Litcius/Paper detail

In Vivo pan CAR therapy utilizing circular RNA for treatment of multiple myeloma

Rebecca Silver, Jeffrey W. Schindler, Oba Oseghali, Nandesh Mohan P, Chenxin Sun, Kiran Madugula, Jui Dutta-Simmons, Dong Wei, Karolina Kosakowska, Rajat Das, Muthusamy Jayaraman, Maja Sedic, Megan D. Hoban, Frank Neumann, Joe Bolen, Isin Dalkilic-Liddle

2025Blood5 citationsDOIOpen Access PDF

Abstract

Abstract Recently, traditional ex vivo-generated chimeric antigen receptor T (CAR-T) cell therapies have shown success in the clinic for oncology indications, specifically multiple myeloma. However, manufacturing, safety, and accessibility remain potential challenges in the ex vivo CAR-T approach to treat oncology patients. The prospect of an in vivo CAR-T cell therapy without the need for patient cell isolation and culture or the safety risks associated with preconditioning regimens remains a therapeutic goal. Orna Therapeutics' panCAR™ combines a synthetic, circular, coding RNA platform (oRNA®) and a proprietary immunotropic lipid nanoparticle (LNP) to drive CAR expression on the surface of immune effector cells after in vivo administration, with the potential to provide a transient, re-dosable, and scalable immune cell therapy without the need for preconditioning lymphodepletion. Utilizing a human and cynomolgus cross-reactive anti- B-cell maturation antigen (BCMA) panCAR in an immunotropic LNP, high surface expression of anti-BCMA panCAR was observed in a dose-dependent manner on human and cynomolgus immune cells and was maintained over at least 72hours in vitro. Additionally, expression of anti-BCMA panCAR was highly effective at killing BCMA-expressing target cells in in vitro killing assays. In an in vivo humanized mouse model engrafted with BCMA-expressing tumor cells, three weekly doses of 0.1 mg/kg anti-BCMA panCAR eliminated tumor for at least 30 days. Notably, in this setting, the anti-BCMA panCAR functionally outperformed both a panCAR containing a and a linear mRNA-LNP. In non-human primates (NHP), targeted ablation of over 95% of cynomolgus plasma cells was observed as early as 24 hours after a single dose of anti-BCMA panCAR. Depletion further increased to 98% at 48 hours and was sustained out to at least 72 hours. This targeted and durable depletion of plasma cells was consistent with a 100-fold decrease of plasma cell specific J-chain transcripts compared to a control arm at 48 and 72 hours. Critically, a significant impact on the overall B cell repertoire was not observed, highlighting the selectivity of anti-BCMA panCAR. Orna Therapeutics' platform provides a non-viral, transient, tunable, and scalable approach without the need for preconditioning lymphodepletion that shows robust activity in vitro and in vivo. Collectively, this pre-clinical data demonstrates the potential of Orna's in vivo oRNA panCAR therapy to treat a variety of plasma cell or BCMA related diseases including multiple myeloma.

Topics & Concepts

In vivoEx vivoChimeric antigen receptorCancer researchImmune systemMultiple myelomaMedicineCell therapyImmunologyGenetic enhancementIn vitroImmunotherapyRNA interferenceAntigenCellT cellHumanized mouseB cellBiologyCell cultureReceptor expressionEffectorCAR-T cell therapy researchMultiple Myeloma Research and TreatmentsProtein Degradation and Inhibitors
In Vivo pan CAR therapy utilizing circular RNA for treatment of multiple myeloma | Litcius