Enhanced Ca2+ Mobilization in Airway Smooth Muscle Contributes to Airway Hyperresponsiveness in an Inbred Strain of Rat

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Enhanced Ca²⁺ Mobilization in Airway Smooth Muscle Contributes to Airway Hyperresponsiveness in an Inbred Strain of Rat

FLORENCE C. TAO, BARBARA TOLLOCZKO, DAVID H. EIDELMAN, and JAMES G. MARTIN

Meakins-Christie Laboratories, Department of Medicine, McGill University, Montreal, Quebec, Canada

The mechanisms underlying airway hyperresponsiveness are still unknown but increased contractility of airway smooth musclemay play a role. This study sought to demonstrate a relationshipbetween in vivo airway responsiveness and a number of measuresof airway smooth muscle responsiveness ex vivo, including intracellularCa²⁺ signaling, by comparing three inbred strains of rat with differentdegrees of airways responsiveness to methacholine. Lewis, ACI,and Fisher strains of rat were characterized for their pulmonaryresponses to 5-hydroxytryptamine (5HT) in vivo and Fisher ratswere found to be hyperresponsive to 5HT compared with ACI andLewis rats. The responsiveness of the airways from these strainsof rat ex vivo revealed that intraparenchymal airways from Fisherrats significantly narrowed to a greater degree and at a fasterrate to 5HT than Lewis rat airways, consistent with their differencesin vivo. Intraparenchymal ACI airways, however, narrowed to thesame degree as Fisher airways but took longer to do so at a highconcentration of 5HT. 5HT caused concentration-dependent increasesin intracellular Ca²⁺ in airway smooth muscle cells from all three strains of rat,but Fisher and ACI displayed higher responses than Lewis airwaysmooth muscle. Our results demonstrate that the degree of intracellularCa²⁺ mobilization by 5HT in airway smooth muscle parallels the rateand degree of intraparenchymal airway narrowing and suggest thatthe degree of intracellular Ca²⁺ mobilization plays a role in determining airway smooth musclecontractility.

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