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Safety and efficacy of a novel anti-CD19 chimeric antigen receptor T cell product targeting a membrane-proximal domain of CD19 with fast on- and off-rates against non-Hodgkin lymphoma: a first-in-human studyopen access

Authors
Zhang, Y.Patel, R.P.Kim, K.H.Cho, H.Jo, J.-C.Jeong, S.H.Oh, S.Y.Choi, Y.S.Kim, S.H.Lee, J.H.Angelos, M.Guruprasad, P.Cohen, I.Ugwuanyi, O.Lee, Y.G.Pajarillo, R.Cho, J.H.Carturan, A.Paruzzo, L.Ghilardi, G.Wang, M.Kim, S.Kim, S.-M.Lee, H.-J.Park, J.-H.Cui, L.Lee, T.B.Hwang, I.-S.Lee, Y.-H.Lee, Y.-J.Porazzi, P.Liu, D.Lee, Y.Kim, J.-H.Lee, J.-S.Yoon, D.H.Chung, J.Ruella, M.
Issue Date
Dec-2023
Publisher
BioMed Central
Keywords
CAR T cells; CD19; CD19 mutations; Epitope masking; Fast on- and off-rate; Leukemia; Low avidity; Lymphoma; Membrane-proximal epitope; Resistance
Citation
Molecular Cancer, v.22, no.1, pp 1 - 23
Pages
23
Indexed
SCIE
SCOPUS
Journal Title
Molecular Cancer
Volume
22
Number
1
Start Page
1
End Page
23
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196010
DOI
10.1186/s12943-023-01886-9
ISSN
1476-4598
1476-4598
Abstract
Background: Commercial anti-CD19 chimeric antigen receptor T-cell therapies (CART19) are efficacious against advanced B-cell non-Hodgkin lymphoma (NHL); however, most patients ultimately relapse. Several mechanisms contribute to this failure, including CD19-negative escape and CAR T dysfunction. All four commercial CART19 products utilize the FMC63 single-chain variable fragment (scFv) specific to a CD19 membrane-distal epitope and characterized by slow association (on) and dissociation (off) rates. We hypothesized that a novel anti-CD19 scFv that engages an alternative CD19 membrane-proximal epitope independent of FMC63 and that is characterized by faster on- and off-rates could mitigate CART19 failure and improve clinical efficacy. Methods: We developed an autologous CART19 product with 4-1BB co-stimulation using a novel humanized chicken antibody (h1218). This antibody is specific to a membrane-proximal CD19 epitope and harbors faster on/off rates compared to FMC63. We tested h1218-CART19 in vitro and in vivo using FMC63-CART19-resistant models. We conducted a first-in-human multi-center phase I clinical trial to test AT101 (clinical-grade h1218-CART19) in patients with relapsed or refractory (r/r) NHL. Results: Preclinically, h1218- but not FMC63-CART19 were able to effectively eradicate lymphomas expressing CD19 point mutations (L174V and R163L) or co-expressing FMC63-CAR19 as found in patients relapsing after FMC63-CART19. Furthermore, h1218-CART19 exhibited enhanced killing of B-cell malignancies in vitro and in vivo compared with FMC63-CART19. Mechanistically, we found that h1218-CART19 had reduced activation-induced cell death (AICD) and enhanced expansion compared to FMC63-CART19 owing to faster on- and off-rates. Based on these preclinical results, we performed a phase I dose-escalation trial, testing three dose levels (DL) of AT101 (the GMP version of h1218) using a 3 + 3 design. In 12 treated patients (7 DLBCL, 3 FL, 1 MCL, and 1 MZL), AT101 showed a promising safety profile with 8.3% grade 3 CRS (n = 1) and 8.3% grade 4 ICANS (n = 1). In the whole cohort, the overall response rate was 91.7%, with a complete response rate of 75.0%, which improved to 100% in DL-2 and -3. AT101 expansion correlates with CR and B-cell aplasia. Conclusions: We developed a novel, safe, and potent CART19 product that recognizes a membrane-proximal domain of CD19 with fast on- and off-rates and showed significant efficacy and promising safety in patients with relapsed B-cell NHL. Trial registration: NCT05338931; Date: 2022–04-01.
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서울 의과대학 (DEPARTMENT OF INTERNAL MEDICINE)
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