ULTRASTRUCTURAL AND BIOCHEMICAL-STUDIES OF THE EFFECT OF POLYCHLORINATED BIPHENYL ON MOUSE PAROTID-GLAND CELLS

These effects of polychlorinated biphenyl (PCB) were examined by light and electron microscopy and biochemical analysis of lysosomal enzyme activities. Several experimental protocols with dosage schedules of ei ther 0.2, 2.0, or 20 mg/kg of PCB were used. Typical histological chan ges were observed in mice given 2 mg/kg of PCB in a single injection. There were no remarkable changes until 4 days after PCB administration ; marked cytoplasmic vacuolation was observed in parotid acinar cells at 7 days. The activities of Lysosomal enzymes increased after the PCB injection and their maximum values appeared consistently at 4 days af ter the treatment; the increases were threefold for acid phosphatase, twofold for beta-glucuronidase, threefold for cathepsin D, fivefold fo r cathepsin H and twofold for cathepsin L. As vacuolation was preceded by a large increase in lysosomal enzyme activities and the vacuoles c o-localized with lysosomes, it is suggested that an increase in these activities induced by PCB may be closely related to the development of vacuolation in the parotid acinar cells as a subacute effect of PCB.