TREX1 mutations underlie a variety of human diseases, including retinal vasculopathy with cerebral leukoencephalopathy (RVCL or RVCL-S), a catastrophic adult-onset vasculopathy that is often confused with multiple sclerosis, systemic vasculitis, or systemic lupus erythematosus. Patients with RVCL develop brain, retinal, liver, and kidney disease around age 35-55, leading to premature death in 100% of patients expressing an autosomal dominant C-terminally truncated form of TREX1. We previously demonstrated that RVCL is characterized by high levels of DNA damage, premature cellular senescence, and risk of early-onset breast cancer before age 45. Here, we report human TREX1 mosaicism causing organ-limited RVCL in the retina, as well as a gene therapy to synthetically create TREX1 mosaicism as a potential treatment for RVCL. In our patient with organ-limited disease, the mosaic TREX1 mutant allele underwent germline transmission to 3 children, who developed severe multi-organ disease at ~ age 40, unlike their mosaic parent, who has organ-limited disease at age 74. Additionally, we describe our TREX1 prime editor gene therapy that corrects the most common RVCL-causing TREX1 variant in cell culture and in mice. Thus, TREX1 mosaicism causes organ-limited RVCL with a normal lifespan, suggesting that a gene therapy to create TREX1 mosaicism in adults may someday become useful as a treatment for patients with RVCL.
Keywords: CRV; Cerebroretinal vasculopathy; Dementia; Gene therapy; HERNS; Prime editor; RVCL; RVCL-S; Retinal vasculopathy with cerebral leukoencephalopathy and systemic manifestations; Small vessel disease; TREX1; Vasculopathy.
© 2024. The Author(s).