Antimicrobial peptides that help protect against infection defend against cancer
An antimicrobial agent called Defensin kills tumor cells and shrinks tumor size in fruit flies, with help from a pathway that flags the cells for destruction.
These findings, published in eLife, provide the first evidence in live animals that antimicrobial peptides (AMPs), which help protect against infection, also defend against cancer. If confirmed in further studies in animals and humans, the discovery could one day lead to new cancer treatment strategies.
Previous studies have shown that AMPs kill cancer cells grown in the laboratory, but the findings had not been confirmed in living creatures.
Their experiments showed that tumor-prone fruit flies produce more Defensin than their normal counterparts. Defensin interacts with dying tumor cells in the animals. Shutting down Defensin in the tumor-prone animals leads to tumor growth, suggesting that Defensin is actively killing the cells while sparing normal cells.
Next, Parvy and his colleagues showed that Defensin recognizes tumor cells in the same way it recognizes harmful microbes. The fly version of a protein called Tumour Necrosis Factor helps flag the tumor cells for destruction and makes the cells more sensitive to Defensin's attack. It does this by bringing a protein called phosphatidylserine to the surface of the tumor cells. Defensin then binds to phosphatidylserine-rich areas on the tumor cells and kills them.
"Our results reveal an anti-tumor role for Defensin in flies and provides insights on the molecular mechanisms that make tumors sensitive to the killing action of AMPs," Parvy explains.
Further research is now needed to see if these same mechanisms are at work in mammals and humans.
Source:
Journal reference:
Parvy, J. et al. (2019) The antimicrobial peptide defensin cooperates with tumour necrosis factor to drive tumour cell death in Drosophila. eLife. doi. org/ 10. 7554/ eLife. 45061
No hay comentarios:
Publicar un comentario