Allogeneic murine pregnancy models for assessing the developmental effects of immune-stimulating antibodies: Challenges in reproducibility.

Literature suggests that murine allogeneic pregnancy models are an alternative approach for evaluating the developmental toxicity of immune-stimulating agents. In this study, multiple syngeneic and allogeneic murine pregnancy models were used to assess the potential embryo-fetal effects of four different murine antibodies (IgG1 or IgG2 ) that activate the immune system by binding to T-cell receptors (PD-L1, LAG-3, and GITR). The pregnancy models were generated by within and between matings of five different inbred strains of mice (CBA/CaJ, DBA/2J, BALB/c, C57BL/6, and CBA/J). The antibodies were administered every 2-3 days by intraperitoneal injection (n = 12-29/group) during gestation days 6 to 14. There were no differences in embryo-fetal endpoints between the allogeneic and syngeneic pregnancies. Additionally, treatment with the antibodies had no effect on mean postimplantation loss in either the syngeneic or allogeneic pregnancies despite confirmation of pharmacologically-relevant systemic exposures. These results suggest that allogeneic murine pregnancy models need further validation and testing before they can be reliably used as an alternative approach for assessing the developmental effects of agents that stimulate the immune system.

Epididymal and systemic phospholipidosis in rats and dogs treated with the dopamine D3 selective antagonist PNU-177864.

Repeat dose oral toxicity studies were conducted in rat and dog to assess the safety for human clinical testing of the potent dopamine D3 receptor antagonist, PNU-177864. Systemic phospholipidosis was the principal treatment-related change with epididymal epithelial cell phospholipidosis being the most prominent finding in rats and dogs. Epididymal epithelial cells had no histologic evidence of degeneration; sperm density and morphology were normal histologically in both species; and sperm concentration, morphology, and motility in the dog were comparable to dogs given vehicle. Other sites with phospholipidosis included lymphoid tissues (lymph nodes, Peyer's patches, and/or spleen), pulmonary alveolar macrophages, and peripheral blood lymphocytes in rats and dogs and adrenal cortex, liver, pituitary, hair follicles, bone marrow lymphocytes and plasma cells, and skeletal muscle in rats only. The phospholipidosis was resolved after a 6-week recovery period in all tissues but epididymis. There was no evidence of cell injury in tissues that had phospholipid accumulations except in rat skeletal muscle that had multifocal myofiber degeneration and necrosis. For clinical trials, serum AST and CK and peripheral blood lymphocyte vacuolation were considered potential safety biomarkers for skeletal muscle degeneration and phospholipidosis, respectively.