Regulation of Pulmonary Vasoconstriction by Agonists and Caveolae

Schach, Christian; Firth, Amy L.; Xu, Minlin; Remillard, Carmelle V.; Patel, Hemal H.; Insel, Paul A.; Yuan, Jason X.‐J.

doi:10.1080/01902140801925471

Cited by 11 publications

(10 citation statements)

References 29 publications

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“…Furthermore, application of exogenous CSD peptide as the surrogate of Cav-1 enhanced both SOCE and ROCE in PASMCs, further suggests specific involvement of the caveolar protein. These results are consistent with a previous study showing that incubation of PAs with MβCD reduced the number of cholesterol rich caveolae and inhibited phenylephrine-induced contraction, but had no effect on contraction activated by KCl [64]. Our results are also congruent with reports that SOCE activity in PASMCs is dependent on the expression of Cav-1 [31,65].…”

Section: Discussionsupporting

confidence: 96%

Increase in caveolae and caveolin-1 expression modulates agonist-induced contraction and store- and receptor-operated Ca2+ entry in pulmonary arteries of pulmonary hypertensive rats

Jiao

Gui

et al. 2016

Vascular Pharmacology

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Section: Discussionsupporting

confidence: 96%

Increase in caveolae and caveolin-1 expression modulates agonist-induced contraction and store- and receptor-operated Ca2+ entry in pulmonary arteries of pulmonary hypertensive rats

Jiao

Gui

et al. 2016

Vascular Pharmacology

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“…SMCs perform a pivotal physiological role in vivo, underpinning vessel wall structural integrity (19 -21), maintain-ing vasomotor tone, and initiating contractile responses to pulsatile flow (22)(23)(24) and vascular agonists (25,26). In pathophysiologic states such as atherosclerosis and restenosis after angioplasty, SMCs contribute to cellular components of the plaque fibrocellular cap (27,28) and the neointimal repair response (29,30) within the injured vessel segment.…”

Section: Discussionmentioning

confidence: 99%

Bone marrow‐derived CX₃CR1 progenitors contribute to neointimal smooth muscle cellsviafractalkine CX₃CR1 interaction

et al. 2009

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Smooth muscle cells play a major role in numerous vascular diseases that contribute to remodeling, repair after injury, and arteriogenesis, and the source of these cells is thought to lie within the vessel wall and the circulating blood. Currently, the precise origin and mechanism of differentiation of extravascular smooth muscle progenitor cells (SPCs) is unclear. We show here that the CX(3)CR1 mononuclear cell population of murine bone marrow provides a source of SPCs that contributes to smooth muscle cells within the neointimal plaque after vascular injury. Moreover, CX(3)CR1-fractalkine (FKN) interaction in vivo is essential for smooth muscle cell differentiation of bone marrow-derived progenitor cells at the vessel wall level. Functional competence of bone marrow-derived CX(3)CR1 positive cells to interact with FKN is also crucial in part for neointima formation following vascular injury. Finally, in a pure preparation of bone marrow-derived CX(3)CR1 positive cells, we show that in vitro smooth muscle cell differentiation increases markedly in the presence of FKN. Our data highlight a novel functional relationship between the myeloid and vascular systems and in the context of vascular injury and repair underscores a key chemokine-receptor pathway that may regulate cell fate when smooth muscle cell differentiation is required.

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“…In coronary and other vascular smooth muscles, M␤CD treatment modifies ion channel function (BK Ca and Ca 2ϩ -activated Cl Ϫ currents) and receptordependent control of intracellular Ca 2ϩ concentration and vascular tone (40,47,51). M␤CD also modifies BK Ca currents in nonvascular smooth muscle (50), together with BK Ca activity (43) and agonist-mediated Ca 2ϩ entry (30) in the vascular endothelium.…”

Section: Discussionmentioning

confidence: 99%

Sarcolemmal cholesterol and caveolin-3 dependence of cardiac function, ischemic tolerance, and opioidergic cardioprotection

Hoe

Schilling

Tarbit

et al. 2014

American Journal of Physiology-Heart and Circulatory Physiology

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See Hoe LE, Schilling JM, Tarbit E, Kiessling CJ, Busija AR, Niesman IR, Du Toit E, Ashton KJ, Roth DM, Headrick JP, Patel HH, Peart JN. Sarcolemmal cholesterol and caveolin-3 dependence of cardiac function, ischemic tolerance, and opioidergic cardioprotection. Am J Physiol Heart Circ Physiol 307: H895-H903, 2014. First published July 25, 2014; doi:10.1152/ajpheart.00081.2014.-Cholesterol-rich caveolar microdomains and associated caveolins influence sarcolemmal ion channel and receptor function and protective stress signaling. However, the importance of membrane cholesterol content to cardiovascular function and myocardial responses to ischemiareperfusion (I/R) and cardioprotective stimuli are unclear. We assessed the effects of graded cholesterol depletion with methyl-␤-cyclodextrin (M␤CD) and lifelong knockout (KO) or overexpression (OE) of caveolin-3 (Cav-3) on cardiac function, I/R tolerance, and opioid receptor (OR)-mediated protection. Langendorff-perfused hearts from young male C57Bl/6 mice were untreated or treated with 0.02-1.0 mM M␤CD for 25 min to deplete membrane cholesterol and disrupt caveolae. Hearts were subjected to 25-min ischemia/45-min reperfusion, and the cardioprotective effects of morphine applied either acutely or chronically [sustained ligand-activated preconditioning (SLP)] were assessed. M␤CD concentration dependently reduced normoxic contractile function and postischemic outcomes in association with graded (10 -30%) reductions in sarcolemmal cholesterol. Cardioprotection with acute morphine was abolished with Ն20 M M␤CD, whereas SLP was more robust and only inhibited with Ն200 M M␤CD. Deletion of Cav-3 also reduced, whereas Cav-3 OE improved, myocardial I/R tolerance. Protection via SLP remained equally effective in Cav-3 KO mice and was additive with innate protection arising with Cav-3 OE. These data reveal the membrane cholesterol dependence of normoxic myocardial and coronary function, I/R tolerance, and OR-mediated cardioprotection in murine hearts (all declining with cholesterol depletion). In contrast, baseline function appears insensitive to Cav-3, whereas cardiac I/R tolerance parallels Cav-3 expression. Novel SLP appears unique, being less sensitive to cholesterol depletion than acute OR protection and arising independently of Cav-3 expression.cardioprotection; caveolae; caveolin-3; cholesterol; contractility; ischemia-reperfusion; membrane microdomains; opioid receptors SARCOLEMMAL MICRODOMAINS are critical regulators of cellular function and signaling (34) and may be important in sex-, age-, and disease-dependent differences in cardiac and vascular function (3,10,11,14,24,49,62). Caveolae are lipid rich (i.e., cholesterol and glycosphingolipid) microdomains containing scaffolding proteins, caveolins, that present as distinct molecular platforms for the regulation of cytoprotective and other signaling (52). However, the importance of membrane cholesterol and microdomains to the maintenance of myocardial and coronary function as well as intrinsic responses to insult/stress a...

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Regulation of Pulmonary Vasoconstriction by Agonists and Caveolae

Cited by 11 publications

References 29 publications

Increase in caveolae and caveolin-1 expression modulates agonist-induced contraction and store- and receptor-operated Ca2+ entry in pulmonary arteries of pulmonary hypertensive rats

Increase in caveolae and caveolin-1 expression modulates agonist-induced contraction and store- and receptor-operated Ca2+ entry in pulmonary arteries of pulmonary hypertensive rats

Bone marrow‐derived CX₃CR1 progenitors contribute to neointimal smooth muscle cellsviafractalkine CX₃CR1 interaction

Sarcolemmal cholesterol and caveolin-3 dependence of cardiac function, ischemic tolerance, and opioidergic cardioprotection

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Regulation of Pulmonary Vasoconstriction by Agonists and Caveolae

Cited by 11 publications

References 29 publications

Increase in caveolae and caveolin-1 expression modulates agonist-induced contraction and store- and receptor-operated Ca2+ entry in pulmonary arteries of pulmonary hypertensive rats

Increase in caveolae and caveolin-1 expression modulates agonist-induced contraction and store- and receptor-operated Ca2+ entry in pulmonary arteries of pulmonary hypertensive rats

Bone marrow‐derived CX3CR1 progenitors contribute to neointimal smooth muscle cellsviafractalkine CX3CR1 interaction

Sarcolemmal cholesterol and caveolin-3 dependence of cardiac function, ischemic tolerance, and opioidergic cardioprotection

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Bone marrow‐derived CX₃CR1 progenitors contribute to neointimal smooth muscle cellsviafractalkine CX₃CR1 interaction