Fibrosis, characterized by accumulation of collagen, is a delayed result of radiation injury in many tissues, including lung. To investigate its development, synthesis and degradation of collagen were measured in lungs of mice after X irradiation of the whole thorax. The ratio of type I (coarse fibered) to type III (meshwork) collagen was also determined. Synthesis of procollagen, measured as the activities of prolyl-4-hydroxylase and protein disulfide isomerase in lung tissue, was increased at 2 months after X-ray doses of 5, 7.5, and 9 Gy. Maximal increases were observed 6 to 7 months after doses of 9 Gy and persisted up to 15 months after exposure. Increases after 5 and 7.5 Gy were more gradual, but by 1 year after irradiation they had reached levels similar to those after 9 Gy. X irradiation had no effect on the degradation of collagen as assessed by collagenase activity in lung. The ratio of type I to type III collagen, analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of collagen-derived cyanogen bromide peptides, was the same in irradiated lungs as in age-matched controls. Therefore, increased synthesis of procollagen, rather than decreased degradation of collagen or changes in collagen type, is an important factor in the accumulation of collagen in irradiated lung.