Researchers reveal how ammonia dysregulates T cell function
Ammonia suppresses the development and operation of T lymphocytes, which are essential for the body's ability to fight tumours.
WASHINGTON: According to recent research from the University of Michigan Rogel Cancer Center, mice used to model colorectal cancer exhibit immunotherapy resistance and fewer T cells when tumours have high amounts of ammonia.
Ammonia suppresses the development and operation of T lymphocytes, which are essential for the body's ability to fight tumours. The findings of the study were published in the journal in Cell Metabolism.
"We identified the mechanism of how ammonia dysregulates T cell function and showed that reducing ammonia levels using FDA-approved drugs for hyperammonemia can reduce tumor size in several different models including metastatic colorectal cancer," says Hannah Bell, Ph.D., a postdoctoral fellow in cancer biology and author on this paper, adding,
"Use of this drug also synergizes with immunotherapy. If you treat the mice with immunotherapy when you also treat them with this ammonia reducing agent, you're able to sensitize the tumors to treatment."
"Most colorectal cancers are insensitive to immune therapies," adds Yatrik Shah, Ph.D., Horace W. Davenport Collegiate Professor of Physiology and first author of the study, adding, "We've found that one of the mechanisms that leads to this resistance is likely the high level of ammonia that accumulates in the microenvironment."
Bell explains that while there are many factors that contribute to immunotherapy resistance, there are few therapeutic interventions that can reactivate therapy sensitivity.
"Our study shows that this is a relatively safe and FDA-approved method that could work alongside immunotherapy to make treatment more effective for patients. This new method provides a potentially direct avenue to treat tumors and reactivate the immune system," said Shah. How does ammonia accumulate in colorectal tumors in the first place?
Ammonia levels are regulated by a balance of production and cellular detoxification. Most ammonia is generated by the microbiota, but Bell and Shah's work suggests that increased production of ammonia is not what results in accumulation.
"Our work demonstrates that tumors have lost the ability to detoxify ammonia leading to build up," said Shah. Further, the accumulation of ammonia is likely not isolated to just colorectal tumors. Shah says this discovery may open doors in explaining resistance to other cancer types as well.
"Only about 20-30% of all cancer patients are sensitive to immunotherapy. 70% of patients don't derive any benefit from it," Shah said, adding, "Now, we have a mechanism that could explain this resistance in tumors beyond colon cancer."
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