Research We Fund

Acute myeloid leukemia (AML) is the most fatal type of leukemia and has a high rate of relapse following current therapies. We have recently uncovered that RSPO3-LGR4 pathway is a key regulator of leukemia-initiating cell activity and is exclusively activated in relapsed and refractory AML. Our project aims to investigate the mechanistic link between the pathway activation and therapy resistance, and design combination therapies that would overcome resistance and improve the treatment of relapsed leukemia.

Cellular immunotherapies such CAR-T cells are now firmly established as major pillars of anti-cancer therapy particularly in B-cell malignancies. However, despite their remarkable success in mediating an objective clinical response in up to 90% of patients, long-term durable remissions remain confined to only a minority of patients. It is now increasingly apparent that genetic evolution through the acquisition of new mutations cannot solely explain the molecular basis for therapeutic resistance. Therefore, to meet our ambition of precision medicine we need a better understanding of both the genetic and non-genetic mechanisms of malignant clonal dominance and therapeutic adaptation. To address this important challenge, we have developed new ex vivo and in vivo (mouse models) of resistance to CAR-T therapy. These will be coupled to a synthetic clone tracing strategy termed SPLINTR (Single-cell Profiling and LINeage Tracing) using expressed barcodes. In this proposal we will use SPLINTR in our models to uncover the clone intrinsic properties of cancer cells that enable them to evade these pioneering cellular immunotherapies. This research will deliver a blueprint around which future clinical trial strategies could be enabled to improve outcomes with these ground-breaking therapies.

RAS/MAPK mutations are the key drivers in MM, which occurs in 50% of newly diagnosed and higher in relapsed MM patients. However, RAS remains undruggable in MM. We found that RAS mutation MM growth is highly dependent on germinal center kinase(GCK). The goal of this project is to develop small molecule inhibitors against GCK with the expected outcome to provide novel treatments for relapsed/refractory and especially multi-drug resistant MM with RAS mutation, as well as other B-cell malignancies.

Patients with CLL that have progressed on BTK inhibitors have high risk disease with few clinical options. Here we propose a novel, selective inhibitor of PKCβ, MS-553, as a strategy for these patients. Our project will evaluate this drug alone and in combination with venetoclax preclinically and will perform correlative studies from an ongoing phase 1/2 trial of this drug alone and in combination with venetoclax.