Chronic hypoxia selectively enhances L- and T-type voltage-dependent Ca super( 2+) channel activity in pulmonary artery by upregulating Ca sub( v)1.2 and Ca sub( v)3.2

Chronic hypoxia selectively enhances L- and T-type voltage-dependent Ca super( 2+) channel activity in pulmonary artery by upregulating Ca sub( v)1.2 and Ca sub( v)3.2

Hypoxia-induced pulmonary hypertension (HPH) is characterized by sustained pulmonary vasoconstriction and vascular remodeling, both of which are mediated by pulmonary artery smooth muscle cell (PASMC) contraction and proliferation, respectively. An increase in cytosolic Ca super(2+) concentration ([...

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Veröffentlicht in:American journal of physiology. Lung cellular and molecular physiology 2013-07, Vol.305 (2), p.L154-L154
Hauptverfasser: Wan, Jun, Yamamura, Aya, Zimnicka, Adriana M, Voiriot, Guillaume, Smith, Kimberly A, Tang, Haiyang, Ayon, Ramon J, R Choudhury, Moumita S, Ko, Eun A, Wang, Jun, Wang, Chen, Makino, Ayako, Yuan, Jason X-J
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container_issue 2
container_start_page L154
container_title American journal of physiology. Lung cellular and molecular physiology
container_volume 305
creator Wan, Jun
Yamamura, Aya
Zimnicka, Adriana M
Voiriot, Guillaume
Smith, Kimberly A
Tang, Haiyang
Ayon, Ramon J
R Choudhury, Moumita S
Ko, Eun A
Wang, Jun
Wang, Chen
Makino, Ayako
Yuan, Jason X-J
description Hypoxia-induced pulmonary hypertension (HPH) is characterized by sustained pulmonary vasoconstriction and vascular remodeling, both of which are mediated by pulmonary artery smooth muscle cell (PASMC) contraction and proliferation, respectively. An increase in cytosolic Ca super(2+) concentration ([Ca super(2+)]cyt) is a major trigger for pulmonary vasoconstriction and an important stimulus for cell proliferation in PASMCs. Ca super(2+) influx through voltage-dependent Ca super(2+) channels (VDCC) is an important pathway for the regulation of [Ca super(2+)]cyt. The potential role for L- and T-type VDCC in the development of HPH is still unclear. Using a hypoxic-induced pulmonary hypertension mouse model, we undertook this study to identify if VDCC in pulmonary artery (PA) are functionally upregulated and determine which type of VDCC are altered in HPH. Mice subjected to chronic hypoxia developed pulmonary hypertension within 4 wk, and high-K+- and U-46619-induced contraction of PA was greater in chronic hypoxic mice than that in normoxic control mice. Additionally, we demonstrate that high-K+- and U-46619-induced Ca super(2+) influx in PASMC is significantly increased in the hypoxic group. The VDCC activator, Bay K8864, induced greater contraction of the PA of hypoxic mice than in that of normoxic mice in isometric force measurements. L-type and T-type VDCC blockers significantly attenuated absolute contraction of the PA in hypoxic mice. Chronic hypoxia did not increase high-K super(+)- and U-46619-induced contraction of mesenteric artery (MA). Compared with MA, PA displayed higher expression of calcium channel voltage-dependent L-type alpha 1-subunit (Cav1.2) and T-type alpha 1-subunit (Cav3.2) upon exposure to chronic hypoxia. In conclusion, both L-type and T-type VDCC were functionally upregulated in PA, but not MA, in HPH mice, which could result from selectively increased expression of Cav1.2 and Cav3.2.
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Lung cellular and molecular physiology</jtitle><date>2013-07-01</date><risdate>2013</risdate><volume>305</volume><issue>2</issue><spage>L154</spage><epage>L154</epage><pages>L154-L154</pages><issn>1040-0605</issn><abstract>Hypoxia-induced pulmonary hypertension (HPH) is characterized by sustained pulmonary vasoconstriction and vascular remodeling, both of which are mediated by pulmonary artery smooth muscle cell (PASMC) contraction and proliferation, respectively. An increase in cytosolic Ca super(2+) concentration ([Ca super(2+)]cyt) is a major trigger for pulmonary vasoconstriction and an important stimulus for cell proliferation in PASMCs. Ca super(2+) influx through voltage-dependent Ca super(2+) channels (VDCC) is an important pathway for the regulation of [Ca super(2+)]cyt. The potential role for L- and T-type VDCC in the development of HPH is still unclear. Using a hypoxic-induced pulmonary hypertension mouse model, we undertook this study to identify if VDCC in pulmonary artery (PA) are functionally upregulated and determine which type of VDCC are altered in HPH. Mice subjected to chronic hypoxia developed pulmonary hypertension within 4 wk, and high-K+- and U-46619-induced contraction of PA was greater in chronic hypoxic mice than that in normoxic control mice. Additionally, we demonstrate that high-K+- and U-46619-induced Ca super(2+) influx in PASMC is significantly increased in the hypoxic group. The VDCC activator, Bay K8864, induced greater contraction of the PA of hypoxic mice than in that of normoxic mice in isometric force measurements. L-type and T-type VDCC blockers significantly attenuated absolute contraction of the PA in hypoxic mice. Chronic hypoxia did not increase high-K super(+)- and U-46619-induced contraction of mesenteric artery (MA). Compared with MA, PA displayed higher expression of calcium channel voltage-dependent L-type alpha 1-subunit (Cav1.2) and T-type alpha 1-subunit (Cav3.2) upon exposure to chronic hypoxia. In conclusion, both L-type and T-type VDCC were functionally upregulated in PA, but not MA, in HPH mice, which could result from selectively increased expression of Cav1.2 and Cav3.2.</abstract></addata></record>
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title Chronic hypoxia selectively enhances L- and T-type voltage-dependent Ca super( 2+) channel activity in pulmonary artery by upregulating Ca sub( v)1.2 and Ca sub( v)3.2
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