Research We Fund

New treatments for AML and MDS are urgently needed. We have developed and performed preliminary testing of a novel, patent-protected, trispecific NK cell engager named KT1 which targets AML blasts and leukemia stem cells (LSCs) expressing CD33 and CD123 for elimination by effector cells that express CD16a/b. We plan to test the ability of KT1 to release cytokines and facilitate killing of CD33- and/or CD123-expressing targets by different types of CD16a/b-positive effector cell populations including resting natural killer (NK) cells, cytokine-induced memory-like (ML) NK cells, gamma/delta T cells, and macrophages both in vitro and in leukemic mice. We anticipate that a future treatment of AML and/or MDS with KT1 combined with a donor leukocyte transfer of allogeneic NK, ML NK, or gamma/delta T cells will have excellent therapeutic efficacy and a far better safety profile than many currently studied immunotherapies being tested in patients with AML or MDS.

Altered B cell homeostasis plays a key role in the development of chronic graft-vs-host-disease (cGVHD) after hematopoietic stem cell transplantation (HCT). We hypothesize that the DNA sensor AIM2 plays a critical role in the fate of BCR-activated B cells after HCT. We will utilize novel mouse models to investigate AIM2-BCR modulation with clear translational implications in autoreactivity perpetuating cGVHD as well as functional humoral deficiency and vaccine hyporesponsiveness after HCT.

While many patients with diffuse large B cell lymphoma (DLBCL) are cured with initial treatment, some patients relapse even after multiple therapies, and their outcomes are poor; we believe that the quality of the patient’s T cell memory plays a critical role in determining how they respond to treatment. To investigate, we will analyze the response pattern of circulating immune cells in cured and relapsed DLBCL patients, as well as the immune signals generated by the tumors, and create CAR T cells from the T cells with anti-tumor properties found in cured patients. We will evaluate the ability of these CAR T cells to fight lymphoma; if successful, our research can rapidly be translated into new immune therapies for patients with high risk or relapsed DLBCL.

Nodular lymphocyte-predominant Hodgkin lymphoma is recognized as a disease entity in a spectrum of related diseases, including T-cell rich B-cell lymphoma. Although treatments are generally effective, a subset of patients suffers from lymphoma progression and aggressive disease transformations. Here, we propose to analyze clonal evolution of tumor cells and describe the spatial architecture of tissues with the goal to improve molecular classification and develop novel therapeutic approaches.