Preclinical Evaluation of a Modified Herpes Simplex Virus Type 1 Vector Encoding Human TGM1 for the Treatment of Autosomal Recessive Congenital Ichthyosis

Abstract

Autosomal recessive congenital ichthyosis (ARCI) is a diverse group of cornification diseases associated with severe clinical complications and decreased quality of life. Germline mutations in the TGM1 gene, which encodes the enzyme TGM1, are the predominant cause of ARCI. These TGM1 mutations trigger the abnormal epidermal differentiation and impaired cutaneous barrier function observed in patients with ARCI. Unfortunately, current ARCI therapies focus solely on symptomatic relief. Thus, there is a significant unmet need for therapeutic strategies aimed at correcting the TGM1 deficiency underlying ARCI. In this study, we investigated the ability of KB105, a gene therapy vector encoding full-length human TGM1, to deliver functional human TGM1 to keratinocytes. Invitro, KB105 efficiently infected TGM1-deficient human keratinocytes, produced TGM1 protein, and rescued transglutaminase enzyme function. Invivo studies demonstrated that both single and repeated topical KB105 administration induced TGM1 protein expression in the target epidermal layer without triggering fibrosis, necrosis, or acute inflammation. Toxicity and biodistribution assessments on repeat dosing indicated that KB105 was well-tolerated and restricted to the dose site. Overall, our results demonstrate that rescuing TGM1 deficiency in patients with ARCI through topical KB105 application represents a promising strategy for safely and noninvasively treating this debilitating disease.