GCS-100 Induces Apoptosis of Acute Myeloid Leukemia Cells By Disrupting Galectin-Mediated Survival Signaling

Galectins are a family of b-galactoside binding proteins with effects on cell adhesion, apoptosis, cell cycle, and mRNA processing. Galectin-3 (LGALS3) is unique among galectins by having an N terminal region of roughly 130 amino acids that allows for multimerization and binding to other proteins independent of carbohydrate binding. In addition to promoting BCL2 gene expression and mitochondrial integrity, LGALS3 (along with LGALS1) positively regulates RAS signaling and thus stabilizes survival proteins dependent on ERK phosphorylation such as MCL-1. The pro-survival functions of LGALS3 and other galectins suggest that their targeting could be therapeutic for cancers including AML. Indeed, LGALS3 expression is a predictor of poor prognosis in acute myeloid leukemia (AML), as reported by Cheng and colleagues (Blood 2013) for patients with non-M3 AML and CN-AML. The modified pectin GCS-100 (La Jolla Pharmaceutical, San Diego, CA), now in a Phase II clinical trial for chronic kidney disease, binds and blocks the function of LGALS3. We report that GCS-100 suppresses the growth of AML cell lines OCI-AML3, THP-1, and HL60 in vitro as a single agent, at doses under the 250 ug/mL (i.e., within clinically-achievable concentrations). Short-term treatment of cells (i.e., 90% in THP-1 cells and increased CD11b expression, suggesting increased differentiation, compared to cells with control shRNA. GCS-100 was tested in an in vitro model of the bone marrow microenvironment using BM-derived mesenchymal stromal cell (MSC). MSC can protect leukemia cells from a variety of clinically relevant chemotherapy drugs including AraC. GCS-100 was effective at killing AML cells despite the presence of MSC. Both THP-1 and OCI-AML3 cells exhibited > 80% and > 60% reduction of viable cells, respectively, despite the presence of MSC when treated with 250 ug/mL GCS-100 for 72 hours. In addition, GCS-100 was found to block adhesion of OCI-AML3 cells to MSC suggesting that GCS-100 could be effective in mobilizing AML cells. In summary, our findings suggest that GCS-100 can induce apoptosis in AML cells as a single agent or in combination with the BH3 mimetic ABT-737. The agent is effective even in the presence of MSC suggesting it could be efficacious in the leukemia niche. These findings suggest GCS-100 could be effective for AML therapy. Disclosures Rolke: La Jolla Pharmaceutical Company: Employment. Tidmarsh: La Jolla Pharmaceutical Company: Employment.