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Exogenous Irritant-Induced Airway Hyperreactivity and Inhibition of Soluble Guanylyl Cyclase

Martina Antoová, MN, PhD

Department of Nursing, Comenius University Bratislava, Jessenius Faculty of Medicine, Martin, Slovakia, antosova{at}jfmed.uniba.sk

Anna Strapková, Doc, RNDr, CSc

Department of Pharmacology, Comenius University Bratislava, Jessenius Faculty of Medicine, Martin, Slovakia

Tomá Turan, MUDr

Clinics of Children and Adolescents, Faculty Hospital, Martin Slovakia

The majority of nitric oxide (NO) effects in the respiratory system are caused by stimulation of soluble guanylyl cyclase (sGC) with subsequent increase of cyclic guanosine monophosphate (cGMP) production. The importance of this mechanism of NO action in airway hyperreactivity (AHR) pathogenesis is unknown. Therefore, the aim of our experiment was to examine the changes of airway reactivity enhanced by toluene vapor exposure in the presence or inhibition of sGC activity in guinea pigs. Animals were treated with a nonspecific sGC inhibitor, methylene blue, in a dose of 50 or 100 mg/kg body weight, administered by intraperitoneal injection 30 min before or after exposure to toluene vapors. The toluene exposure lasted 2 hr in each of 3 consecutive days under in vivo conditions. Thereafter, the tracheal and lung tissue smooth muscle response to cumulative doses of mediators (histamine or acetylcholine) was recorded under in vitro conditions. The exposure to toluene vapors significantly increased the airway reactivity to both mediators in comparison with the healthy animal group. The administration of methylene blue decreased the amplitude of airway smooth muscle contraction in toluene-induced hyperreactivity. The decreases were dependent on the inhibitor doses, on a regimen of administration (before or after toluene inhalation), the level of the respiratory system (trachea, lung), and the bronchoconstrictor mediators. Our results suggest that the interaction between NO and sGC may be important for airway reactivity changes, but other mechanisms of NO action are important in AHR pathogenesis, too.

Key Words: airway reactivity • nitric oxide • soluble guanylyl cyclase • cGMP

Biological Research For Nursing, Vol. 10, No. 2, 93-101 (2008)
DOI: 10.1177/1099800408323846


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