Endothelial‐smooth muscle cell interactions in the regulation of vascular tone in skeletal muscle

Dora, K A

doi:10.1111/micc.12322

Cited by 21 publications

(19 citation statements)

References 71 publications

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“…One such mode of action could be hyperpolarization of endothelial and adjacent smooth muscle cells, thus leading to altered smooth muscle Panx1 conformation and activity. 26 …”

Section: Discussionmentioning

confidence: 99%

Probenecid Inhibits α-Adrenergic Receptor–Mediated Vasoconstriction in the Human Leg Vasculature

et al. 2018

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Coordination of vascular smooth muscle cell tone in resistance arteries plays an essential role in the regulation of peripheral resistance and overall blood pressure. Recent observations in animals have provided evidence for a coupling between adrenoceptors and Panx1 (pannexin-1) channels in the regulation of sympathetic nervous control of peripheral vascular resistance and blood pressure; however, evidence for a functional coupling in humans is lacking. We determined Panx1 expression and effects of treatment with the pharmacological Panx1 channel inhibitor probenecid on the vasoconstrictor response to α1- and α2-adrenergic receptor stimulation in the human forearm and leg vasculature of young healthy male subjects (23±3 years). By use of immunolabeling and confocal microscopy, Panx1 channels were found to be expressed in vascular smooth muscle cells of arterioles in human leg skeletal muscle. Probenecid treatment increased (P<0.05) leg vascular conductance at baseline by ≈15% and attenuated (P<0.05) the leg vasoconstrictor response to arterial infusion of tyramine (α1- and α2-adrenergic receptor stimulation) by ≈15%, whereas the response to the α1-agonist phenylephrine was unchanged. Inhibition of α1-adrenoceptors prevented the probenecid-induced increase in baseline leg vascular conductance, but did not alter the effect of probenecid on the vascular response to tyramine. No differences with probenecid treatment were detected in the forearm. These observations provide the first line of evidence in humans for a functional role of Panx1 channels in setting resting tone via α1-adrenoceptors and in the constrictive effect of noradrenaline via α2-adrenoceptors, thereby contributing to the regulation of peripheral vascular resistance and blood pressure in humans.

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“…One such mode of action could be hyperpolarization of endothelial and adjacent smooth muscle cells, thus leading to altered smooth muscle Panx1 conformation and activity. 26 …”

Section: Discussionmentioning

confidence: 99%

Probenecid Inhibits α-Adrenergic Receptor–Mediated Vasoconstriction in the Human Leg Vasculature

et al. 2018

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“…Each arterial segment in this integrated structure is comprised of an endothelial monolayer, one or more layers of circumferential smooth muscle, and an embedded nerve plexus . The endothelium is particularly intriguing in that over the past four decades, it has conceptually advanced from being unimportant to a key regulator of arterial tone development . Endothelial control of smooth muscle contractile is intimately tied to the resident activity of ion channels, and the ability of these integral membrane proteins to drive two central events.…”

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confidence: 99%

Endothelial signaling and the dynamic regulation of arterial tone: A surreptitious relationship

Welsh

Longden

2017

Microcirculation

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The endothelium is an integrated layer of cells whose dynamic regulation governs arterial tone development and the matching of blood flow delivery to tissue energetic demand. Investigating the structural and electrical properties of native endothelial cells has been a challenging prospect, with efforts often restricted to traditional myographic techniques. Concerted experimental attention, along with recent technical advances, has broadened the investigative tool kit, deepening mechanistic insights. This overview in part of a STI centered on the endothelium and how key structural/electrical properties guide arterial tone development and integrated network behavior. Articles are written in a provocative, opinionated manner to provoke deeper thought and to highlight areas of investigative deficiency.

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“…UMIC 2016 0043R1) three‐dimensional organization of the extracellular matrix as a necessity for understanding vessel wall architecture; 2 (Mederos y Schnitzler et al. UMIC 2016 0046R1) membrane mechanisms transducing mechanical stimuli through mechanically sensitive G‐protein‐coupled receptors; 3 (Dora UMIC 2016 0045R1) cellular communication mechanisms along the vessel wall and its role in conducted vasomotor phenomena; and a contribution from an early career scientist providing insight into a “novel” vasoactive and remodeling hormone, 4 (Jelinic et al. UMIC 2016) a role for the hormone, relaxin, in modulating vessel wall structure and function …”

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confidence: 99%

Small artery mechanobiology: Roles of cellular and non‐cellular elements

Hill

Meininger

2016

Microcirculation

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Small arteries and their component cellular and non-cellular elements are continually subjected to, and interact with, mechanical forces. Such interactions are key in both short- and long-term adaptation of the structure and function of the microcirculation to its local environment and metabolic requirements. Following this brief introduction is a series of papers presented as a symposium (Small Artery Mechanobiology: Roles of Cellular and Non-Cellular Elements) at the World Congress for Microcirculation, Kyoto 2015.

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Endothelial‐smooth muscle cell interactions in the regulation of vascular tone in skeletal muscle

Cited by 21 publications

References 71 publications

Probenecid Inhibits α-Adrenergic Receptor–Mediated Vasoconstriction in the Human Leg Vasculature

Probenecid Inhibits α-Adrenergic Receptor–Mediated Vasoconstriction in the Human Leg Vasculature

Endothelial signaling and the dynamic regulation of arterial tone: A surreptitious relationship

Small artery mechanobiology: Roles of cellular and non‐cellular elements

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