Abstract
Patients with relapse and refractory (R/R) hematological malignancies typically have 5-year overall survival rates of less than 50% when receiving chimeric antigen receptor (CAR) T-cell therapy and less than 30% after receiving hematopoietic stem cell transplantation (HSCT). Human leukemia cells utilize a variety of biochemical mechanisms, which allow them to escape host immune surveillance. These molecular pathways cause impairment of the anti-cancer activities of immune cells, which could attack and kill leukemia cells. These dismal outcomes for patients with R/R disease highlight the need for novel treatment regimens when current therapeutic options are exhausted.
Galectins are s-type lectins that promote diverse biological processes including adhesion, signaling, and immunosuppression. In acute myeloid leukemia (AML), galectin-9 (GAL-9) maintains the leukemia initiating cell (LIC) population and plays an important role in treatment resistance. We recently tested LYT-200, a fully humanized IgG4 αGAL-9 monoclonal antibody, developed by PureTech Health, which has so far been well tolerated with no dose limiting toxicities in a Phase I clinical trial for solid tumors (NCT04666688). We tested LYT-200 in vitro and in vivo across multiple hematological malignancies. Flow cytometry was used to assess the surface expression of GAL-9 on human B-ALL, AML, T-cell acute lymphoblastic leukemia (T-ALL), and diffuse large B-cell lymphoma (DLBCL) cell lines relative to receptor T-cell immunoglobulin and mucin domain-containing protein-3 (TIM-3) and Programmed cell death protein-1 (PD-1) expression. Compared to healthy human peripheral blood mononuclear cells (PBMCs), where GAL-9 surface expression was low or absent depending on the immune cell, GAL-9 was highly expressed on the surface of all human blood cancer cell lines tested (>100-fold increase). Notably, GAL-9 expression was comparable to PD-1 surface expression and higher than that of TIM-3 on AML, B-ALL, T-ALL, and DLBCL cells. Treating all cell lines with LYT-200 relative to control immunoglobulin resulted in extensive cell death, which occurred after 48 and 72 hours of treatment. Furthermore, a side-by-side comparison with αTIM-3 antibody treatment at equivalent concentrations, revealed that LYT-200 treatment was significantly more effective at killing blood cancer cells at low doses of 10-100 ng/mL in vitro.
The in vitro efficacy of LYT-200 against multiple blood cancer subtypes extended to in vivo protection and survival benefit in murine models of T-ALL and AML, both in immunocompromised and immunocompetent mice. When immunocompromised mice were transplanted with human T-ALL cell lines or patient-derived samples, single-agent treatment with LYT-200 (1.5 mg/kg/weekly) was comparable to survival results obtained with methotrexate (0.75 mg/kg/weekly) administration. Notably, the combination of LYT-200 and methotrexate treatments led to the best survival outcomes in both contexts. Similar results were obtained in xenograft studies of AML, where single-agent LYT-200 (1.5 mg/kg/weekly) treatment was more effective at protecting mice than cytarabine (100 mg/kg/weekly). However, combining both treatments resulted in the best survival outcomes with greater than 80% of mice surviving over 2 months after disease appearance.
In all, our results demonstrate that GAL-9 is an important driver of multiple blood cancer subtypes and that targeting GAL-9 with LYT-200 represents a potential novel treatment strategy which warrants additional pre-clinical and clinical testing.
Disclosures
Henry:PureTech Health: Research Funding. Lee:PureTech Health: Research Funding. Filipovic:PureTech Health: Current Employment.
Author notes
Asterisk with author names denotes non-ASH members.