Research We Fund

Acute myeloid leukemia (AML) is a blood cancer characterized by poor clinical outcomes. We developed an antibody that inhibits AML in models by triggering anti-leukemia immunity. Now we developed a new version of this antibody with higher affinity to the leukocyte receptors that mediate anti-leukemia immunity. We will establish the ability of this optimized antibody to elicit greater inhibition of AML. The studies will generate important information about how to induce anti-leukemia immunity.

<p>Though effective treatments in hairy cell leukemia and variant (HCLv) exist, they are associated with profound immunosuppression; thus, more targeted, non-toxic therapies are warranted. In order to specifically target leukemic cells while sparing most normal B cells, we will develop a novel chimeric antigen receptor T cell immunotherapy against the IGHV-4-34 B-cell receptor that is found in a significant subset of HCL and associates with poor prognosis.</p>

Myelodysplasia (MDS) is a lethal stem cell disorder characterized by defective blood formation and progression to leukemia. MDS is frequently caused by mutations in splicing factors, but these mutations also create an Achille’s heel that can be targeted to kill MDS cells while sparing normal blood cells. We identified a group of clinically safe drugs that target this weakness and selectively kill MDS cells in vitro. We will test whether these drugs are effective in mouse models of MDS.

Clonally expanded T cells carrying somatic mutations circulate in the premalignant phase of Adult T cell leukemia/lymphoma (ATL). We will develop capture-sequencing of recurrent ATL-driver mutations for use as a diagnostic tool for the detection/characterization of ATL-like clones in individuals with high risk of ATL, and, in an aligned clinical study, we will test whether a novel monoclonal antibody (targeting C-C chemokine receptor 4) can eradicate these high-risk cells.