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Cas9-directed immune tolerance in humans—a model to evaluate regulatory T cells in gene therapy?

Dimitrios L. Wagner, Lena Peter, Michael Schmueck‐Henneresse

2021Gene Therapy60 citationsDOIOpen Access PDF

Abstract

The dichotomic nature of the adaptive immune response governs the outcome of clinical gene therapy. On the one hand, neutralizing antibodies and cytotoxic T cells can have a dramatic impact on the efficacy and safety of human gene therapies. On the other hand, regulatory T cells (Treg) can promote tolerance toward transgenes thereby enabling long-term benefits of in vivo gene therapy after a single administration. Pre-existing antibodies and T cell immunity has been a major obstacle for in vivo gene therapies with viral vectors. As CRISPR-Cas9 gene editing advances toward the clinics, the technology's inherent immunogenicity must be addressed in order to guide clinical treatment decisions. This review summarizes the recent evidence on Cas9-specific immunity in humans-including early results from clinical trials-and discusses the risks for in vivo gene therapies. Finally, we focus on solutions and highlight the potential role of Cas9-specific Treg cells to promote immune tolerance. As a "beneficial alliance" beyond Cas9-immunity, antigen-specific Treg cells may serve as a living and targeted immunosuppressant to increase safety and efficacy of gene therapy.

Topics & Concepts

Genetic enhancementBiologyImmunogenicityImmune systemCRISPRImmunologyGenome editingImmunityCell therapyTransgeneViral vectorAcquired immune systemCas9Immune toleranceGeneStem cellGeneticsRecombinant DNACRISPR and Genetic EngineeringCAR-T cell therapy researchVirus-based gene therapy research
Cas9-directed immune tolerance in humans—a model to evaluate regulatory T cells in gene therapy? | Litcius