Inhibition of Bronchial Hyperresponsiveness by the GABA-Agonist Baclofen

¹ From the Department of Medicine, Mount Sinai School of Medicine; and Pulmonary Physiology Laboratory, Veterans Affairs Medical Center, Bronx, New York
² From the Department of Medicine, Mount Sinai School of Medicine; and Spinal Cord Damage Research Center, Veterans Affairs Medical Center, Bronx, New York
³ From the Departments of Medicine, Rehabilitation Medicine, Mount Sinai School of Medicine; Spinal Cord Injury Service, and Spinal Cord Damage Research Center, Veterans Affairs Medical Center, Bronx, New York
⁴ From Pulmonary Physiology Laboratory, Veterans Affairs Medical Center, Bronx, New York

-Aminobutyric acid (GABA) is a well-known inhibitory transmitter of the central nervous system. Recently, the presence of GABA and its receptors has been confirmed in peripheral tissues, including lung tissue. -Aminobutyric acid and the GABA-agonist baclofen have been shown in animal studies to inhibit airway responsiveness to various bronchoconstricting agents. The results of these investigations suggest the possibility of a role for baclofen in the therapy of human airway hyperreactivity. We recently showed that subjects with cervical spinal cord injury (quadriplegia) uniformly exhibit hyperresponsiveness to methacholine. The interruption of sympathetic airway innervation and resultant unopposed cholinergic tone occurring after transection of the cervical spine are thought to explain this phenomenon. We compared bronchial responsiveness with methacholine (PC₂₀) in a control group of otherwise healthy quadriplegic nonsmokers (n=8) with a similar group of subjects (n=6) maintained on baclofen for the relief of muscle spasm. Mean PC₂₀ (mg/ml) among the control group was 1.42±1.6(SD) vs 15.0±9.1 in the baclofen group (p=0.001). The inhibition of bronchial hyperresponsiveness in subjects with cervical spinal cord injury maintained on chronic baclofen therapy suggests the drug's ability to block neuronal acetylcholine release within airways, as well as a possible direct effect on airway smooth muscle. This action of baclofen, along with its documented ability in animal lung to inhibit release of other inflammatory mediators, supports further investigation of this drug as a potential therapeutic agent for asthma treatment.

Key Words: airway innervation • baclofen • bronchial • responsiveness • bronchoprovocation • GABA • methacholine • spinal cord injury

Submitted on September 9, 1993
Accepted on January 11, 1994

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