Plasminogen Activator Activity in Lung and Alveolar Macrophages of Rats Exposed to Graded Single Doses of γ Rays to the Right Hemithorax

Abstract

Male rats were sacrificed 2 or 6 months after a single dose of 0-30 Gy of 60Co gamma rays to the right hemithorax. At autopsy, macrophages were lavaged from the right lung, counted, and frozen. The right (irradiated) and the left (shielded) lungs were frozen, then assayed for plasminogen activator (PLA) activity by the fibrin plate lysis method. Freeze-thawed macrophages were assayed for both PLA activity (125I-fibrin clot lysis method) and fibrinolytic inhibitor activity (inhibition of urokinase-induced fibrin lysis). There was a linear, dose-dependent decrease in right lung PLA activity over the dose range of 10-30 Gy at 2 and 6 months postirradiation, reductions of 3.1 and 2.6% per Gy, respectively. PLA activity at all radiation doses was 10-15% higher at 6 months than at 2 months (P less than 0.05), indicative of a partial recovery of this endothelial function in the irradiated lung. There were no significant changes in PLA activity in the shielded left lung at any dose or time. There also was a linear, dose-dependent increase in the number of macrophages lavaged from the right lung at both 2 and 6 months postirradiation, with larger numbers recovered after all doses at 2 months. PLA activity per 10(6) macrophages decreased with increasing radiation dose at both autopsy times, closely paralleling lung PLA activity. This radiation-induced decrease in macrophage PLA activity was not due to increased fibrinolytic inhibitor activity in the irradiated macrophages. These data quantitate the dose response and time course of radiation-induced fibrinolytic defects in rat lung and suggest that information obtained from a minimally invasive procedure such as bronchoalveolar lavage may serve as an index of the degree of pulmonary fibrinolytic dysfunction after irradiation.