The effects of several cancer chemotherapeutic agents on radiation damage to normal intestine, esophagus, and lung tissue were evaluated in LAF, mice using quantitive endpoints. In all tissues tested, actinomycin D increased injury and BCNU did not. In the intestine, adriamycin enhanced radiation damage more than any other agent. Bleomycin increased damage in the esophagus but not in the lung or intestine. Cyclophosphamide increased injury only in the lung, where vincristine caused minimal injury, and hydroxyurea, none. Only prednisolone caused significant radioprotection when given at the time of irradiation or at the time of expected death from pulmonary injury. ." T h e pulmonary toxicity observed with bleomycin' has led to fears that this agent might increase radiation pneumonitis. Because of the clinical and experimental evidence that some drugs increase the injury to an irradiated tissue, either through additivity of cell killing or through increasing cell killing per rad (sensitization), it is necessary to explore the degree to which cancer chemotherapeutic agents affect the radiation response of certain critical tissues. T h e experiments reported here were designed to determine the degree of injury occurring in the intestine, the esophagus, and the lung with a number of cancer chemotherapeutic agents in widespread clinical use.Because of reports that prednisolone may reduce radiation injury in t h e lung, it was also studied.
MATERIALS AND METHODS.4ll experiments reported here were carried out in 12-week-old LAF, male mice (Jackson Laboratories, Bar Harbor, ME). T h e mice, housed live per cage, were allowed to adjust to our animal quarters for at least 2 weeks before use, a n d were m a i n t a i n e d on s t a n d a r d laboratory chow and water a d libitum.For intestinal microcolony experiments, the mice were exposed to whole body radiation in a 2000-Ci, '37Cs irradiator at a dose rate of 275 rads/minute in rotating lucite cages. For esophageal and pulmonary experiments, irradiation was carried out with orthovoltage x rays from a 300-kVp generator. H V L 1.6 m m Cu, dose rate 330 rads/minute. Dosimetry was checked with T L D dosimeters. Before irradiation, the head and body of each mouse were shielded with lead, 6 m m thick, exposing a 2.5-cm strip of the thorax from the thoracic inlet to the lower limits of the anterior thoracic cage. For the esophageal lethality endpoint, mice were i r r a d i a t e d while b r e a t h i n g a i r ; for t h e pulmonary endpoint, mice were irradiated while breathing 5.5% oxygen in nitrogen.Techniques for measuring injury in the int e~t i n e , '~ esophagus, l 6 3 l 7 and have all been described elsewhere. Briefly, these were as follows : For the intestinal microcolony endpoint, mice were sacrificed 3 '/2 days after irradiation, and the entire jejunum was removed. It was fixed in toto a n d then sectioned into eight separate 1-cm samples, which were embedded on end side by side in a paraffin 1678
