Autocrine Action and Its Underlying Mechanism of Nitric Oxide on Intracellular Ca super(2+) Homeostasis in Vascular Endothelial Cells

The rise in cytosolic Ca super(2+) concentration (Ca super(2+) sub(i)) in vascular endothelial cells (ECs) activates the production and release of nitric oxide (NO). NO modifies Ca super(2+) sub(i) homeostasis in many types of nonendothelial cells. However, its effect on endothelial Ca super(2+) sub...

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Veröffentlicht in:	The Journal of biological chemistry 2000-09, Vol.275 (37), p.28739-28749
Hauptverfasser:	Chen, J, Wang, Y, Nakajima, T, Iwasawa, K, Hikiji, H, Sunamoto, M, Choi, D K, Yoshida, Y, Sakaki, Y, Toyo-oka, T
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Sprache:	eng
Schlagworte:	heparin inositol 1,4,5-trisphosphate receptors thapsigargin
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container_end_page	28749
container_issue	37
container_start_page	28739
container_title	The Journal of biological chemistry
container_volume	275
creator	Chen, J Wang, Y Nakajima, T Iwasawa, K Hikiji, H Sunamoto, M Choi, D K Yoshida, Y Sakaki, Y Toyo-oka, T
description	The rise in cytosolic Ca super(2+) concentration (Ca super(2+) sub(i)) in vascular endothelial cells (ECs) activates the production and release of nitric oxide (NO). NO modifies Ca super(2+) sub(i) homeostasis in many types of nonendothelial cells. However, its effect on endothelial Ca super(2+) sub(i) homeostasis at basal and excited states remains unclear. In the present study, to elucidate the effect of NO on basal Ca super(2+) sub(i), inositol 1,4,5-trisphosphate-induced Ca super(2+) sub(i) release (IICR) was blocked by expressing an antisense against type-1 inositol 1,4,5-trisphosphate receptors or by microinjecting heparin to individual ECs, and the effects of NO that was released by and diffused from adjacent IICR-intact ECs were recorded. After ATP or bradykinin stimulation, IICR-inhibited ECs showed a marked reduction of basal Ca super(2+) sub(i), which was abolished by N super(G)-monomethyl-L-arginine monoacetate pretreatment. The reduction disappeared in sparsely seeded ECs. Exogenous NO gas mimicked the effect of ATP or bradykinin to reduce basal Ca super(2+) sub(i). Blocking plasma membrane Ca super(2+)-ATPase (PMCA), but not Na super(+)-Ca super(2+) exchange or sarcoplasmic/endoplasmic reticulum Ca super(2+)-ATPase, suppressed the reduction, indicating that the reduction resulted from a NO-dependent potentiation of PMCA. To elucidate the effect of NO on elevated Ca super(2+) sub(i), ATP-, bradykinin-, or thapsigargin-evoked Ca super(2+) sub(i) response in the presence and absence of NO production was compared in adjacent IICR-intact ECs. NO was found to potentiate PMCA, which, in turn, greatly attenuated agonist- evoked Ca super(2+) sub(i) elevation. NO also potentiated Ca super(2+) influx, which markedly increased the sustained phase of Ca super(2+) sub(i) elevation and possibly NO production. NO did not affect other Ca super(2+) sub(i)-elevating and Ca super(2+) sub(i)-sequestrating components. Thus, NO-dependent potentiation of PMCA is crucial for Ca super(2+) sub(i) homeostasis over a wide Ca super(2+) sub(i) range.
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NO modifies Ca super(2+) sub(i) homeostasis in many types of nonendothelial cells. However, its effect on endothelial Ca super(2+) sub(i) homeostasis at basal and excited states remains unclear. In the present study, to elucidate the effect of NO on basal Ca super(2+) sub(i), inositol 1,4,5-trisphosphate-induced Ca super(2+) sub(i) release (IICR) was blocked by expressing an antisense against type-1 inositol 1,4,5-trisphosphate receptors or by microinjecting heparin to individual ECs, and the effects of NO that was released by and diffused from adjacent IICR-intact ECs were recorded. After ATP or bradykinin stimulation, IICR-inhibited ECs showed a marked reduction of basal Ca super(2+) sub(i), which was abolished by N super(G)-monomethyl-L-arginine monoacetate pretreatment. The reduction disappeared in sparsely seeded ECs. Exogenous NO gas mimicked the effect of ATP or bradykinin to reduce basal Ca super(2+) sub(i). Blocking plasma membrane Ca super(2+)-ATPase (PMCA), but not Na super(+)-Ca super(2+) exchange or sarcoplasmic/endoplasmic reticulum Ca super(2+)-ATPase, suppressed the reduction, indicating that the reduction resulted from a NO-dependent potentiation of PMCA. To elucidate the effect of NO on elevated Ca super(2+) sub(i), ATP-, bradykinin-, or thapsigargin-evoked Ca super(2+) sub(i) response in the presence and absence of NO production was compared in adjacent IICR-intact ECs. NO was found to potentiate PMCA, which, in turn, greatly attenuated agonist- evoked Ca super(2+) sub(i) elevation. NO also potentiated Ca super(2+) influx, which markedly increased the sustained phase of Ca super(2+) sub(i) elevation and possibly NO production. NO did not affect other Ca super(2+) sub(i)-elevating and Ca super(2+) sub(i)-sequestrating components. Thus, NO-dependent potentiation of PMCA is crucial for Ca super(2+) sub(i) homeostasis over a wide Ca super(2+) sub(i) range.</description><identifier>ISSN: 0021-9258</identifier><language>eng</language><subject>heparin ; inositol 1,4,5-trisphosphate receptors ; thapsigargin</subject><ispartof>The Journal of biological chemistry, 2000-09, Vol.275 (37), p.28739-28749</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780</link.rule.ids></links><search><creatorcontrib>Chen, J</creatorcontrib><creatorcontrib>Wang, Y</creatorcontrib><creatorcontrib>Nakajima, T</creatorcontrib><creatorcontrib>Iwasawa, K</creatorcontrib><creatorcontrib>Hikiji, H</creatorcontrib><creatorcontrib>Sunamoto, M</creatorcontrib><creatorcontrib>Choi, D K</creatorcontrib><creatorcontrib>Yoshida, Y</creatorcontrib><creatorcontrib>Sakaki, Y</creatorcontrib><creatorcontrib>Toyo-oka, T</creatorcontrib><title>Autocrine Action and Its Underlying Mechanism of Nitric Oxide on Intracellular Ca super(2+) Homeostasis in Vascular Endothelial Cells</title><title>The Journal of biological chemistry</title><description>The rise in cytosolic Ca super(2+) concentration (Ca super(2+) sub(i)) in vascular endothelial cells (ECs) activates the production and release of nitric oxide (NO). NO modifies Ca super(2+) sub(i) homeostasis in many types of nonendothelial cells. However, its effect on endothelial Ca super(2+) sub(i) homeostasis at basal and excited states remains unclear. In the present study, to elucidate the effect of NO on basal Ca super(2+) sub(i), inositol 1,4,5-trisphosphate-induced Ca super(2+) sub(i) release (IICR) was blocked by expressing an antisense against type-1 inositol 1,4,5-trisphosphate receptors or by microinjecting heparin to individual ECs, and the effects of NO that was released by and diffused from adjacent IICR-intact ECs were recorded. After ATP or bradykinin stimulation, IICR-inhibited ECs showed a marked reduction of basal Ca super(2+) sub(i), which was abolished by N super(G)-monomethyl-L-arginine monoacetate pretreatment. The reduction disappeared in sparsely seeded ECs. Exogenous NO gas mimicked the effect of ATP or bradykinin to reduce basal Ca super(2+) sub(i). Blocking plasma membrane Ca super(2+)-ATPase (PMCA), but not Na super(+)-Ca super(2+) exchange or sarcoplasmic/endoplasmic reticulum Ca super(2+)-ATPase, suppressed the reduction, indicating that the reduction resulted from a NO-dependent potentiation of PMCA. To elucidate the effect of NO on elevated Ca super(2+) sub(i), ATP-, bradykinin-, or thapsigargin-evoked Ca super(2+) sub(i) response in the presence and absence of NO production was compared in adjacent IICR-intact ECs. NO was found to potentiate PMCA, which, in turn, greatly attenuated agonist- evoked Ca super(2+) sub(i) elevation. NO also potentiated Ca super(2+) influx, which markedly increased the sustained phase of Ca super(2+) sub(i) elevation and possibly NO production. NO did not affect other Ca super(2+) sub(i)-elevating and Ca super(2+) sub(i)-sequestrating components. 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NO modifies Ca super(2+) sub(i) homeostasis in many types of nonendothelial cells. However, its effect on endothelial Ca super(2+) sub(i) homeostasis at basal and excited states remains unclear. In the present study, to elucidate the effect of NO on basal Ca super(2+) sub(i), inositol 1,4,5-trisphosphate-induced Ca super(2+) sub(i) release (IICR) was blocked by expressing an antisense against type-1 inositol 1,4,5-trisphosphate receptors or by microinjecting heparin to individual ECs, and the effects of NO that was released by and diffused from adjacent IICR-intact ECs were recorded. After ATP or bradykinin stimulation, IICR-inhibited ECs showed a marked reduction of basal Ca super(2+) sub(i), which was abolished by N super(G)-monomethyl-L-arginine monoacetate pretreatment. The reduction disappeared in sparsely seeded ECs. Exogenous NO gas mimicked the effect of ATP or bradykinin to reduce basal Ca super(2+) sub(i). Blocking plasma membrane Ca super(2+)-ATPase (PMCA), but not Na super(+)-Ca super(2+) exchange or sarcoplasmic/endoplasmic reticulum Ca super(2+)-ATPase, suppressed the reduction, indicating that the reduction resulted from a NO-dependent potentiation of PMCA. To elucidate the effect of NO on elevated Ca super(2+) sub(i), ATP-, bradykinin-, or thapsigargin-evoked Ca super(2+) sub(i) response in the presence and absence of NO production was compared in adjacent IICR-intact ECs. NO was found to potentiate PMCA, which, in turn, greatly attenuated agonist- evoked Ca super(2+) sub(i) elevation. NO also potentiated Ca super(2+) influx, which markedly increased the sustained phase of Ca super(2+) sub(i) elevation and possibly NO production. NO did not affect other Ca super(2+) sub(i)-elevating and Ca super(2+) sub(i)-sequestrating components. Thus, NO-dependent potentiation of PMCA is crucial for Ca super(2+) sub(i) homeostasis over a wide Ca super(2+) sub(i) range.</abstract></addata></record>
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subjects	heparin inositol 1,4,5-trisphosphate receptors thapsigargin
title	Autocrine Action and Its Underlying Mechanism of Nitric Oxide on Intracellular Ca super(2+) Homeostasis in Vascular Endothelial Cells
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