Five-Year Survival of Patients (pts) from Transcend NHL 001 (TRANSCEND) Supports Curative Potential of Lisocabtagene Maraleucel (liso-cel) in Relapsed or Refractory (R/R) Large B-Cell Lymphoma (LBCL)
Jeremy S. Abramson, Maria Lia Palomba, Leo I. Gordon, Matthew A. Lunning, Michael Wang, Jon Arnason, Manali Kamdar, David G. Maloney, Mazyar Shadman, Charalambos Andreadis, Alison R. Sehgal, Scott R. Solomon, Nilanjan Ghosh, Juliana E. Hidalgo‐Lόpez, Jing Wang, K. OGASAWARA, Ashvin Singh, Tanya Siddiqi
Abstract
Background: TRANSCEND (NCT02631044) demonstrated high ORR/CR rate with a manageable safety profile in R/R LBCL. At 2-y follow-up, liso-cel showed durable remissions (median duration of response [DOR], 23.1 mo) with no new safety signals (Abramson JS, et al. Blood 2024). In ZUMA-1, axicabtagene ciloleucel (axi-cel) showed a median OS of 25.8 mo with 5-y OS rate of 42.6% and 5-y disease-specific survival (DSS) rate of 51.0% (Neelapu SS, et al. Blood 2023). Here, we present 5-y survival results in the LBCL cohort of TRANSCEND, including data from the long-term follow-up (LTFU; NCT03435796) study. Methods: Adult pts with R/R LBCL after ≥ 2 prior lines of systemic therapy were eligible. Bridging therapy was allowed and PET-positive disease was reconfirmed before lymphodepletion. Response was evaluated per Lugano 2014 criteria by independent review committee (IRC). Primary endpoints included AE rates and ORR. Liso-cel transgene levels were assessed in peripheral blood by qPCR (lower limit of detection, 5 copies/reaction). Pts who completed the 2 y of study follow-up or who withdrew early could enroll in a separate LTFU study assessing safety and OS for up to 15 y after liso-cel; however, no IRC response assessments were performed in LTFU. Results: Demographics and baseline characteristics for pts in the liso-cel-treated set (n = 270) were reported (Abramson JS, et al. Blood 2024). At the final TRANSCEND data cutoff (05/16/2024), 124 (46%) pts had completed the study and 146 (54%) had discontinued; 88 liso-cel-treated pts enrolled to LTFU. Median on-study follow-up (including LTFU) was 20.3 mo (range, 0.2-89.4). Liso-cel showed high response rates and durable remissions in the efficacy-evaluable set (n = 257) as observed at the 2-y follow-up with ORR of 73% (CR rate, 53%), median DOR of 23.1 mo (95% CI, 8.6-not reached [NR]), and median duration of CR of 26.1 mo (95% CI, 23.1-NR). Median PFS was 6.8 mo (95% CI, 3.3-12.7). Median OS was 27.5 mo (95% CI, 16.2-47.3). Estimated 5-y OS rate was 38.1% (95% CI, 31.6%-44.7%). Six pts enrolled in the LTFU study were followed and alive at 7 y after infusion. Pts who achieved CR had prolonged OS (median [95% CI], NR [53.9-NR]) with 5-y OS rate of 55.9% (95% CI, 45.8%-64.9%). Estimated 5-y DSS rate (excluding deaths unrelated to disease progression) was 52.0% (95% CI, 45.1%-58.5%). Among the 345 leukapheresed pts, 175 (51%) died after CAR T cell infusion, with 136 (39%) deaths occurring > 90 d after infusion, most commonly due to PD (n = 102; 30%). Thirty pts died > 2 y after CAR T cell infusion, including 10 due to PD, 2 due to AEs (progressive multifocal leukoencephalopathy [PML] and COVID-19 pneumonia as noted below as grade 5 infections), 8 due to unknown reasons, and 10 due to other reasons, suggesting that most deaths occurred before 2 y and that pts who were alive at 2 y had increased chances of prolonged survival. Liso-cel was present in peripheral blood in 34% (13/38) of pts with samples available at 5 y after infusion. Among the 249 pts with data in the post-TE period (≥ 91 d after liso-cel infusion or initiation of another anticancer therapy or liso-cel retreatment), no new safety signals were observed; 45% of pts had any-grade AEs and 25% had grade ≥ 3 AEs. The most common grade ≥ 3 post-TE AEs were cytopenias (neutropenia, 7%; anemia, 6%; thrombocytopenia, 4%). Median (range) duration of grade 3-4 prolonged (ie, unresolved at D29 visit) neutropenia, anemia, and thrombocytopenia was 26.5 d (3-337), 22.0 d (4-73), and 30.5 d (2-329), respectively. In the post-TE period, 14 (6%) pts had grade ≥ 3 infections (grade 5, n = 3). Of the 3 pts with grade 5 infections, 2 had received subsequent anticancer therapy; 1 died of septic shock on D79 after infusion and 5 d after subsequent anticancer therapy, 1 died of PML on D775 after infusion, and 1 died of COVID-19 pneumonia on D1660 after infusion and after subsequent anticancer therapy on D135. Nineteen (8%) pts had second primary malignancies (most commonly nonmelanoma skin cancers [n = 7] and myelodysplastic syndrome [n = 9]). Conclusions: With longer follow-up, responses to liso-cel continue to be durable; the estimated OS rate at 5 y was 38.1% and estimated DSS rate at 5 y was 52.0%. Liso-cel showed similar median OS, 5-y OS rate, and 5-y DSS rate to those reported for ZUMA-1. Rates of grade ≥ 3 post-TE AEs were low, and no new safety signals were observed. These data support the curative potential of liso-cel in pts with R/R LBCL.