Skip to Main Content

INFORMATION FOR

    Jason Sheltzer, PhD

    Assistant Professor of Surgery (Oncology) and of Genetics
    DownloadHi-Res Photo

    Appointments

    Surgical Oncology
    Primary
    Genetics
    Secondary

    About

    Titles

    Assistant Professor of Surgery (Oncology) and of Genetics

    Biography

    Dr. Jason Sheltzer received his PhD from MIT, where he worked in the laboratory of Dr. Angelika Amon in the Koch Institute for Cancer Research. As a graduate student at MIT, Dr. Sheltzer studied the effects of aneuploidy, or chromosome copy number imbalances, on cellular physiology. His work revealed several novel consequences of aneuploidy, including unanticipated effects of aneuploidy on homologous recombination, transcription, and tumor suppression. After completing his PhD, Dr. Sheltzer established his own research group as an Independent Fellow at Cold Spring Harbor Laboratory. The Sheltzer Lab's research is dedicated to understanding the genomic causes of cancer progression and therapeutic vulnerabilities. In 2021, Dr. Sheltzer joined the faculty of the Yale School of Medicine as an Assistant Professor.

    Appointments

    • Surgical Oncology

      Assistant Professor
      Primary
    • Genetics

      Assistant Professor
      Secondary

    Other Departments & Organizations

    Education & Training

    Independent Fellow
    Cold Spring Harbor Laboratory (2021)
    PhD
    Massachusetts Institute of Technology (2015)
    AB
    Princeton University (2008)

    Research

    Overview

    Uncovering the role of aneuploidy in tumor development and progression

    Aneuploidy is found in more than 90% of human tumors, but its effects on cellular physiology are poorly understood. While many methods exist to study genetic changes in individual oncogenes and tumor suppressors, our ability to model and interrogate chromosome-scale alterations is extremely limited. We are working to develop and apply a variety of technologies, including chromosome engineering, CRISPR mutagenesis, and single cell sequencing, in order to create new ways to study aneuploidy and better understand its consequences. Using these techniques, we have uncovered key roles for aneuploidy in metastatic dissemination, drug resistance, genomic instability, and several other cancer-related phenotypes.

    Identifying cancer vulnerabilities and improving cancer therapies

    The genetic alterations that occur during tumorigenesis re-wire the underlying architecture of cancer cells and create certain cancer “dependencies”: genes and pathways that are required for cancer cell growth but that are dispensable in normal tissue. Drugs that are designed to target these unique dependencies can serve as potent therapeutic agents. Using CRISPR, our lab has unexpectedly discovered that many targeted therapies that have advanced into clinical trials actually kill cancer cells independently of their reported targets. This pervasive mischaracterization of cancer drugs may partially explain why so many new oncology therapies fail during clinical testing. We are working to develop new techniques to identify cancer dependencies and characterize the activity of anti-cancer agents in order to improve clinical trial efficacy.

    Characterizing CDK11 inhibition as a novel anti-cancer strategy

    While studying mischaracterized cancer drugs, we recently discovered a small-molecule compound that exhibits potent and selective inhibition of the key cancer kinase CDK11. We subsequently demonstrated that CDK11 blockade has a unique molecular phenotype across a variety of cancer types. We are currently working to understand the function of CDK11 in normal and malignant cells, and to identify the cancer types most responsive to CDK11 inhibition.

    Research at a Glance

    Yale Co-Authors

    Frequent collaborators of Jason Sheltzer's published research.

    Publications

    Featured Publications

    2024

    2023

    2022

    Academic Achievements & Community Involvement

    • honor

      Presidential Early-Career Science and Engineering Award

    Get In Touch