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Myosin, Transgelin, and Myosin Light Chain Kinase

Expression and Function in Asthma

¹ Meakins-Christie Laboratories, McGill University, Montreal, Quebec, Canada; ² Centre de Recherche de l'Hôpital Laval, Université Laval, Laval, Quebec, Canada; and ³ Department of Medicine, The University of Chicago, Chicago, Illinois

Correspondence and requests for reprints should be addressed to Anne-Marie Lauzon, Ph.D., Meakins-Christie Laboratories, McGill University, 3626 St-Urbain street, Montreal, PQ, H2X 2P2 Canada. E-mail: anne-marie.lauzon{at}mcgill.ca

Rationale: Airway smooth muscle (SM) of patients with asthma exhibits a greater velocity of shortening (Vmax) than that of normal subjects, and this is thought to contribute to airway hyperresponsiveness. A greater Vmax can result from increased myosin activation. This has been reported in sensitized human airway SM and in models of asthma. A faster Vmax can also result from the expression of specific contractile proteins that promote faster cross-bridge cycling. This possibility has never been addressed in asthma.

Objectives: We tested the hypothesis that the expression of genes coding for SM contractile proteins is altered in asthmatic airways and contributes to their increased Vmax.

Methods: We quantified the expression of several genes that code for SM contractile proteins in mild allergic asthmatic and control human airway endobronchial biopsies. The function of these contractile proteins was tested using the in vitro motility assay.

Measurements and Main Results: We observed an increased expression of the fast myosin heavy chain isoform, transgelin, and myosin light chain kinase in patients with asthma. Immunohistochemistry demonstrated the expression of these genes at the protein level. To address the functional significance of this overexpression, we purified tracheal myosin from the hyperresponsive Fisher rats, which also overexpress the fast myosin heavy chain isoform as compared with the normoresponsive Lewis rats, and found a faster rate of actin filament propulsion. Conversely, transgelin did not alter the rate of actin filament propulsion.

Conclusions: Selective overexpression of airway smooth muscle genes in asthmatic airways leads to increased Vmax, thus contributing to the airway hyperresponsiveness observed in asthma.

Key Words: asthma • airway hyperresponsiveness • gene expression • smooth muscle • myosin

AT A GLANCE COMMENTARY Scientific Knowledge on the Subject An excessive decrease in airway luminal area via bronchoconstriction is one of the final pathways to asthma. However, very little is understood about the molecular mechanics of smooth muscle in airway hyperresponsiveness and asthma. What This Study Adds to the Field Selective overexpression of airway smooth muscle genes in asthmatic airways leads to increased Vmax, thus contributing to the airway hyperresponsiveness observed in asthma.

 

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