Abstract

Background: Since the FDA approved the first CD19 directed chimeric antigen receptor (CAR) T-cell therapy (Kymriah) for pediatric and young adult patients with relapsed or refractory (r/r) B-cell acute lymphoblastic leukemia (ALL), cytokine release syndrome (CRS) has still been a life-threatening toxicity that limits the full therapeutic potential in adults [1,2]. So far, Tecartus was the first and only approved CAR-T-cell therapy for adult (r/r) B-ALL, which was based on results from ZUMA-3 study. CRS occurred in 92% patients, and neurologic toxicities occurred in 87% patients in ZUMA-3 study[3], suggesting that therapeutic developments are needed to ensure more safe and potent options for adult B-ALL. Aims: Our preclinical data demonstrated that CAR-T cells with decreased HPK1 expression had significantly enhanced antitumor effects and did not induce higher grade CRS [4]. Thus, the first-in-human clinical study is ongoing, to test CD19 CAR-T cells with decreased HPK1 expression (XYF19 CAR-T cells) for adult (r/r) B-ALL (NCT04037566). Methods: Dose-escalation study was initiated to explore the safety and efficacy of XYF19 CAR-T cells in adult (r/r) B-ALL. 11 eligible adult (r/r) B-ALL patients with a median age of 37 years (range 19 - 61 years) were enrolled. The cell dosage of XYF19 was significantly lower than Tecartus and Kymriah, participants were infused with XYF19 CAR-T cells: 3 at low dose (2.0×105/kg), 5 at medium dose (5.0×105/kg), and 3 at high dose (1.0×106/kg). All patients received a conditioning regimen of IV fludarabine (30mg/m2/d) for 4 days and cyclophosphamide (500mg/m2/d) for 2 days. Results: 30 days after infusion with XYF19 CAR-T cells, 8 of the 11 (72.7%) patients had achieved complete remission (CR) or CR with incomplete count recovery (CRi). Considering the low dosage of XYF19 and that the CR/CRi rate is 71% with Tecartus [2] and 69% with Kymriah [3], the clinical response of XYF19 is similar or even the highest in these three studies. Strikingly, in this clinical trial, no patient developed neurotoxicity and none has yet experienced dose-limiting toxicity. No grade 3 or higher CRS occurred in XYF19 treated patients, while Grade 3 or higher CRS was observed in 26% of patients with Tecartus [2], and 72% of patients with Kymriah[3]. No neurologic events occurred in the current study, while the incidence of neurological events was 51% with Tecartus [2] and 43% with Kymriah[3]. Thus, XYF19 is a strong potential novel treatment for CD19 CAR-T cell therapy in adult B-ALL. Summary/Conclusion: Treatment with XYF19 CAR-T cells promises a novel treatment that can alleviate some of the stern challenges of CD19 CAR-T cell therapy for adult patients with r/r B-ALL. In the current study, this treatment showed robust activity against adult (r/r) B-ALL without >Grade 2 toxicity. This efficacy and safety will be demonstrated in further trials with larger sample sizes.

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