PKC and Rho in vascular smooth muscle: Activation by BOXes and SAH CSF

Pyne‐Geithman, Gail J.; Nair, Sunil; Caudell, Danielle N.; Clark, Joseph F.

doi:10.2741/2778

Cited by 14 publications

(24 citation statements)

References 63 publications

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“…While the molecular and cellular targets of BOXes are yet to be fully revealed, a recent study shows that BOXes exert their action in part by regulating PKC and GTPase Rho A (Pyne-Geithman et al 2008). Our results here demonstrate that BOXes profoundly inhibit the Slo1 BK channel activity in a lysine-dependent manner and suggest that the inhibitory effect of BOXes on the channel could contribute to the vasoconstrictive effect of BOXes.…”

Section: Discussionmentioning

confidence: 99%

“…The evidence therefore supports the idea that BOXes are important in development of delayed cerebral vasospasm; however, the effectors or molecular targets of BOXes are only beginning to be revealed. Thus far, PKC and the small GTPase Rho A have been suggested as direct or indirect effectors of BOXes (Pyne-Geithman et al 2008). It is not known whether BOXes affect other cell constituents.…”

Section: Introductionmentioning

confidence: 99%

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Bilirubin Oxidation End Products Directly Alter K⁺ Channels Important in the Regulation of Vascular Tone

Hou

Clark

et al. 2010

J Cereb Blood Flow Metab

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The exact etiology of delayed cerebral vasospasm following cerebral hemorrhage is not clear but a family of compounds termed bilirubin oxidation end products (BOXes) derived from heme has been implicated. Because proper regulation of vascular smooth muscle tone involves large-conductance Ca2+- and voltage-dependent Slo1 K+ (BK, maxiK, KCa1.1) channels, we examined whether BOXes altered functional properties of the channel. Electrophysiological measurements of Slo1 channels heterologously expressed in a human cell line as well as of native mouse BK channels in isolated cerebral myocytes showed that BOXes markedly diminished open probability. Biophysically BOXes specifically stabilized the conformations of the channel with its ion conduction gate closed. The results of chemical amino-acid modifications and molecular mutagenesis together suggest that two specific lysine residues in the structural element linking the transmembrane ion-permeation domain to the carboxyl cytosolic domain of the Slo1 channel are critical in determining sensitivity of the channel to BOXes. Inhibition of Slo1 BK channels by BOXes may contribute to development of delayed cerebral vasospasm following brain hemorrhage.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bilirubin Oxidation End Products Directly Alter K⁺ Channels Important in the Regulation of Vascular Tone

Hou

Clark

et al. 2010

J Cereb Blood Flow Metab

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“…High levels of free radicals, produced in blood clots found around blood vessels after subarachnoid haemorrhage, may oxidize bilirubin to BOXes (bilirubin oxidized products) which act on vascular smooth muscle cells causing, or contributing to, chronic vasoconstriction and vasospasm (reviewed in [91]). BOXes may be responsible for one or both events associated with cerebral vasospasm after subarachnoid haemorrhage, including a PKC (protein kinase C)-mediated contraction and a failure to relax due to Rho-mediated inhibition of MLCP (myosin light-chain phosphatase) [92]. However, the pathophysiology of the haemorrhage-induced vasoconstriction is still not fully understood, and other aggravating factors may be involved in causing cerebral vasospasm [92], thus hindering its treatment and prevention [93].…”

Section: Cytoprotective Properties Of Bilirubin Resulting From Its Anmentioning

confidence: 98%

“…BOXes may be responsible for one or both events associated with cerebral vasospasm after subarachnoid haemorrhage, including a PKC (protein kinase C)-mediated contraction and a failure to relax due to Rho-mediated inhibition of MLCP (myosin light-chain phosphatase) [92]. However, the pathophysiology of the haemorrhage-induced vasoconstriction is still not fully understood, and other aggravating factors may be involved in causing cerebral vasospasm [92], thus hindering its treatment and prevention [93].…”

Section: Cytoprotective Properties Of Bilirubin Resulting From Its Anmentioning

confidence: 98%

Complement activation and disease: protective effects of hyperbilirubinaemia

et al. 2009

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Complement, an important effector mechanism of the immune system, is an enzymatic cascade of approx. 30 serum proteins leading to the amplification of a specific humoral response. It can be activated through the classical or alternative pathways, or through the mannose-binding lectin pathway. The activation of the classical pathway is initiated by the binding of the C1 component to antigen-bound antibodies, known as immunocomplexes. C1 is a complex of one molecule of C1q, two molecules of C1r and two molecules of C1s. C1q contains three copies of a Y-shaped fundamental unit with globular heads included in its structure, which play a major role in the interaction with the Fc portion of immunoglobulins. Deficient or exacerbated activation of the complement system leads to diseases of variable severity, and pharmacological inhibition of the complement system is considered as a therapeutic strategy to ameliorate the inflammatory effects of exacerbated complement activation. Bilirubin is a product of haem degradation by the concerted action of haem oxygenase, which converts haem into biliverdin, and biliverdin reductase, which reduces biliverdin to UCB (unconjugated bilirubin). UCB exerts both cytoprotective and cytotoxic effects in a variety of tissues and cells, acting either as an antioxidant at low concentrations or as an oxidant at high concentrations. In the present review, we describe in detail the anti-complement properties of bilirubin, occurring at levels above the UCB concentrations found in normal human serum, as a beneficial effect of potential clinical relevance. We provide evidence that UCB interferes with the interaction between C1q and immunoglobulins, thus inhibiting the initial step in the activation of complement through the classical pathway. A molecular model is proposed for the interaction between UCB and C1q.

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“…Rho-kinase also phosphorylates myosin light chain directly, generating sustained contraction in a similar manner as the Ca 2+ /calmodulin-dependent MLC kinase pathway [125]. Rho-kinase has been shown to be involved in the pathogenesis of both coronary and cerebral vasospasm [124, 126–131]. Oxyhemoglobin from SAH activates Rho/Rho-kinase signaling [127].…”

Section: Genetics In CVmentioning

confidence: 99%

Genetics of Cerebral Vasospasm

Ladner

Zuckerman

Mocco

2013

Neurology Research International

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Cerebral vasospasm (CV) is a major source of morbidity and mortality in aneurysmal subarachnoid hemorrhage (aSAH). It is thought that an inflammatory cascade initiated by extravasated blood products precipitates CV, disrupting vascular smooth muscle cell function of major cerebral arteries, leading to vasoconstriction. Mechanisms of CV and modes of therapy are an active area of research. Understanding the genetic basis of CV holds promise for the recognition and treatment for this devastating neurovascular event. In our review, we summarize the most recent research involving key areas within the genetics and vasospasm discussion: (1) Prognostic role of genetics—risk stratification based on gene sequencing, biomarkers, and polymorphisms; (2) Signaling pathways—pinpointing key inflammatory molecules responsible for downstream cellular signaling and altering these mediators to provide therapeutic benefit; and (3) Gene therapy and gene delivery—using viral vectors or novel protein delivery methods to overexpress protective genes in the vasospasm cascade.

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PKC and Rho in vascular smooth muscle: Activation by BOXes and SAH CSF

Cited by 14 publications

References 63 publications

Bilirubin Oxidation End Products Directly Alter K⁺ Channels Important in the Regulation of Vascular Tone

Bilirubin Oxidation End Products Directly Alter K⁺ Channels Important in the Regulation of Vascular Tone

Complement activation and disease: protective effects of hyperbilirubinaemia

Genetics of Cerebral Vasospasm

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PKC and Rho in vascular smooth muscle: Activation by BOXes and SAH CSF

Cited by 14 publications

References 63 publications

Bilirubin Oxidation End Products Directly Alter K+ Channels Important in the Regulation of Vascular Tone

Bilirubin Oxidation End Products Directly Alter K+ Channels Important in the Regulation of Vascular Tone

Complement activation and disease: protective effects of hyperbilirubinaemia

Genetics of Cerebral Vasospasm

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Product

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Bilirubin Oxidation End Products Directly Alter K⁺ Channels Important in the Regulation of Vascular Tone

Bilirubin Oxidation End Products Directly Alter K⁺ Channels Important in the Regulation of Vascular Tone