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Title: Mechanism of Heparin Acceleration of Tissue Inhibitor of Metalloproteases-1 (TIMP-1) Degradation by the Human Neutrophil Elastase
Authors: Nunes, Gabriel L. C. [UNIFESP]
Simoes, Alyne
Dyszy, Fabio H.
Shida, Claudio S.
Juliano, Maria A. [UNIFESP]
Juliano, Luiz [UNIFESP]
Gesteira, Tarsis F. [UNIFESP]
Nader, Helena Bonciani [UNIFESP]
Murphy, Gillian
Chaffotte, Alain F.
Goldberg, Michel E.
Tersariol, Ivarne L. S. [UNIFESP]
Almeida, Paulo C. [UNIFESP]
Univ Mogi das Cruzes
Universidade de São Paulo (USP)
Universidade Federal de São Paulo (UNIFESP)
Univ Cambridge
Inst Pasteur
Issue Date: 23-Jun-2011
Publisher: Public Library Science
Citation: Plos One. San Francisco: Public Library Science, v. 6, n. 6, 11 p., 2011.
Abstract: Heparin has been shown to regulate human neutrophil elastase (HNE) activity. We have assessed the regulatory effect of heparin on Tissue Inhibitor of Metalloproteases-1 [TIMP-1] hydrolysis by HNE employing the recombinant form of TIMP-1 and correlated FRET-peptides comprising the TIMP-1 cleavage site. Heparin accelerates 2.5-fold TIMP-1 hydrolysis by HNE. the kinetic parameters of this reaction were monitored with the aid of a FRET-peptide substrate that mimics the TIMP-1 cleavage site in pre-steady-state conditionsby using a stopped-flow fluorescence system. the hydrolysis of the FRET-peptide substrate by HNE exhibits a pre-steady-state burst phase followed by a linear, steady-state pseudo-first-order reaction. the HNE acylation step (k(2)=21 +/- 1 s(-1)) was much higher than the HNE deacylation step (k(3)=0.57 +/- 0.05 s(-1)). the presence of heparin induces a dramatic effect in the pre-steady-state behavior of HNE. Heparin induces transient lag phase kinetics in HNE cleavage of the FRET-peptide substrate. the pre-steady-state analysis revealed that heparin affects all steps of the reaction through enhancing the ES complex concentration, increasing k(1) 2.4-fold and reducing k(-1) 3.1-fold. Heparin also promotes a 7.8-fold decrease in the k(2) value, whereas the k(3) value in the presence of heparin was increased 58-fold. These results clearly show that heparin binding accelerates deacylation and slows down acylation. Heparin shifts the HNE pH activity profile to the right, allowing HNE to be active at alkaline pH. Molecular docking and kinetic analysis suggest that heparin induces conformational changes in HNE structure. Here, we are showing for the first time that heparin is able to accelerate the hydrolysis of TIMP-1 by HNE. the degradation of TIMP-1is associated to important physiopathological states involving excessive activation of MMPs.
ISSN: 1932-6203
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