Vitamin A deficiency promotes bronchial hyperreactivity in rats by altering muscarinic M2 receptor function

doi:10.1152/ajplung.00319.2001

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Am J Physiol Lung Cell Mol Physiol 282: L1031-L1039, 2002. First published December 7, 2001; doi:10.1152/ajplung.00319.2001
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Vol. 282, Issue 5, L1031-L1039, May 2002

Vitamin A deficiency promotes bronchial hyperreactivity in rats by altering muscarinic M₂ receptor function

Stephen E. McGowan¹^,², Jennifer Smith², Amey Jo Holmes¹, Lori A. Smith², Thomas R. Businga², Mark T. Madsen³, Ulla C. Kopp¹^,², and Joel N. Kline²

¹ Department of Veterans Affairs Research Service and Departments of ² Internal Medicine and ³ Radiology, University of Iowa College of Medicine, Iowa City, Iowa 52242

Vitamin A deficiency (VAD) remains an important health problem among children in developing countries. Children living inthese areas have a higher mortality from respiratory infections,which likely results in part from suboptimal nutrition, includingVAD. Bronchial hyperreactivity can follow viral respiratory infectionsand may complicate the recovery. To investigate whether VAD promotesbronchial hyperreactivity, we have assessed methacholine-inducedbronchoconstriction in VAD and vitamin A-sufficient rats. Bronchialconstriction developed at lower concentrations of inhaled methacholinein VAD than in vitamin A-sufficient rats. This did not resultfrom an increase in the bronchial wall thickness or the clearanceof a small molecule (with a size similar to methacholine) fromthe air space. The function and abundance of the muscarinic M₂receptors in bronchial tissue were reduced in VAD rats, suggestingthat this receptor may contribute to these animals' diminishedability to limit cholinergic-mediated bronchoconstriction. A similarreduction in muscarinic M₂ receptor function has been observedin asthma. Vitamin A (retinol) and its congeners (retinoids) maybe required to regulate bronchial responsiveness in addition tomaintaining a normal bronchialepithelium.

asthma; retinoids; retinol; cholinergic

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