Scientists from the Trinity Biomedical Sciences Institute (TBSI) in Trinity College Dublin have discovered a new way to block inflammatory macrophages – front-line cells in our immune system that cause complications in a suite of diseases, including COVID-19.
The scientists have just published their findings, which describe potential new mechanisms for limiting the troublesome inflammatory role of these cells, which can become over-active in infected individuals, in the Journal of Immunology.
The scientists report how a molecule called 4-OI, which is based on the natural anti-inflammatory molecule itaconate, can block production of an enzyme called COX2, which is critical for prostaglandins.
This supports the use of 4-OI or molecules based on it as a wholly new class of anti-inflammatory compounds, which could prove useful in several diseases, including COVID-19.
Lead author Ciana Diskin, who is in the School of Biochemistry and Immunology in TBSI, said:
“We have found an important way to limit the production of prostaglandins from macrophages. Prostaglandins are very important drivers of acute inflammation and can also cause fever.”
Luke O’Neill, Professor of Biochemistry at Trinity and based in TBSI, is the senior author on both papers. He added:
“This reveals a new mechanism to limit inflammatory macrophages, which could have use in multiple diseases.
“We have found that 4-OI, which is based on an anti-inflammatory factor made in our own bodies, can block COX2 and prostaglandins, possibly providing us with new anti-inflammatory strategies.”
In a second paper in the same edition of the journal, the scientists also report the discovery that another molecule -- called I3P, which is derived from parasites called Trypanosomes (which cause sleeping sickness) --is also shown to be an inhibitor of prostaglandins.
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Journal
The Journal of Immunology
Method of Research
Experimental study
Subject of Research
Cells