The Microglial Protein sTREM2 Inhibits the Bacterial Functional Amyloid CsgA and Suppresses Amyloid-Dependent Biofilm Formation

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The Microglial Protein sTREM2 Inhibits the Bacterial Functional Amyloid CsgA and Suppresses Amyloid-Dependent Biofilm Formation

Authors

Balistreri, A.; Gomulinski, M.; Chapman, M. R.; Kelly, J. W.

Abstract

Protein misfolding and aggregation, including amyloid fibril formation, underlie a large class of human diseases including prominent neurological disorders such as Alzheimer's and Parkinson's disease. A small number of human proteins have been identified that inhibit amyloidogenesis. One such protein is sTREM2, a soluble receptor liberated from microglia, the resident macrophages of the central nervous system. The extracellular domain of TREM2 is shed upon proteolytic cleavage to create sTREM2, which has previously been shown to inhibit amyloid-{beta} aggregation in vitro. TREM2 is also expressed by intestinal macrophages, which are known to directly bind the bacterial amyloid curli and mount cytokine responses upon exposure. Here we show that sTREM2 is a sub-stoichiometric inhibitor of CsgA amyloidogenesis, CsgA being the major protein component of curli that drives biofilm formation in uropathogenic Escherichia coli and many other proteobacteria. In vitro, sTREM2 potently and sub-stoichiometrically inhibited CsgA amyloidogenesis in a dose-dependent manner. Kinetic modeling indicated that sTREM2 slowed primary and secondary nucleation, rather than altering fiber elongation. When added exogenously to bacterial growth medium, sTREM2 significantly suppressed curli-dependent pellicle biofilm formation without affecting bacterial growth. These findings establish sTREM2 as a member of the small group of human proteins capable of inhibiting bacterial functional amyloidogenesis, suggesting that gut-resident TREM2-expressing macrophages, which are already known to interact with curli, may employ sTREM2 as a physiologically relevant defense against bacterial amyloid formation.

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