Role of protein kinase D1 in vasoconstriction and haemodynamics in rats

IF 2.9 4区医学 Q2 PERIPHERAL VASCULAR DISEASE Microvascular research Pub Date : 2023-11-12 DOI:10.1016/j.mvr.2023.104627

Yoh Sugawara, Yusuke Mizuno, Shinya Oku, Yuri Sawada, Takahisa Goto

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Abstract

Aims

Protein kinase D (PKD), once considered an effector of protein kinase C (PKC), now plays many pathophysiological roles in various tissues. However, little is known about role of PKD in vascular function. We investigated the role of PKD in contraction of rat aorta and human aortic smooth muscle cells (HASMCs) and in haemodynamics in rats.

Methods and results

Isometric tension of rat aortic was measured to examine norepinephrine-induced contraction in the presence of PKD, PKC and Rho-kinase inhibitors. Phosphorylation of PKD1, myosin targeting subunit-1 (MYPT1), myosin light chain (MLC), CPI-17 and heat-shock protein 27 (HSP27), and actin polymerization were measured in the aorta. Phosphorylation of MYPT1 and MLC was also measured in HASMCs knocked down with specific siRNAs of PKD 1, 2 and 3. Intracellular calcium concentrations and cell shortening were measured in HASMCs.

Norepinephrine-induced aortic contraction was accompanied by increased phosphorylation of PKD1, MYPT1 and MLC and actin polymerization, all of which were attenuated with PKD inhibitor CRT0066101. PKD1 phosphorylation was not inhibited by PKC inhibitor, chelerythrine or Rho kinase inhibitor, fasudil. In HASMCs, the phosphorylation of MYPT1 and MLC was attenuated by PKD1, but not PKD2, 3 knockdown. In HASMCs, CRT0066101 inhibited norepinephrine-induced cell shortening without affecting calcium concentration. Administration of CRT0066101 decreased systemic vascular resistance and blood pressure without affecting cardiac output in rats.

Conclusions

PKD1 may play roles in aorta contraction and haemodynamics via phosphorylation of MYPT1 and actin polymerization in a calcium-independent manner.

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蛋白激酶D1在大鼠血管收缩和血流动力学中的作用。

目的:蛋白激酶D (PKD)曾被认为是蛋白激酶C (PKC)的效应器，现在在各种组织中起着许多病理生理作用。然而，对PKD在血管功能中的作用知之甚少。我们研究了PKD在大鼠主动脉和人主动脉平滑肌细胞(HASMCs)收缩和大鼠血流动力学中的作用。方法和结果:在PKD、PKC和rho激酶抑制剂存在的情况下，测量大鼠主动脉等长张力，检测去甲肾上腺素诱导的收缩。测定主动脉组织PKD1、肌球蛋白靶向亚基-1 (MYPT1)、肌球蛋白轻链(MLC)、CPI-17和热休克蛋白27 (HSP27)的磷酸化水平以及肌动蛋白聚合水平。在被PKD 1、2和3的特异性sinas敲除的hasmc中，也测量了MYPT1和MLC的磷酸化。测定HASMCs细胞内钙浓度和细胞缩短时间。去甲肾上腺素诱导的主动脉收缩伴随着PKD1、MYPT1和MLC磷酸化和肌动蛋白聚合的增加，这些都被PKD抑制剂CRT0066101减弱。PKC抑制剂chelerythrine或Rho激酶抑制剂法舒地尔不抑制PKD1的磷酸化。在HASMCs中，MYPT1和MLC的磷酸化被PKD1而不是PKD2, 3的敲除所减弱。在HASMCs中，CRT0066101抑制去甲肾上腺素诱导的细胞缩短而不影响钙浓度。给药CRT0066101可降低大鼠全身血管阻力和血压，但不影响心输出量。结论:PKD1可能通过MYPT1磷酸化和肌动蛋白聚合以钙不依赖的方式参与主动脉收缩和血流动力学。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Microvascular research 医学-外周血管病

CiteScore

6.00

自引率

3.20%

发文量

158

审稿时长

43 days

期刊介绍： Microvascular Research is dedicated to the dissemination of fundamental information related to the microvascular field. Full-length articles presenting the results of original research and brief communications are featured. Research Areas include: • Angiogenesis • Biochemistry • Bioengineering • Biomathematics • Biophysics • Cancer • Circulatory homeostasis • Comparative physiology • Drug delivery • Neuropharmacology • Microvascular pathology • Rheology • Tissue Engineering.