Novel CAR-T induces response prior to HSCT in younger patients with advanced AML

Perspective from Rayne H. Rouce, MD

A novel chimeric antigen receptor T-cell therapy showed clinically relevant antitumor activity in nine of 11 younger patients with relapsed or refractory acute myeloid leukemia, according to early data from a phase 1/phase 2 study.

Results of the trial — presented during the virtual ASCO Annual Meeting — may indicate a role for the CAR T-cell therapy as an effective bridging strategy before hematopoietic stem cell transplant, according to the researchers.

$A novel chimeric antigen receptor T-cell therapy showed clinically relevant antitumor activity in nine of 11 younger patients with relapsed or refractory acute myeloid leukemia.$ Data were derived from Zhang H, et al. Abstract 10000. Presented at: ASCO Annual Meeting (virtual meeting); June 4-8, 2021.

“Outcomes of children with acute myeloid leukemia lag behind those of children with acute lymphoblastic leukemia, with 5-year DFS varying between 33.3% and 79.5% worldwide, as reported by the CONCORD-3 study,” Hui Zhang, MD, PhD, chief physician at Guangzhou Women and Children's Hospital in China, told Healio. “For those patients with refractory and/or relapsed disease, the prognosis is dismal.”

Zhang and colleagues used two investigational, gene-edited, autologous CAR-T constructs in their study. Both constructs targeted the protein C-type lectin-like molecule-1 (CLL1) on the surface of cancer cells.

Hui Zhang

“CLL1 is highly expressed on AML leukemia stem cells, the majority of AML blasts and normal myeloid cells, but not on normal hematopoietic stem cells or lymphoid cells, suggesting that CLL1 is a promising target for novel AML therapy that will not affect normal hematopoiesis and lymphocyte-directed immune function,” Zhang said, adding that several preclinical studies have demonstrated the antitumor efficacy of targeting CLL1 in humanized models.

For the current study, Zhang and colleagues enrolled 11 patients (age range, 2-16 years; n = 9 male) with relapsed or refractory AML. Eight patients received CLL1-targeted CAR T cells, whereas three patients received a bispecific CAR that also targeted the CD33 protein.

Patients received the dual-targeted CLL1/CD33 CAR T cells if they had lower expression of CLL1, Zhang told Healio. In each case, he added, the scientific team discussed the proper construct to use before proceeding to CAR T-cell therapy for AML.

Patients received a lymphodepletion chemotherapy regimen of cyclophosphamide and fludarabine, followed by a single IV infusion of 0.3 × 106/kg to 1 × 106/kg CAR T cells.

Evaluating safety in terms of treatment-related adverse events served as the study’s primary aim. Secondary objectives included measurements of treatment efficacy.

Results showed all 11 patients had mild (grade 1 or grade 2) CRS; however, no patient experienced grade 3 or higher CRS. Additionally, researchers reported no incidence of immune effector cell-associated neurotoxicity syndrome and no dose-limiting toxicities so far in the study.

All patients experienced treatment-related myelosuppression attributed to previous chemotherapy, Zhang said.

The three patients who received CLL1/CD33-directed CAR T cells had either grade 1 or grade 2 hepatoxicity that was not experienced by any patient who received CLL1-directed CAR T cells.

Ten of 11 patients responded to therapy, with eight achieving a complete response within 30 days of infusion. Six patients had minimal residual disease (MRD)-negative complete responses, whereas two had MRD-positive complete responses.

Two patients who received the CLL1/CD33-directed CAR had MRD-negative complete responses within 30 days of infusion, whereas the other patient who received the bispecific CAR-T did not respond to therapy.

All patients who had no response, partial response or an MRD-positive response to CAR T-cell therapy went on to achieve MRD-negative remission after HSCT. All but two patients — one who died of graft-versus-host disease after transplant and another with stable disease who died of a lung infection 2 months after CAR-T — maintained an ongoing response to therapy as of the data cutoff date.

“Aside from current novel targeting agents (ie, BCL-2, IDH2, FLT3 and c-Kit inhibitors, anti-CD33 antibodies), CAR-T is also a good option for [treatment of] relapsed or refractory AML,” Zhang told Healio.

How effective an option is more uncertain at this point due to the small number of patients treated so far in the study, he added.

“Meanwhile, we believe that CAR-T is currently a good [bone marrow transplant]-bridging method [that] improve[s] the efficacy of [bone marrow transplant],” Zhang said. “To make our study more convincing, we plan to carry out a multicenter trial and enroll more patients.”

CAR-T safe, effective for patients with advanced ALL after allogeneic HSCT
The Leukemia & Lymphoma Society awards $13.8 million for research into pediatric blood cancers

References:

Allemani C, et al. Lancet. 2018;doi: 10.1016/S0140-6736(17)33326-3.
Zhang H, et al. Abstract 10000. Presented at: ASCO Annual Meeting (virtual meeting); June 4-8, 2021.

PERSPECTIVE

Rayne H. Rouce, MD

Zhang and colleagues have demonstrated efficacy using both CLL1 and CLL1/CD33 CAR T cells. The investigators chose CLL1 as a target because it is a stem cell-associated antigen; therefore, it is present on AML cells and AML leukemic stem cells. In addition, there is little to no expression of CLL1 on normal hematopoietic stem cell progenitors.

Although the rationale was unclear for choosing who would receive dual- vs. single-targeted CAR T cells, the results are quite promising. First, the manufacturing time was relatively short at approximately 3 weeks, including quality assurance. There also was no incidence of manufacturing failure.

There was a wide range of transduction efficiency in this study. Nevertheless, differences in transduction efficiency did not appear to be related to efficacy.

The safety profile was largely consistent with what we have become accustomed to when using CAR T cells for B-cell malignancies. There was no evidence of long-term hematopoietic aplasia; however, all patients experienced severe myelosuppression, although the duration was unclear.

All three patients treated with the bispecific CLL1/CD33 CAR-T experienced some form of hepatotoxicity, but we have become accustomed to this when using CD33-directed monoclonal antibodies.

There was striking and remarkable efficacy in this population of patients with heavily refractory and pretreated disease. Efficacy in this study appeared to be independent of CLL1 expression, AML subtype or cytogenetics, disease burden, or CAR T-cell dose. This therapy also appeared to be an important bridge to allogeneic HSCT, with five of eight patients treated with the CLL1 CAR-T proceeding to transplant, four of whom remained in remission at the time these data were presented. All patients treated with the bispecific CAR-T who went on to HSCT remained in MRD-negative remission, as well.

These results are largely consistent with and expand upon previous reports of effective MRD-negative remissions with both CLL1 and CLL-1/CD33 CAR T cells. It's exciting to see these results reflected in pediatric patients. What remains to be determined is whether these treatments can lead to long-term remissions.

Rayne H. Rouce, MD

Texas Children’s Cancer Center
Baylor College of Medicine

Disclosures: Rouce reports honoraria from Kite Pharma/Gilead Sciences and Novartis and research funding to her institution from Tessa Therapeutics.