New study in mice and cultured tumor cells by Harvard Medical School. Researchers reveals tumors can use this ammonia as a fuel source.
Breast cancer cells recycle ammonia, a waste byproduct of cell metabolism, and use it as a source of nitrogen to fuel tumor growth. Scientists show that the presence of ammonia accelerates proliferation of cultured breast cancer cells. Suppressing ammonia metabolism can stunt tumor growth in mice.
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Nitrogen on Glutamine technique
The insights shed light on the biological role of ammonia in cancer and may inform the design of new therapeutic strategies to slow tumor growth, the researchers said.
“Classically, ammonia thought to as metabolic waste that must be cleared due to its high toxicity,” said senior study author Marcia Haigis, associate professor of cell biology at HMS. “We found that not only was ammonia not toxic for breast cancer cells, it used to feed tumors by serving as source for the building blocks that tumors need to grow.”
Rapidly growing cells, particularly cancer cells, consume nutrients voraciously and generate excess metabolic waste. One such byproduct, ammonia normally transported in blood vessels to the liver. It converted into less toxic substances and excreted from the body as urea. Tumors, however, have few blood vessels, and as a result, ammonia accumulates in the tumor’s local environment. At concentrations that would be toxic for many cells.
To investigate how tumors cope with high levels of ammonia. Haigis and her colleagues used a technique to label the nitrogen on glutamine. When glutamine is broken down during cell metabolism, ammonia containing labeled nitrogen is released as a byproduct.
Tracing the fate of this marked ammonia, the researchers analyzed more than 200 different cellular metabolites in breast cancer cells and in human tumors transplanted into mice.
They found cancer cells recycled ammonia with high efficiency, incorporating it into numerous components primarily the amino acid glutamate, a fundamental building block for proteins, as well as its derivatives. Around 20 percent of the cellular glutamate pool contained recycled nitrogen.
Glutamate dehydrogenase (GDH) activity
Higher concentrations of ammonia appeared to accelerate the growth of lab-grown breast cancer cells. Ammonia-exposed cells doubled up seven hours faster than cells grown without ammonia. In 3-D cultures a technique that allows cells to divide in all directions. As they do inside the body ammonia exposure increased the number of cells. Also surface area of cell clusters by up to 50 percent compared with cells grown without ammonia.
Ammonia also accelerated tumor growth and proliferation in mice with transplanted human breast cancer. When the team blocked the activity of glutamate dehydrogenase (GDH)an enzyme. That specifically assimilates ammonia to carry out its function tumor growth slowed significantly compared to tumors with intact GDH activity.
“We found that repressing ammonia metabolism stunts tumor growth in mice,” said Jessica Spinelli, a graduate student in the Haigis lab and first author on the study. “Therefore, inhibition of ammonia assimilation or ammonia production may be rational strategies for therapy design.”
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The team’s findings indicate that the biological role of ammonia should reevaluate again. Laying the foundation for the investigation of new approaches to block tumor growth by depriving tumors of essential nutrients. The researchers are now exploring the therapeutic implications of ammonia metabolism in cancer.
