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Activin Receptor-Like Kinase 3 Directly Couples Gαq (Guanine Nucleotide-Binding Protein Subunit αq)/ Gαq (Guanine Nucleotide-Binding Protein Subunit α11) to Regulate Vascular Contractility.
Cai, Zeyu; Xie, Nan; Gong, Ze; Yang, Zhao; Lin, Feng; Li, Zhiqing; Dai, Rongbo; Chen, Yufei; Zhang, Siting; Zhu, Shirong; Zhou, Shuhua; Lin, Jingyu; Yu, Fang; Liu, Limei; Sun, Jinpeng; Zhou, Jing; Li, Wei; Xiong, Chunyang; Fu, Yi; Cong, Xin; Kong, Wei.
Affiliation
  • Cai Z; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Xie N; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Gong Z; Shenzhen Key Laboratory of Cardiovascular Disease, Fuwai Hospital Chinese Academy of Medical Sciences, Guangdong Province, China (N.X.).
  • Yang Z; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Lin F; Department of Biochemistry and Molecular Biology, School of Basic Medical Sciences, Shandong University, Jinan, China (Z.Y., S. Zhou, J.L.).
  • Li Z; Department of Mechanics and Engineering Science, College of Engineering (F.L., C.X.), Peking University, Beijing, China.
  • Dai R; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Chen Y; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Zhang S; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Zhu S; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Zhou S; Department of Biochemistry and Molecular Biology, School of Basic Medical Sciences, Shandong University, Jinan, China (Z.Y., S. Zhou, J.L.).
  • Lin J; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Yu F; Department of Biochemistry and Molecular Biology, School of Basic Medical Sciences, Shandong University, Jinan, China (Z.Y., S. Zhou, J.L.).
  • Liu L; Department of Biochemistry and Molecular Biology, School of Basic Medical Sciences, Shandong University, Jinan, China (Z.Y., S. Zhou, J.L.).
  • Sun J; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Zhou J; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Li W; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Xiong C; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
  • Fu Y; Department of Vascular Surgery, Peking University People's Hospital (W.L.), Peking University, Beijing, China.
  • Cong X; Department of Mechanics and Engineering Science, College of Engineering (F.L., C.X.), Peking University, Beijing, China.
  • Kong W; Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China (Z.C., N.X., Z.G., Z.L., R.D., Y.C., S. Zhang, S. Zhu, F.Y., L.L., J.S., J.Z., Y.F., X.C., W.K.).
Hypertension ; 80(6): 1231-1244, 2023 06.
Article in En | MEDLINE | ID: mdl-36999441
ABSTRACT

BACKGROUND:

Vascular smooth muscle cell (VSMC) contractility is critical for blood pressure regulation and vascular homeostasis. Identifying the key molecule that maintains VSMC contractility may provide a novel therapeutic target for vascular remodeling. ALK3 (activin receptor-like kinase 3) is a serine/threonine kinase receptor, and deletion of ALK3 causes embryonic lethality. However, little is known about the role of ALK3 in postnatal arterial function and homeostasis.

METHODS:

We conducted in vivo studies in a tamoxifen-induced postnatal VSMC-specific ALK3 deletion mice suitable for analysis of blood pressure and vascular contractility. Additionally, the role of ALK3 on VSMC was determined using Western blot, collagen-based contraction assay and traction force microscopy. Furthermore, interactome analysis were performed to identify the ALK3-associated proteins and bioluminescence resonance energy transfer assay was used to characterize Gαq activation.

RESULTS:

ALK3 deficiency in VSMC led to spontaneous hypotension and impaired response to angiotensin II in mice. In vivo and in vitro data revealed that ALK3 deficiency impaired contraction force generation by VSMCs, repressed the expression of contractile proteins, and inhibited the phosphorylation of myosin light chain. Mechanistically, Smad1/5/8 signaling mediated the ALK3-modulated contractile protein expressions but not myosin light chain phosphorylation. Furthermore, interactome analysis revealed that ALK3 directly interacted with and activated Gαq (guanine nucleotide-binding protein subunit αq)/Gα11 (guanine nucleotide-binding protein subunit α11), thereby stimulating myosin light chain phosphorylation and VSMC contraction.

CONCLUSIONS:

Our study revealed that in addition to canonical Smad1/5/8 signaling, ALK3 modulates VSMC contractility through direct interaction with Gαq/Gα11, and therefore, might serve as a potential target for modulating aortic wall homeostasis.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Bone Morphogenetic Protein Receptors, Type I / Muscle, Smooth, Vascular Limits: Animals Language: En Journal: Hypertension Year: 2023 Document type: Article
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Bone Morphogenetic Protein Receptors, Type I / Muscle, Smooth, Vascular Limits: Animals Language: En Journal: Hypertension Year: 2023 Document type: Article