Persistent sodium current and Na^sup +^/H^sup +^ exchange contributes to the augmentation of the reverse Na^sup +^/Ca^sup 2+^ exchange during hypoxia or acute ischemia in ventricular myocytes

The increases in persistent sodium currents (I ^sub Na.P^) and Na^sup +^/H^sup +^ exchange (NHE) causes intracellular Ca^sup 2+^ overload. The objective of this study was to determine the contribution of I ^sub Na.P^ and NHE on the hypoxia- or acute ischemia-induced increase in the reverse Na^sup +^...

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Veröffentlicht in:	Pflügers Archiv 2012-04, Vol.463 (4), p.513
Hauptverfasser:	Tang, Qiong, Ma, Jihua, Zhang, Peihua, Wan, Wei, Kong, Linghao, Wu, Lin
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description	The increases in persistent sodium currents (I ^sub Na.P^) and Na^sup +^/H^sup +^ exchange (NHE) causes intracellular Ca^sup 2+^ overload. The objective of this study was to determine the contribution of I ^sub Na.P^ and NHE on the hypoxia- or acute ischemia-induced increase in the reverse Na^sup +^/Ca^sup 2+^ exchange current (HIR- or AIR-I ^sub NCX^). I ^sub Na.P^ and I ^sub NCX^ in rabbit ventricular myocytes were recorded during hypoxia or acute ischemia, combination of acidosis (pH values were 6.0 intracellularly and 6.8 extracellularly) and hypoxia, using whole-cell patch-clamp techniques. The results indicate that (1) under hypoxic condition, the augmentation of both HIR-I ^sub NCX^ and I ^sub Na.P^ was inhibited by TTX (2 to 8 μM) in a concentration-dependent manner. The inhibitions of I ^sub Na,P^ and HIR-I ^sub NCX^ reached maximum in the presence of either 4 μM TTX or 10 μM KR-32568 (a NHE inhibitor), respectively. The maximal inhibitions of HIR-I ^sub NCX^ by 4 μM TTX and 10 μM KR-32568 were 72.54% and 16.89%, respectively. (2) Administration of 2 μM TTX and 10 μM KR-32568 in either order in the same cells decreased HIR-I ^sub NCX^ by 64.83% and 16.94%, respectively. (3) I ^sub Na.P^ and the reverse I ^sub NCX^ were augmented during acute ischemia. TTX (4 μM) and KR-32568 (10 μM) reduced AIR-I ^sub NCX^ by 73.39% and 24.13%, respectively. (4) Under normoxic condition, veratridine (20 μM) significantly increased I ^sub Na.P^ and the reverse I ^sub NCX^, which was reversed by 4 μM TTX. In conclusion, during hypoxia or acute ischemia, both increased I ^sub Na.P^ and NHE contribute to the HIR- or AIR-I ^sub NCX^ with the former playing a major role comparing with the latter.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s00424-011-1070-y
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The objective of this study was to determine the contribution of I ^sub Na.P^ and NHE on the hypoxia- or acute ischemia-induced increase in the reverse Na^sup +^/Ca^sup 2+^ exchange current (HIR- or AIR-I ^sub NCX^). I ^sub Na.P^ and I ^sub NCX^ in rabbit ventricular myocytes were recorded during hypoxia or acute ischemia, combination of acidosis (pH values were 6.0 intracellularly and 6.8 extracellularly) and hypoxia, using whole-cell patch-clamp techniques. The results indicate that (1) under hypoxic condition, the augmentation of both HIR-I ^sub NCX^ and I ^sub Na.P^ was inhibited by TTX (2 to 8 μM) in a concentration-dependent manner. The inhibitions of I ^sub Na,P^ and HIR-I ^sub NCX^ reached maximum in the presence of either 4 μM TTX or 10 μM KR-32568 (a NHE inhibitor), respectively. The maximal inhibitions of HIR-I ^sub NCX^ by 4 μM TTX and 10 μM KR-32568 were 72.54% and 16.89%, respectively. (2) Administration of 2 μM TTX and 10 μM KR-32568 in either order in the same cells decreased HIR-I ^sub NCX^ by 64.83% and 16.94%, respectively. (3) I ^sub Na.P^ and the reverse I ^sub NCX^ were augmented during acute ischemia. TTX (4 μM) and KR-32568 (10 μM) reduced AIR-I ^sub NCX^ by 73.39% and 24.13%, respectively. (4) Under normoxic condition, veratridine (20 μM) significantly increased I ^sub Na.P^ and the reverse I ^sub NCX^, which was reversed by 4 μM TTX. In conclusion, during hypoxia or acute ischemia, both increased I ^sub Na.P^ and NHE contribute to the HIR- or AIR-I ^sub NCX^ with the former playing a major role comparing with the latter.[PUBLICATION ABSTRACT]</description><identifier>ISSN: 0031-6768</identifier><identifier>EISSN: 1432-2013</identifier><identifier>DOI: 10.1007/s00424-011-1070-y</identifier><language>eng</language><publisher>Heidelberg: Springer Nature B.V</publisher><ispartof>Pflügers Archiv, 2012-04, Vol.463 (4), p.513</ispartof><rights>Springer-Verlag 2012</rights><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>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Tang, Qiong</creatorcontrib><creatorcontrib>Ma, Jihua</creatorcontrib><creatorcontrib>Zhang, Peihua</creatorcontrib><creatorcontrib>Wan, Wei</creatorcontrib><creatorcontrib>Kong, Linghao</creatorcontrib><creatorcontrib>Wu, Lin</creatorcontrib><title>Persistent sodium current and Na^sup +^/H^sup +^ exchange contributes to the augmentation of the reverse Na^sup +^/Ca^sup 2+^ exchange during hypoxia or acute ischemia in ventricular myocytes</title><title>Pflügers Archiv</title><description>The increases in persistent sodium currents (I ^sub Na.P^) and Na^sup +^/H^sup +^ exchange (NHE) causes intracellular Ca^sup 2+^ overload. The objective of this study was to determine the contribution of I ^sub Na.P^ and NHE on the hypoxia- or acute ischemia-induced increase in the reverse Na^sup +^/Ca^sup 2+^ exchange current (HIR- or AIR-I ^sub NCX^). I ^sub Na.P^ and I ^sub NCX^ in rabbit ventricular myocytes were recorded during hypoxia or acute ischemia, combination of acidosis (pH values were 6.0 intracellularly and 6.8 extracellularly) and hypoxia, using whole-cell patch-clamp techniques. The results indicate that (1) under hypoxic condition, the augmentation of both HIR-I ^sub NCX^ and I ^sub Na.P^ was inhibited by TTX (2 to 8 μM) in a concentration-dependent manner. The inhibitions of I ^sub Na,P^ and HIR-I ^sub NCX^ reached maximum in the presence of either 4 μM TTX or 10 μM KR-32568 (a NHE inhibitor), respectively. The maximal inhibitions of HIR-I ^sub NCX^ by 4 μM TTX and 10 μM KR-32568 were 72.54% and 16.89%, respectively. (2) Administration of 2 μM TTX and 10 μM KR-32568 in either order in the same cells decreased HIR-I ^sub NCX^ by 64.83% and 16.94%, respectively. (3) I ^sub Na.P^ and the reverse I ^sub NCX^ were augmented during acute ischemia. TTX (4 μM) and KR-32568 (10 μM) reduced AIR-I ^sub NCX^ by 73.39% and 24.13%, respectively. (4) Under normoxic condition, veratridine (20 μM) significantly increased I ^sub Na.P^ and the reverse I ^sub NCX^, which was reversed by 4 μM TTX. 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The objective of this study was to determine the contribution of I ^sub Na.P^ and NHE on the hypoxia- or acute ischemia-induced increase in the reverse Na^sup +^/Ca^sup 2+^ exchange current (HIR- or AIR-I ^sub NCX^). I ^sub Na.P^ and I ^sub NCX^ in rabbit ventricular myocytes were recorded during hypoxia or acute ischemia, combination of acidosis (pH values were 6.0 intracellularly and 6.8 extracellularly) and hypoxia, using whole-cell patch-clamp techniques. The results indicate that (1) under hypoxic condition, the augmentation of both HIR-I ^sub NCX^ and I ^sub Na.P^ was inhibited by TTX (2 to 8 μM) in a concentration-dependent manner. The inhibitions of I ^sub Na,P^ and HIR-I ^sub NCX^ reached maximum in the presence of either 4 μM TTX or 10 μM KR-32568 (a NHE inhibitor), respectively. The maximal inhibitions of HIR-I ^sub NCX^ by 4 μM TTX and 10 μM KR-32568 were 72.54% and 16.89%, respectively. (2) Administration of 2 μM TTX and 10 μM KR-32568 in either order in the same cells decreased HIR-I ^sub NCX^ by 64.83% and 16.94%, respectively. (3) I ^sub Na.P^ and the reverse I ^sub NCX^ were augmented during acute ischemia. TTX (4 μM) and KR-32568 (10 μM) reduced AIR-I ^sub NCX^ by 73.39% and 24.13%, respectively. (4) Under normoxic condition, veratridine (20 μM) significantly increased I ^sub Na.P^ and the reverse I ^sub NCX^, which was reversed by 4 μM TTX. In conclusion, during hypoxia or acute ischemia, both increased I ^sub Na.P^ and NHE contribute to the HIR- or AIR-I ^sub NCX^ with the former playing a major role comparing with the latter.[PUBLICATION ABSTRACT]</abstract><cop>Heidelberg</cop><pub>Springer Nature B.V</pub><doi>10.1007/s00424-011-1070-y</doi></addata></record>
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title	Persistent sodium current and Na^sup +^/H^sup +^ exchange contributes to the augmentation of the reverse Na^sup +^/Ca^sup 2+^ exchange during hypoxia or acute ischemia in ventricular myocytes
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