Research we fund

Weill Cornell Medicine

We aim to clarify the role of EZH2 mutations in the development of double hit lymphoma (DHL) and acquisition of chemo-resistance. We confirmed that Ezh2 mutation is essential to develop aggressive murine GCB lymphoma and deplete T cells from tumor in combination with BCL2 and MYC. The mice showed resistance to chemotherapy and the combination with EZH2 inhibitors improve the outcome in vivo. Our goal is to show the synergy and propose a new mechanism-based therapeutic approach for DHL.

Stanford University

The development of acute myeloid leukemia (AML) is preceded by a “preleukemic” phase in which mutated hematopoietic stem cells expand due to a fitness advantage. Our work uses prospective models and analysis of patient samples to study how the duration of preleukemia and how the preleukemic clonal burden affect progression to AML. Results of our studies will shed new light on AML pathogenesis and help guide clinical management of preleukemic conditions such as clonal hematopoiesis.

Program Name(s)

Career Development Program

MD Anderson Cancer Center

Most patients respond well to drugs that inhibit an important MCL target named BTK. However, almost all of them will eventually relapse and then do very poorly. Inhibition of MALT1, a target which is biochemically downstream of BTK, may rescue many of these patients, and inhibiting both BTK and MALT1 may be better still. Developing a drug that inhibits both targets at the same time, from the beginning of treatment, will avoid some complications and likely be best of all; we will find out.

Program Name(s)

Mantle Cell Lymphoma Research Initiative

Albert Einstein College of Medicine

Our research program’s goal is to identify therapeutically actionable pathways in pre-leukemic and leukemic stem cells in myeloid malignancies. We specifically dissect molecular circuits governing stem cell self-renewal and differentiation, how these change during aging, and contribute to leukemic stem cell evolution and maintenance. Accomplishing this work will enable the rational design of curative intervention and perhaps even prevention strategies for patients with myeloid malignancies.

Program Name(s)

Career Development Program

Perelman School of Medicine at the University of Pennsylvania

The goal of this project is to investigate the role of the epigenetic regulator Eleven-Nineteen-Leukemia (ENL) and its cancer mutations in acute myeloid leukemia (AML). Our studies leverage the expertise in chromatin biology, functional genomics, and AML modeling, as well as unique chemical compounds and mouse models. Results from this project will provide novel biological insights into our understanding of AML pathogenesis and facilitate the development of novel epigenetic therapies.

Program Name(s)

Career Development Program

University of Colorado Denver, Anschutz Medical Campus

My lab is focused on understanding the pathogenic interplay between oncogenic mutations, chronic inflammation and aberrant metabolism as a driver of the evolutionary processes that culminate in lethal myeloid malignancies. We leverage mouse models and human patient samples to establish modalities for targeting this interplay throughout disease pathogenesis. My long-term goal is to improve patient outcomes by establishing therapies that prevent and/or delay evolution to acute leukemia.

Program Name(s)

Career Development Program

Columbia University Medical Center

Our research seeks to understand how ordered acquisition of oncogenic mutations transforms human hematopoietic stem cells into myeloid malignancies. We leverage patient-derived induced pluripotent stem cells and primary normal and malignant stem cells to study how mutation cooperation drives leukemic progression in vitro and in vivo. Our long-term goal is to identify disease mechanisms and develop targeted therapies to eradicate malignant stem cells.

Program Name(s)

Career Development Program

University of Southern California

The focus of my research is to understand the causes and early-life origins of acute lymphoblastic leukemia (ALL). We use a two-pronged approach: 1) conducting epidemiological studies of ALL in susceptible populations to understand genetic predisposition, and 2) investigating the in utero origins of ALL across subtypes. Our goals are to identify children at the highest risk of developing ALL through genetic screening and to lay the groundwork for precision prevention strategies.

Program Name(s)

Career Development Program

The Children’s Hospital of Philadelphia

Pediatric acute lymphoblastic leukemia (ALL) that is resistant to standard therapy is a challenge that has been partially overcome by T-cell therapy, yet relapse still occurs in up to 50%. We are conducting two clinical trials that test a next-generation T-cell therapy and the first incorporation of T-cell therapy into initial therapy. These trials will inform future development and the optimal place for this therapy with the goal of improving cure rates for children with very high risk ALL.

Program Name(s)

Career Development Program

Columbia University Medical Center

I aim to identify drivers of pediatric and adolescent/young adult lymphoma disparities so that targeted health equity interventions can be developed. Integration of large datasets, systematic collection of social determinants data in clinical trials, and collaboration with patient advocates will: a) create new population-based resources to study lymphoma outcomes; b) establish a novel framework for equity research in lymphoma clinical trials; and c) identify real-world targets for intervention.

Program Name(s)

Career Development Program

Dana-Farber Cancer Institute

The genomic architecture of residual CLL and molecular determinants of disease progression after targeted combination therapy are unknown. In a phase 2 study of zanubrutinib and venetoclax in CLL, I will investigate the depth of response and genomic changes using cellular and circulating tumor DNA. Data generated from this proposal will provide foundational evidence to develop genomic markers for non-invasive monitoring of treatment response and precise prediction of outcome.

Program Name(s)

Career Development Program

Dana-Farber Cancer Institute

Cell-intrinsic metabolic processes are dysregulated in acute myeloid leukemia (AML) and can act to sustain an oncogenic state of differentiation arrest. Using AML cell lines and patient-derived material grown in sophisticated liquid culture medium that mimics human plasma, we will perform metabolically focused in vitro and in vivo CRISPR-Cas9 screens to reveal metabolic regulators of AML cell fate that can be exploited via dietary or pharmacologic intervention as a novel therapeutic strategy.

Program Name(s)

Career Development Program