Melissa Reeves, PhD

Funded by the Stuart Scott Memorial Cancer Research Fund

Cancer immunotherapy, which uses a patient’s own immune system to fight cancer, has been very successful for some patients. But not everyone benefits. The immune system is made up of both immune cells that are both “good” and “bad” at fighting cancer. T cells are important “good” cells because they can kill cancer cells. Macrophages, however, can limit how well T cells can kill. Our lab studies how immune cells respond to cancer. In particular, we are interested in how different regions of the same tumor can have different immune cells in them. This means that some regions can have a good immune response, while at the same time, other regions have a bad response. We want to understand how the “bad” immune response regions form and how to fix them. We have identified a molecule called Cx3cl1 that some tumor cells make, which attracts “bad” macrophages. In this project, we will use a model system to study how Cx3cl1 interacts with macrophages. We will study areas of a tumor that have lots of Cx3cl1, and what happens to them when the tumor is treated with immunotherapy. We will also look at Cx3cl1, “bad” macrophages and “good” T cells in different regions of patient tumors. Our ultimate goal is to bring a “good” immune response to all regions of a tumor, so that immunotherapy will work better.

Location: Huntsman Cancer Institute - Salt Lake City
Proposal: Spatial regulation of suppressive macrophages by Cx3cl1 and consequences for anti-tumor immunity
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