenotype; (2) Cx43 was significantly increased, and Cx40 and Cx45 were decreased in HL-1 cocultured with synthetic SMCs; (3) The fluorescence intensity of Lucifer yellow was higher in HL-1 cocultured with synthetic SMCs than that in the cells cocultured with contractile SMCs, which was inhibited by18-α-GA; (4) the expression of microRNA 27b was increased in HL-1 cocultured with synthetic SMCs, which was attenuated markedly by 18-α-GA. (5) the expression of ZFHX3 was decreased in HL-1 cocultured with synthetic SMCs, which was reversed by 18-α-GA
We found that the gap junctions in HL-1 cells were regulated by synthetic pulmonary venous SMCs, accompanied with the increased miR-27b and decreased ZFHX3 markedly in HL-1 cells

Summary

Introduction

Atrial fibrillation (AF) is one of the most prevalent arrhythmias, which increased the risk of heart failure, stroke and sudden death [1, 2]. Cx43 was downregulated by JNK activation promoting AF development [6], and Cx40 was related to idiopathic AF clinically [7]. In atrium, it mainly expresses Cx40, Cx43 and Cx45. Connexins expression and molecular properties of ion channels have been demonstrated to resemble those of the working myocardium under physiological conditions [8], such as Cx43 in the pulmonary sleeves comparable to atrial myocardium [9]. When under pathological conditions, connexins remodeling occurring in pulmonary vein could play a pivotal role in AF initiation [10], such as Cx40 protein that was downregulated markedly in the pulmonary sleeves of AF dogs [10]. The regulation of connexins expression in pulmonary venous cardiomyocytes is not fully elucidated

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