The Journal of Clinical Investigation (Feb 2023)

Targeting myeloid cell coagulation signaling blocks MAP kinase/TGF-β1–driven fibrotic remodeling in ischemic heart failure

  • Venkata Garlapati,
  • Michael Molitor,
  • Thomas Michna,
  • Gregory S. Harms,
  • Stefanie Finger,
  • Rebecca Jung,
  • Jeremy Lagrange,
  • Panagiotis Efentakis,
  • Johannes Wild,
  • Maike Knorr,
  • Susanne Karbach,
  • Sabine Wild,
  • Ksenija Vujacic-Mirski,
  • Thomas Münzel,
  • Andreas Daiber,
  • Moritz Brandt,
  • Tommaso Gori,
  • Hendrik Milting,
  • Stefan Tenzer,
  • Wolfram Ruf,
  • Philip Wenzel

Journal volume & issue
Vol. 133, no. 4

Abstract

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Despite major advances in acute interventions for myocardial infarction (MI), adverse cardiac remodeling and excess fibrosis after MI causing ischemic heart failure (IHF) remain a leading cause of death worldwide. Here we identify a profibrotic coagulation signaling pathway that can be targeted for improved cardiac function following MI with persistent ischemia. Quantitative phosphoproteomics of cardiac tissue revealed an upregulated mitogen-activated protein kinase (MAPK) pathway in human IHF. Intervention in this pathway with trametinib improves myocardial function and prevents fibrotic remodeling in a murine model of non-reperfused MI. MAPK activation in MI requires myeloid cell signaling of protease-activated receptor 2 linked to the cytoplasmic domain of the coagulation initiator tissue factor (TF). They act upstream of pro-oxidant NOX2 NADPH oxidase, ERK1/2 phosphorylation, and activation of profibrotic TGF-β1. Specific targeting with the TF inhibitor nematode anticoagulant protein c2 (NAPc2) starting 1 day after established experimental MI averts IHF. Increased TF cytoplasmic domain phosphorylation in circulating monocytes from patients with subacute MI identifies a potential thromboinflammatory biomarker reflective of increased risk for IHF and suitable for patient selection to receive targeted TF inhibition therapy.

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