Embryo-fetal developmental toxicity of figitumumab, an anti-insulin-like growth factor-1 receptor (IGF-1R) monoclonal antibody, in cynomolgus monkeys.

BACKGROUND: Insulin-like growth factor (IGF) signaling has been linked to tumor cell survival and tumorigenesis. The anti-IGF-1 receptor monoclonal antibody, figitumumab, has been developed as an anti-cancer therapeutic. As part of the safety evaluation, an embryo-fetal developmental toxicity study was conducted in the cynomolgus monkey. METHODS: Figitumumab was administered once weekly intravenously at a dose of 5, 15, or 100 mg/kg during the period of major organogenesis (gestation days [GD] 20-48) with scheduled cesarean section around GD100. Maternal endpoints included clinical observations, food consumption, body weights, hematology, placental weights, toxicokinetics, and immunogenicity. Fetal evaluations included viability; body weights; external, visceral, and skeletal examination (and measurements); drug exposure; and immunogenicity. RESULTS: There was a dose-dependent increase in embryo-fetal loss in the presence of decreased maternal food consumption and slight reduction in body weight. Figitumumab-related embryo-fetal developmental toxicity was observed as growth retardation exhibited by reduced fetal body weights at all doses with corresponding developmental delays in morphology. Treatment-related fetal structural malformations were also observed in the mid- and high-dose groups. CONCLUSIONS: Maternal figitumumab dosing only during the period of organogenesis was associated with pregnancy loss and fetal growth deficits; both considered consistent with inhibition of IGF signaling. Fetal malformations were also observed, and were considered secondary to altered placental function and/or reduced fetal growth; however, direct inhibition of IGF signaling in the conceptus cannot be ruled out. This appears to be the first report of treatment-related fetal anomalies with a monoclonal antibody when administered only during the period of major organogenesis.

Neurotoxic effects of zoniporide: a selective inhibitor of the NA+/H+ exchanger isoform 1.

Zoniporide, an inhibitor of the Na+-H+ exchanger-1, was administered by continuous intravenous infusion to rats and dogs for up to 1 month. In 1-month studies, histological and functional changes were observed in select portions of the peripheral nervous system; however, these findings were not detected in 2-week studies at similar or higher doses. In the 1-month rat study, there was dose-dependent, minimal, focal, or multifocal nerve fiber (axonal) degeneration in the spinal cord and/or sciatic nerve. In a follow-up rat study, findings included slowing of caudal nerve conduction velocity and axonal degeneration in the spinal cord (dorsal funiculus), dorsal roots, dorsal root ganglia (DRG), radial, sciatic, and tibial nerves. In the 1-month dog study, there was impairment of the patellar reflex and associated postural reaction changes, minimal to marked proximal nerve fiber degeneration in the DRG, and minimal nerve fiber degeneration in the dorsal roots and funiculi of the spinal cord. Minimal nerve fiber degeneration of equivocal significance was noted in various peripheral nerves. Taken together, these findings were consistent with a specific effect on peripheral sensory nerve fibers. These studies demonstrated that zoniporide produces clinical, electrophysiologic, and microscopic evidence of peripheral sensory axonopathy and establishes the importance of careful preclinical evaluation of neurological function.