Imagine your immune cells could be modified to attack any kind of cancer. T cell receptor (TCR) therapy has the potential to one day become a universal cancer treatment. But there are risks. Similarities between cancerous and healthy cells can affect the body's immune response, causing T cells to attack unintended targets. TCR therapy needs laser focus to prevent friendly fire. New and curiously named AI developed at Cold Spring Harbor Laboratory (CSHL) could provide just that.
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How does it work, and why do we need AI for the job? In biology, cells announce their state by displaying peptides on their surface. These peptides are used by T cells to distinguish cancerous and healthy cells. However, the number of peptides and TCRs in the human body is enormous, making it nearly impossible and extremely expensive to determine which peptides a given TCR can bind.
To address this issue, CSHL Assistant ProfessorHannah Meyerteamed with Associate ProfessorSaket Navlakhaand postdocAmitava Banerjee. The team developed a massive new database containing over 22,000 TCR-peptide interactions. They call it BATCAVE. Spelunking a dataset this deep would take lifetimes. So,the teambuilt an AI model. What do you call AI engineered to comb the BATCAVE? What else but BATMAN.
Navlakha explains: “We trained [BATMAN] on a bunch of TCRs and what they recognize. But give me a new TCR that is not in my database, and I need to figure out what it binds to. So, we ask, which are the best peptides I should select to make predictions?”
During testing, BATMAN outperformed competing models in accurately predicting which peptides bind to a given TCR. The heroic AI also revealed why seemingly unrelated peptides get caught in the crossfire. “It's not enough to just count differences between potential targets,” Meyer explains. “It matters where the difference is and what type of difference it is. Our model is already good enough to tell us if there are peptides we should be concerned about for targeted [cancer] therapies.”
Despite the promise, there's more to be done before BATMAN can venture from the BATCAVE for potential clinical use. As large as the database is, it houses a fraction of all possible TCR-peptide pairs. More data could enhance BATMAN's performance and help scientists answer fundamentalquestions about the immune system.
“There's a lot of variation in the body's T-cell response,” Banerjee says. “If we can accurately predict how these cells and peptides interact, that will be very helpful for designing future therapies not only for cancer, but all human illnesses.”
About Cold Spring Harbor LaboratoryFounded in 1890, Cold Spring Harbor Laboratory has shaped contemporary biomedical research and education with programs in cancer, neuroscience, plant biology and quantitative biology. Home to eight Nobel Prize winners, the private, not-for-profit Laboratory employs 1,000 people including 600 scientists, students and technicians. For more information, visitwww.cshl.edu.
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SOURCE Cold Spring Harbor Laboratory
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