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A Rapidly Evolving Polybasic Motif Modulates Bacterial Detection by Guanylate Binding Proteins

Kristin Kohler, Miriam Kutsch, Anthony S. Piro, Graham Wallace, Jörn Coers, Matthew F. Barber

2020mBio27 citationsDOIOpen Access PDF

Abstract

Many infectious diseases are caused by microbes that enter and survive within host cells. Guanylate binding proteins (GBPs) are a group of immune proteins which recognize and inhibit a variety of intracellular pathogenic microbes. We discovered that a short sequence within GBPs required for the detection of bacteria, the polybasic motif (PBM), has been rapidly evolving between primate species. By swapping PBMs between primate GBP1 genes, we were able to show that specific sequences can both reduce and improve the ability of GBP1 to target intracellular bacteria. We also show that the ability to envelop bacteria has independently evolved in GBP2 of South American monkeys. Taking the results together, this report illustrates how primate GBPs have adapted to defend against infectious pathogens.

Topics & Concepts

BiologyShigella flexneriImmune systemCell biologyIntracellular parasitePathogenIntracellularComputational biologyGeneticsGeneEscherichia coliinterferon and immune responsesVibrio bacteria research studiesEscherichia coli research studies