Potent and Selective Repression of SCN9A by Engineered Zinc Finger Repressors for the Treatment of Neuropathic Pain

Peripheral neuropathies are estimated to affect several million patients in the US with no long-lasting therapy currently available. In humans, the Nav1.7 sodium channel, encoded by the SCN9A gene, is involved in a spectrum of inherited neuropathies, and has emerged as a promising target for analgesic drug development. The development of a selective Nav1.7 inhibitor has been challenging, in part due to structural similarities among other Nav channels. Here we present preclinical studies for the first genomic medicine approach using engineered zinc finger repressors (ZFRs) specifically targeting human/nonhuman primate (NHP) SCN9A . AAV-mediated delivery of ZFRs in human iPSC-derived neurons resulted in 90% reduction of SCN9A with no detectable off-target activity. To establish proof-of-concept, a ZFR targeting the mouse Scn9a was assessed in the SNI neuropathic pain mouse model, which resulted in up to 70% repression of Scn9a in mouse DRGs and was associated with reduction in pain hypersensitivity as measured by increased mechanical- and cold-induced pain thresholds. AAV-mediated intrathecal delivery of ZFR in NHPs demonstrated up to 60% repression of SCN9A in bulk DRG tissue and on single-cell levels in the nociceptors. The treatment was well tolerated in NHPs, and no dose-limiting findings were observed four weeks after a single intrathecal injection. Taken together, our results demonstrate that AAV-delivered ZFR targeting the SCN9A gene is promising and supports further development as a potential therapy for peripheral neuropathies. ### Competing Interest Statement M. Samie and J. Eshleman are inventors on a pending United States patent application related to this work. M. Samie, T. Parman, M. Jalan, J. Lee, P. Dunn, J. Eshleman, Y. Pan, M. Falaleeva, S. Hinkley, T. Chen, S. Bhardwaj, A. Ward, M. Trias, A. Chikere, M. Som, S. Yadav, K. Meyer, B. Zeitler, and A. Pooler are current employees of Sangamo Therapeutics, Inc. D. Baldwin Vidales, J. Holter, B. Jones, and J. Fontenot were employed by Sangamo Therapeutics, Inc. when this work was conducted.