Activation of PERK branch of ER stress mediates homocysteine-induced BK Ca  channel dysfunction in coronary artery via FoxO3a-dependent regulation of atrogin-1

Wen-Tao Sun; Xiang-Chong Wang; Shiu-Kwong Mak; Guo-Wei He; Xiao-Cheng Liu; Malcolm John Underwood; Qin Yang

doi:10.18632/oncotarget.17721

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Research Papers:

Activation of PERK branch of ER stress mediates homocysteine-induced BK_Ca channel dysfunction in coronary artery via FoxO3a-dependent regulation of atrogin-1

Wen-Tao Sun, Xiang-Chong Wang, Shiu-Kwong Mak, Guo-Wei He, Xiao-Cheng Liu, Malcolm John Underwood and Qin Yang _

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Oncotarget. 2017; 8:51462-51477. https://doi.org/10.18632/oncotarget.17721

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Abstract

Wen-Tao Sun1, Xiang-Chong Wang1, Shiu-Kwong Mak1, Guo-Wei He2, Xiao-Cheng Liu2, Malcolm John Underwood3 and Qin Yang1,2

1Division of Cardiology, Department of Medicine and Therapeutics, Institute of Vascular Medicine, Li Ka Shing Institute of Health Sciences, Institute of Innovative Medicine, The Chinese University of Hong Kong, Hong Kong, China

2TEDA International Cardiovascular Hospital, Chinese Academy of Medical Sciences, Tianjin, China

3Division of Cardiothoracic Surgery, Department of Surgery, The Chinese University of Hong Kong, Hong Kong, China

Correspondence to:

Qin Yang, email: [email protected]

Keywords: cardiovascular risk factors, coronary circulation, endoplasmic reticulum stress, homocysteine, smooth muscle cell

Received: November 08, 2016 Accepted: April 07, 2017 Published: May 09, 2017

ABSTRACT

The molecular mechanism of endoplasmic reticulum (ER) stress in vascular pathophysiology remains inadequately understood. We studied the role of ER stress in homocysteine-induced impairment of coronary dilator function, with uncovering the molecular basis of the effect of ER stress on smooth muscle large-conductance Ca²⁺-activated K⁺ (BK_Ca) channels. The vasodilatory function of BK_Ca channels was studied in a myograph using endothelium-denuded porcine small coronary arteries. Primary cultured porcine coronary artery smooth muscle cells were used for mRNA and protein measurements and current recording of BK_Ca channels. Homocysteine inhibited vasorelaxant response to the BK_Cachannel opener NS1619, lowered BK_Ca β1 subunit protein level and suppressed BK_Ca current. Inhibition of ER stress restored BK_Ca β1 protein level and NS1619-evoked vasorelaxation. Selective blockade of the PKR-like ER kinase (PERK) yielded similarly efficient restoration of BK_Ca β1, preserving BK_Ca current and BK_Ca-mediated vasorelaxation. The restoration of BK_Ca β1 by PERK inhibition was associated with reduced atrogin-1 expression and decreased nuclear localization of forkhead box O transcription factor 3a (FoxO3a). Silencing of atrogin-1 prevented homocysteine-induced BK_Ca β1 loss and silencing of FoxO3a prevented atrogin-1 upregulation induced by homocysteine, accompanied by preservation of BK_Ca β1 protein level and BK_Ca current. ER stress mediates homocysteine-induced BK_Ca channel inhibition in coronary arteries. Activation of FoxO3a by PERK branch underlies the ER stress-mediated BK_Ca inhibition through a mechanism involving ubiquitin ligase-enhanced degradation of the channel β1 subunit.

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Research Papers:

Activation of PERK branch of ER stress mediates homocysteine-induced BKCa channel dysfunction in coronary artery via FoxO3a-dependent regulation of atrogin-1

Abstract

Activation of PERK branch of ER stress mediates homocysteine-induced BK_Ca channel dysfunction in coronary artery via FoxO3a-dependent regulation of atrogin-1