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Xiaolei Su, PhD

Associate Professor of Cell Biology
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Contact Info

Yale School of Medicine

333 Cedar St, PO BOX 208002, SHMC 425A

New Haven, CT 06520

United States

About

Titles

Associate Professor of Cell Biology

Biography

Dr. Xiaolei Su received initial scientific training at Peking University as an undergraduate. He obtained a Ph.D. degree at Harvard, where he investigated cytoskeleton dynamics under the mentorship of David Pellman. He joined Ron Vale's Lab at UCSF as a postdoc fellow and revealed that phase separation of membrane-associated proteins promotes T cell activation. Dr. Su started his own group at Yale in 2018. His current research focuses on membrane remodeling and membrane receptor signaling during immune responses. Dr. Su's team combined biochemical reconstitution with live cell imaging and animal model to understand how biomolecular condensation regulates immune signaling. They also investigated the molecular pathways underlying CAR T activation and designed CARs with new signaling functions to target blood, skin, colon, breast, and brain cancers.

Appointments

Other Departments & Organizations

Education & Training

Postdoc
University of California, San Francisco (2017)
PhD
Harvard University, Cell and Developmental Biology (2012)
Student
Physiology Course, Marine Biological Laboratory (2009)
BS
Peking University, Biological Sciences (2006)

Research

Overview

The cell membrane not only separates the intracellular space from the external environment, but also provides a platform for the receiving, processing and transduction of extracellular stimuli. The two-dimensional geometry, the interaction between proteins and lipids, and the local membrane curvature all converge to generate emergent properties of membrane-proximal signaling whereas the underlying mechanisms and functional consequences are not well understood. Immune receptor signaling represents a good example of this scenario. The highly dynamic membranes in the synapse and multiple ligand-receptor interaction pairs posted numerous exciting questions to explore in both basic biology and immunotherapy development.

Mechanism of CAR-T cell activation

The chimeric antigen receptor (CAR) enables T cells to specifically target and kill cancer cells. Despite of its success in clinical trials, the cellular mechanism of how CAR is activated by antigen and how activated CAR triggers downstream signaling pathways remains unclear. We have established a supported lipid bilayer system coupled with TIRF imaging for visualizing CAR signaling at high spatial and temporal resolutions. These enable my group to comprehensively investigate and manipulate the signaling pathway in both regular and CAR-T cells. We revealed a size-dependent mechanism explaining how antigen engagement triggers CAR activation, which solves a long-standing question in the CAR field. We also discovered that CAR induces an unstable synapse that has a disorganized pattern; moreover, CAR bypasses LAT, a key adaptor in the TCR pathway, to activate T cells. These knowledge in basic immune signaling guided us to design new CARs and engineer immune cells to improve the antitumor responses. Currently we are exploring the following questions:

  • How is signaling amplified along the CAR pathway?
  • How does phase separation affect CAR signaling?
  • How to design CARs with improved antigen sensitivity?

Mast cell granule and anti-tumor function

Mast cells are among the least understood immune cells though they are widely distributed in tissues and communicate with a variety of immune and stroma cells either through direct contacts or secreted mediators. The cytoplasm of mast cells is filled up with granules that contain multiple mediators including bioactive chemicals, proteases, cytotoxic factors, chemokines, signaling lipids and glycans. Interestingly, many of these mediates remain in the granules even after their release into the extracellular space where there are no membranes wrapping around granules. The underlying biochemical mechanism is unclear. Functionally, mast cells were traditionally associated with inflammatory diseases including asthma and urticaria. We propose to repurpose the inflammatory role of mast cells for an anti-tumor function. This is expected to overcome some of the major hurdles preventing T cell-centered therapy for solid tumors. Currently we are exploring the following questions:

  • How do mast cell extracellular granules maintain their structural and functional integrity?
  • Can we program mast cells to target solid tumors through developing novel CARs?

Transcellular migration of leukocytes

During an immune response to pathogen infection, Leukocytes, which normally circulate in the vascular system, transmigrate through the endothelial layer to reach infected tissues and clear pathogens. Similarly, circulating metastatic cancer cells transmigrate through the endothelial layer to reach new colonization sites. In traditional views, transendothelial migration occurs at cell-cell junctions (paracellularly). However, recent evidence suggested the presence of transcellular migration, in which leukocytes or cancer cells penetrate through the endothelial cell to exit blood vessel. This transcellular process requires intimate interactions and bidirectional signaling between the invading and receiving cells, accompanied by highly coordinated remodeling of cytoskeleton and membrane systems. Currently we are exploring the following questions:

  • What are the ligand-receptor pairs that mediate bi-directional signaling between endothelial cells and leukocytes?
  • How do endothelial cells remodel their membranes to accommodate transcellular migration?

Medical Research Interests

Adaptive Immunity; Biophysics; Cell Biology; Cell Membrane; Endothelial Cells; Leukemia; Mast Cells; Melanoma; Receptors, Chimeric Antigen; Transendothelial and Transepithelial Migration

Public Health Interests

Cancer

Research at a Glance

Yale Co-Authors

Frequent collaborators of Xiaolei Su's published research.

Publications

Featured Publications

2023

2022

2021

2020

2019

2016

Academic Achievements & Community Involvement

  • honor

    Lion Heart Pilot Award

  • honor

    Pershing Square Sohn Prize for Young Investigators in Cancer Research

  • honor

    Gabrielle's Angel Foundation Medical Research Award

  • honor

    American Cancer Society Research Scholar Grant

  • honor

    Human Frontier Science Program Early-Career Research Grant

Get In Touch

Contacts

Mailing Address

Yale School of Medicine

333 Cedar St, PO BOX 208002, SHMC 425A

New Haven, CT 06520

United States