BACKGROUND: Type 1 diabetes mellitus (T1DM) is a chronic autoimmune disease marked by the destruction of pancreatic β-cells, resulting in lifelong dependence on exogenous insulin. Despite advances in insulin delivery and glucose monitoring technologies, patients remain at risk for acute and long-term complications, underscoring the need for curative strategies. Gene therapy and gene-editing technologies are emerging as transformative approaches capable of restoring β-cell function, modulating immune responses and potentially achieving durable remission.
METHOD: This review synthesizes basic science foundations and clinical trial evidence, focusing on five key protocols (NCT03162237, NCT05210530, NCT05241444, NCT05565248 and NCT06938334).
RESULTS: Strategies include immune modulation (PD-L1, FOXP3), β-cell replacement (CRISPR-edited progenitors, xenotransplantation) and combination approaches. Early-phase clinical trials have demonstrated feasibility and safety; however, long-term efficacy, durability and scalability remain uncertain. Critical challenges include potential off-target effects in CRISPR editing, risks of insertional mutagenesis, safety concerns in xenotransplantation and achieving a balance between immune tolerance and protective immunity. Future directions emphasize combination therapies, personalized medicine and next-generation editing tools such as base and prime editing.
CONCLUSION: Together, these efforts represent a paradigm shift from symptomatic insulin replacement toward curative interventions, while highlighting the considerable translational hurdles that must be overcome before routine clinical application.