Hypoxia inhibits vasoconstriction induced by metabotropic Ca2+ channel induced Ca2+ release in mammalian coronary arteries

doi:10.1093/cvr/cvp006

Cardiovascular Research Advance Access [Accepted Manuscript] published online on January 8, 2009
Cardiovascular Research, doi:10.1093/cvr/cvp006

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Hypoxia inhibits vasoconstriction induced by metabotropic Ca²⁺ channel induced Ca²⁺ release in mammalian coronary arteries

Eva Calderón, Miguel Fernández-Tenorio, Antonio Ordóñez, José López-Barneo and Juan Ureña

Instituto de Biomedicina de Sevilla (IBiS), Hospital Universitario Virgen del Rocío/CSIC/Universidad de Sevilla, Avenida Manuel Siurot s/n, Seville 41013, Spain.

Corresponding author:J. Ureña, Instituto de Biomedicina de Sevilla (IBiS), Edificio de Laboratorios, 2^a planta, Hospital Universitario Virgen del Rocío, Avenida Manuel Siurot s/n, E-41013, Sevilla, SPAIN, Phone: (+34)-955-012643 or (+34)-955-013157; Fax: (34)-954-617301, Email: jurena{at}us.es

Aims: We have previously described in rat basilar arterial myocytesthat in the absence of extracellular Ca²⁺ influx, activationof L-type Ca²⁺ channels stimulates a metabotropic cascade leadingto Ca²⁺ release from the sarcoplasmic reticulum (SR) and contraction(a CCICR mechanism). On the other hand, it is known that hypoxiareduces Ca²⁺ channel activity in coronary myocytes. In the presentstudy we have investigated whether CCICR is present in coronaryarterial myocytes and whether arterial ring contraction inducedby CCICR can be inhibited by hypoxia.

Methods: Isometric force, arterial diameter, cytosolic [Ca²⁺] and electricalactivity were recorded on mammalian (porcine, rat and human)coronary artery preparations (dispersed myocytes, arterial rings,and intact arterial segments).

Results: In the absence of extracellular Ca²⁺, Ca²⁺ channel activationincreased cytosolic [Ca²⁺] in isolated myocytes and contractedarterial rings. This contraction was suppressed by antagonistsof L-type Ca²⁺ channels and by inhibiting Ca²⁺ release fromSR. Hypoxia dilated coronary arterial rings precontracted byactivation of Ca²⁺ channels in the absence of extracellularCa²⁺. This effect was present although K_ATP channels and Rhokinase were blocked by glibenclamide and Y27632, respectively.

Conclusions: We show that Ca²⁺ channel activation can induce metabotropiccoronary arterial ring contraction in the absence of extracellularCa²⁺ and that this CCICR mechanism is inhibited by hypoxia.Thus, besides reduction of Ca²⁺ entry through Ca²⁺ channels,hypoxia seems to induce coronary vasorelaxation by inhibitionof metabotropic CCICR.

Time for primary review: 36 Days

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