The induction of hepatic microsomal metabolism in rats following acute administration of a mixture of polybrominated biphenyls.

A high frequency of congenital limb defects after maternal treatment with the nitrogen mustard chlorambucil suggested that cytotoxic effects could be analyzed as correlates of teratogenic action of this alkylating agent. Limb buds from $\text{ICR}\text{DUB}$ mouse embryos were exposed in vivo or in vitro to teratogenic doses of chlorambucil. At 0.5- to 72-hr intervals following exposure, the limbs were processed for observation with the light and electron microscopes. Light microscopy of limb buds exposed to the drug in vivo or in vitro showed evidence of cellular involvement within 4 hr following treatment. The effects were manifested in the form of cytoplasmic inclusions which increased in number as the time following exposure increased, and, in vivo, reached a maximum at 24 hr. Increased doses of the drug also produced increased numbers of affected cells. In limb buds exposed to chlorambucil in vitro, the number of affected cells reached a plateau at 48 hr after treatment and decreased significantly by 72 hr, at which time exposure to a second dose of the drug had little or no effect. Affected cells were restricted almost exclusively to regions of undifferentiated mesenchymal cells. Electron microscopic examination of the cytoplasm of affected cells demonstrated the presence of membrane-bound vacuoles containing cellular organelles in various stages of degeneration. The number and size of these vacuoles increased with time following exposure until finally the cells fragmented. Nuclear material was not involved until fragmentation of the cells occurred, at which time the nucleus became pyknotic. Following cellular fragmentation and destruction, macrophages were observed in association with the cellular debris. Acid phosphatase was demonstrated within the vacuoles (by the presence of lead phosphate precipitates) with the electron microscope after incubating limb bud tissue in a buffered solution of β-glycerophosphate/lead nitrate. The amount of demonstrable enzyme was found to increase as the degree of breakdown within vacuoles increased. These results and the histological information provided evidence consistent with a process of autophagocytosis.