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Cryopreservation is a routine step in the manufacturing process of adoptive cell therapies, providing critical logistic flexibility. RNAi-based therapies are increasingly being explored as enhancers or modulators of adoptive cell therapies. However, the impact of cryopreservation on cells treated with RNAi-based therapies has not been investigated before. In this study, we addressed this knowledge gap by examining silencing efficacy in siRNA-treated cells that undergo cryopreservation. Our findings demonstrate that silencing in cryopreserved cells is comparable to that in cells maintained continuously in culture. Moreover, we found that the duration of siRNA exposure plays a significant role in cells that later undergo cryopreservation, with extended exposure improving silencing efficiency. However, this effect diminishes at higher siRNA concentrations. Additionally, we showed that siRNA treatment is feasible at low temperatures (2-8C), and siRNA-treated cells can be cryopreserved for extended periods (at least one month) without loss of efficacy. Furthermore, we demonstrated the feasibility of cryopreserving siRNA-treated primary cells, including those resembling leukapheresis material. Our work establishes the feasibility of integrating siRNA treatments into current manufacturing processes for adoptive cell therapies.

Cryopreservation of siRNA-treated cells is feasible

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