Journal Article10.1002/JCB.24771
MicroRNA-190 regulates hypoxic pulmonary vasoconstriction by targeting a voltage-gated K⁺ channel in arterial smooth muscle cells
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TL;DR: Results suggest that miR‐190 appears to be a positive regulator of Ca2+ influx, and plays an important role in hypoxic pulmonary vascular constriction.
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Abstract: Pulmonary arterial hypertension (PAH) is associated with sustained vasoconstriction, profound structural remodeling of vasculatures and alterations in Ca(2+) homeostasis in arterial smooth muscle cells (SMCs), while the underlying mechanisms are still elusive. By regulating the expression of proteins, microRNAs (miRNAs) are known to play an important role in cell fates including differentiation, apoptosis and proliferation, and may be involved in the development of PAH. Based on our previous study, hypoxia produced a significant increase of the miR-190 level in the pulmonary artery (PA), here, we used synthetic miR-190 to mimic the increase in hypoxic conditions and showed evidence for the effects of miR-190 on pulmonary arterial vasoconstriction and Ca(2+) influx in arterial SMCs. Synthetic miR-190 remarkably enhanced the vasoconstriction responses to phenylephrine (PE) and KCl. The voltage-gated K(+) channel subfamily member, Kcnq5, mRNA was shown to be a target for miR-190. Meanwhile, miR-190 antisense oligos can partially reverse the effects of miR-190 on PASMCs and PAs. Therefore, these results suggest that miR-190 appears to be a positive regulator of Ca(2+) influx, and plays an important role in hypoxic pulmonary vascular constriction.
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Citations
Mechanisms of Vascular Smooth Muscle Contraction and the Basis for Pharmacologic Treatment of Smooth Muscle Disorders
Frank V. Brozovich,Christopher J. Nicholson,Chantal V. Degen,Yuan Z. Gao,Milan Aggarwal,Kathleen G. Morgan +5 more
TL;DR: The current understanding of the molecular mechanisms by which agonists, therapeutics, and diseases regulate contractility of the vascular smooth muscle cell is reviewed and the implications for personalized medicine are discussed.
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MicroRNA-138 and MicroRNA-25 Down-regulate Mitochondrial Calcium Uniporter, Causing the Pulmonary Arterial Hypertension Cancer Phenotype
Zhigang Hong,Kuang-Hueih Chen,Asish Dasgupta,François Potus,Kimberly J. Dunham-Snary,Sébastien Bonnet,Lian Tian,Jennifer Fu,Sandra Breuils-Bonnet,Steeve Provencher,Danchen Wu,Jeffrey Mewburn,Mark L. Ormiston,Stephen L. Archer +13 more
TL;DR: In this paper, the pore-forming subunit, MCU, was manipulated through small interfering RNA knockdown or MCU plasmid-mediated up-regulation, as well as through modulation of the upstream microRNAs (miRs) miR-138 and miR25.
KCNQ-Encoded Potassium Channels as Therapeutic Targets.
TL;DR: This review covers the main characteristics of these multifunctional and versatile channels with the aim of providing insight into the therapeutic value of targeting these channels.
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NPK macronutrients and microRNA homeostasis
Franceli Rodrigues Kulcheski,Régis L. Corrêa,Igor A. Gomes,Júlio César de Lima,Rogério Margis +4 more
TL;DR: This review focuses on miRNAs and their regulation of targets involved in NPK metabolism, and shows that severalmiRNAs were discovered to be involved in plant–microbe symbiosis during N and P uptake, and presents a global view of some studies that were conducted in the last years.
microRNA and Pulmonary Hypertension.
TL;DR: The knowledge on miRNAs in PAH is summarized and their crucial role in the etiology of this disease is highlighted.
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