Discrete and conserved inflammatory signatures drive thrombosis in different organs afterSalmonellainfection

Author:

Perez-Toledo MarisolORCID,Beristain-Covarrubias Nonantzin,Pillaye Jamie,Persaud Ruby R,Marcial-Juarez Edith,Jossi Sian E.,Hitchcock Jessica R.,Alshayea Areej,Channell William M.,Lamerton Rachel EORCID,Kavanagh Dean P,Carestia Agostina,Horsnell William G,Henderson Ian R.,Mackman Nigel,Clark Andrew R,Jenne Craig N,Rayes Julie,Watson Steve P.,Cunningham Adam F.

Abstract

AbstractInflammation-induced thrombosis is a common consequence of bacterial and viral infections, such as those caused bySalmonellaTyphimurium (STm) and SARS-CoV-2. The identification of multi-organ thrombosis and the chronological differences in its induction and resolution raises significant challenges for successfully targeting multi-organ infection-associated thrombosis. Here, we identified specific pathways and effector cells driving thrombosis in the spleen and liver following STm infection. Thrombosis in the spleen is independent of IFN-γ or the platelet C-type lectin-like receptor CLEC-2, while both molecules were previously identified as key drivers of thrombosis in the liver. Furthermore, we identified platelets, monocytes, and neutrophils as core constituents of thrombi in both organs. Depleting neutrophils or monocytic cells independently abrogated thrombus formation. Nevertheless, blocking TNFα, which is expressed by both myeloid cell types, diminished both thrombosis and inflammation which correlates with reduced endothelial expression of E-selectin and leukocyte infiltration. Moreover, tissue factor and P-selectin glycoprotein ligand 1 inhibition impair thrombosis in both spleen and liver, identifying multiple common checkpoints to target multi-organ thrombosis. Therefore, organ-specific, and broad mechanisms driving thrombosis potentially allow tailored treatments based on the clinical need and to define the most adequate strategy to target both thrombosis and inflammation associated with systemic infections.

Publisher

Cold Spring Harbor Laboratory

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