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. 2025 Aug 14;146(7):819-833.
doi: 10.1182/blood.2024025536.

Targeting high-risk multiple myeloma genotypes with optimized anti-CD70 CAR T cells

Corynn Kasap  1   2 Adila Izgutdina  2 Bonell Patiño-Escobar  2 Amrik S Kang  2   3   4   5 Nikhil Chilakapati  2 Naomi Akagi  2 Ananya Manoj  2 Haley Johnson  2 Tasfia Rashid  2 Juwita Werner  6 Abhilash Barpanda  2 Huimin Geng  2 Yu-Hsiu T Lin  2 Sham Rampersaud  2 Daniel Gil-Alós  2   7 Amin Sobh  8 Daphné Dupéré-Richer  8 Adolfo Aleman  9 Gianina Wicaksono  2 K M Kawehi Kelii  2 Radhika Dalal  10 Emilio Ramos  2 Anjanaa Vijayanarayanan  2 Kiran Lakhani  11 Fernando Salangsang  12 Paul Phojanakong  12 Juan Antonio Camara Serrano  12 Ons Zakraoui  12 Isa Tariq  12 Ajai Chari  1 Alfred Chung  1 Anupama D Kumar  1 Thomas G Martin 3rd  1 Jeffrey Wolf  1 Sandy W Wong  1 Veronica Steri  12 Mala Shanmugam  11 Lawrence H Boise  11 Tanja Kortemme  10   13 Samir Parekh  9   14   15   16 Elliot Stieglitz  6 Jonathan D Licht  8 William J Karlon  2 Benjamin G Barwick  11 Arun P Wiita  2   10   12   13
Affiliations

Targeting high-risk multiple myeloma genotypes with optimized anti-CD70 CAR T cells

Corynn Kasap et al. Blood. .

Abstract

Despite the success of B-cell maturation antigen (BCMA)-targeting chimeric antigen receptor (CAR) T cells (CAR-Ts) in multiple myeloma, patients with high-risk cytogenetic features continue to relapse most quickly and are in urgent need of additional therapeutic options. Here, we identify CD70, widely recognized as a favorable immunotherapy target in other cancers, as a specifically upregulated cell surface antigen in high-risk myeloma tumors. We use a structure-guided design to define a CD27-based anti-CD70 CAR-T design that outperforms all tested single-chain variable fragment-based CARs, leading to >80-fold improved CAR-T expansion in vivo. Epigenetic analysis via machine learning predicts key transcription factors and transcriptional networks driving CD70 upregulation in high-risk myeloma. Dual-targeting CAR-Ts against either CD70 or BCMA demonstrate a potential strategy to avoid antigen escape-mediated resistance. Together, these findings support the promise of targeting CD70 with optimized CAR-Ts in myeloma as well as future clinical translation of this approach.

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Conflict of interest statement

Conflict-of-interest disclosure: A.P.W., C.K., A.S.K., R.D., and T.K. have filed a patent application related to CD27-based chimeric antigen receptor design described in this study. A.P.W. received honoraria from Sanofi and AstraZeneca and is an equity holder in Indapta Therapeutics. L.H.B. reports consultancy with AbbVie and AstraZeneca and received honoraria from AstraZeneca. J.D.L. reports consultancy with AstraZeneca and research funding from Epizyme. A. Chari reports consultancy with AbbVie, Adaptive, Amgen, Antengene, Bristol Myers Squibb (BMS), Forus, Genentech/Roche, GlaxoSmithKline (GSK), Janssen, Karyopharm, Millennium/Takeda, and Sanofi/Genzyme and research funding from Janssen. T.G.M. reports participation in advisory boards/panels for GSK and Pfizer; consultancy with GSK, Pfizer, and AstraZeneca; participation in data safety monitoring board for Eli Lilly and Company; and grants and research support from Sanofi, Janssen, and BMS. S.W.W. is an employee and shareholder at BMS. A. Chung reports research funding from AbbVie Inc, BMS, Caelum Biosciences, CARsgen Therapeutics, Cellectis, Johnson & Johnson, K36, and Merck; and participation in advisory boards for Johnson & Johnson and BMS. The remaining authors declare no competing financial interests.

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References

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