期刊
AMERICAN JOURNAL OF RESPIRATORY CELL AND MOLECULAR BIOLOGY
卷 51, 期 2, 页码 251-261出版社
AMER THORACIC SOC
DOI: 10.1165/rcmb.2013-0452OC
关键词
hyperinsulinemia; obesity; asthma; airway responsiveness; neural M-2 muscarinic receptor
资金
- Oregon Health and Science University Medical Research Foundation
- National Institutes of Health [HL71795, AI92210, HL113023, AR061567, HL55543, ES14601]
Obesity is a substantial risk factor for developing asthma, but the molecular mechanisms underlying this relationship are unclear. We tested the role of insulin in airway responsiveness to nerve stimulation using rats genetically prone or resistant to diet-induced obesity. Airway response to vagus nerve stimulation and airway M-2 and M-3 muscarinic receptor function were measured in obeseprone and -resistant rats with high or low circulating insulin. The effects of insulin on nerve-mediated human airway smooth muscle contraction and human M-2 muscarinic receptor function were tested in vitro. Our data show that increased vagally mediated bronchoconstriction in obesity is associated with hyperinsulinemia and loss of inhibitory M-2 muscarinic receptor function on parasympathetic nerves. Obesity did not induce airway inflammation or increase airway wall thickness. Smooth muscle contraction to acetylcholine was not increased, indicating that hyperresponsiveness is mediated at the level of airway nerves. Reducing serum insulin with streptozotocin protected neuronal M-2 receptor function and prevented airway hyperresponsiveness to vagus nerve stimulation in obese rats. Replacing insulin restored dysfunction of neuronal M-2 receptors and airway hyperresponsiveness to vagus nerve stimulation in streptozotoc intreated obese rats. Treatment with insulin caused loss of M-2 receptor function, resulting in airway hyperresponsiveness to vagus nerve stimulation in obese-resistant rats, and inhibited human neuronal M-2 receptor function in vitro. This study shows that it is not obesity per se but hyperinsulinemia accompanying obesity that potentiates vagally induced bronchoconstriction by inhibiting neuronal M-2 muscarinic receptors and increasing acetylcholine release from airway parasympathetic nerves.
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