Litcius/Paper detail

Neutrophil cathepsin G proteolysis of protease-activated receptor 4 generates a novel, functional tethered ligand

Michelle L. Stoller, Indranil Basak, Frederik Denorme, Jesse W. Rowley, J.P. Alsobrooks, Krishna Parsawar, Marvin T. Nieman, Christian C. Yost, Justin R. Hamilton, Paul F. Bray, Robert A. Campbell

2021Blood Advances19 citationsDOIOpen Access PDF

Abstract

Platelet-neutrophil interactions regulate ischemic vascular injury. Platelets are activated by serine proteases that cleave protease-activated receptor (PAR) amino termini, resulting in an activating tethered ligand. Neutrophils release cathepsin G (CatG) at sites of injury and inflammation, which activates PAR4 but not PAR1, although the molecular mechanism of CatG-induced PAR4 activation is unknown. We show that blockade of the canonical PAR4 thrombin cleavage site did not alter CatG-induced platelet aggregation, suggesting CatG cleaves a different site than thrombin. Mass spectrometry analysis using PAR4 N-terminus peptides revealed CatG cleavage at Ser67-Arg68. A synthetic peptide, RALLLGWVPTR, representing the tethered ligand resulting from CatG proteolyzed PAR4, induced PAR4-dependent calcium flux and greater platelet aggregation than the thrombin-generated GYPGQV peptide. Mutating PAR4 Ser67or Arg68 reduced CatG-induced calcium flux without affecting thrombin-induced calcium flux. Dog platelets, which contain a conserved CatG PAR4 Ser-Arg cleavage site, aggregated in response to human CatG and RALLLGWVPTR, while mouse (Ser-Gln) and rat (Ser-Glu) platelets were unresponsive. Thus, CatG amputates the PAR4 thrombin cleavage site by cleavage at Ser67-Arg68 and activates PAR4 by generating a new functional tethered ligand. These findings support PAR4 as an important CatG signaling receptor and suggest a novel therapeutic approach for blocking platelet-neutrophil-mediated pathophysiologies.

Topics & Concepts

ThrombinCathepsin GChemistryReceptorCathepsinSerine proteaseProteasesBiochemistryCleavage (geology)ProteasePlatelet activationPlateletProtease-activated receptorCell biologyBiologyMolecular biologyEnzymeImmunologyFracture (geology)PaleontologyBlood Coagulation and Thrombosis MechanismsPlatelet Disorders and TreatmentsProtease and Inhibitor Mechanisms