Risdiplam is a daily, orally dosed, survival of motor neuron 2 (SMN2) mRNA splicing-modifying agent approved for the treatment of spinal muscular atrophy (SMA). RG7800 is a closely related SMN2 mRNA-splicing compound. Effects on secondary mRNA splice targets such as Forkhead Box M1 (FOXM1) and MAP kinase-activating death domain protein (MADD), which have been implicated in cell-cycle regulation, were observed in non-clinical studies with both risdiplam and RG7800. Potential effects of risdiplam on male fertility via FOXM1 and MADD are important as these secondary splice targets exist in humans. This publication reports the findings from 14 in vivo studies that investigated the reproductive tissues of male animals in various stages of development. Exposure to risdiplam or RG7800 induced changes within the germ cells in the testes of male cynomolgus monkeys and rats. Germ-cell changes included both cell-cycle gene changes (alteration of mRNA-splicing variants) and seminiferous tubule degeneration. In monkeys treated with RG7800, there was no evidence of damage to spermatogonia. Observed testicular changes were stage-specific with spermatocytes in the pachytene stage of meiosis and were fully reversible in monkeys following a sufficient recovery period of eight weeks following cessation of RG7800. In rats, seminiferous tubule degeneration was present, and full reversibility of germ-cell degeneration in the testes was observed among half of the rats that were exposed to risdiplam or RG7800 and then allowed to recover. With these results, coupled with histopathological findings, the effects on the male reproductive system are expected to be reversible in humans for these types of SMN2 mRNA-splicing modifiers.
Keywords: Male germ-cell degeneration; Spermatogenesis; Spinal muscular atrophy; Testicular toxicity; mRNA splicing-modifying agents.
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