A time-course study of airway hyperresponsiveness in conscious parainfluenza virus type 3-infected guinea pigs

Abstract

The study of virus-induced airway hyperresponsiveness may provide insight into mechanisms that contribute to respiratory diseases such as asthma. We examined changes induced by parainfluenza virus type 3 (PI-3) in lung lesions, tissue weights, and airway responsiveness to aerosols of histamine, methacholine, or citric acid in conscious guinea pigs, using modified whole body plethysmography. During the first week after inoculation, infected lung tissue had peribronchiolitis and airway hyperresponsiveness to various agents when dyspnea and significant respiratory events were measured; these effects persisted throughout postinoculation weeks 2 and 3. Airway hyperresponsiveness was defined by reductions in the onset of dyspnea or significant respiratory events. Throughout the course of the study, PI-3 infected animals had resting respiratory patterns that reflected labored breathing and may have been related to the edema indicated by increased lung weights. Furthermore, increased numbers of inflammatory cells were observed in lung tissue as well as bronchoalveolar lavage fluid of infected animals at these times. Unlike PI-3 infection, exposure to gram-negative endotoxin resulted primarily in airway hyporesponsiveness to histamine aerosol. Hence, we have shown PI-3 infection in guinea pigs causes time-dependent alterations in airway responsiveness to diverse bronchoactive agents as well as in normal breathing patterns, which may persist up to several weeks after inoculation in animals that may otherwise appear normal.