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      The isoenzyme of glutaminyl cyclase is an important regulator of monocyte infiltration under inflammatory conditions

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          Abstract

          Acute and chronic inflammatory disorders are characterized by detrimental cytokine and chemokine expression. Frequently, the chemotactic activity of cytokines depends on a modified N-terminus of the polypeptide. Among those, the N-terminus of monocyte chemoattractant protein 1 (CCL2 and MCP-1) is modified to a pyroglutamate (pE-) residue protecting against degradation in vivo. Here, we show that the N-terminal pE-formation depends on glutaminyl cyclase activity. The pE-residue increases stability against N-terminal degradation by aminopeptidases and improves receptor activation and signal transduction in vitro. Genetic ablation of the glutaminyl cyclase iso-enzymes QC ( QPCT) or isoQC ( QPCTL) revealed a major role of isoQC for pE 1-CCL2 formation and monocyte infiltration. Consistently, administration of QC-inhibitors in inflammatory models, such as thioglycollate-induced peritonitis reduced monocyte infiltration. The pharmacologic efficacy of QC/isoQC-inhibition was assessed in accelerated atherosclerosis in ApoE3*Leiden mice, showing attenuated atherosclerotic pathology following chronic oral treatment. Current strategies targeting CCL2 are mainly based on antibodies or spiegelmers. The application of small, orally available inhibitors of glutaminyl cyclases represents an alternative therapeutic strategy to treat CCL2-driven disorders such as atherosclerosis/restenosis and fibrosis.

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          Chemokines and disease.

          Craig Gerard, Barrett Rollins (2001)
          We examine here several diseases that are associated with inappropriate activation of the chemokine network. Detailed comment has been restricted to pathological states for which there are compelling data either from clinical observations or animal models. These include cardiovascular disease, allergic inflammatory disease, transplantation, neuroinflammation, cancer and HIV-associated disease. Discussion focuses on therapeutic directions in which the rapidly evolving chemokine field appears to be headed.
          Article 0 comments Cited 202 times – based on 0 reviews     Review now
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            Glycosaminoglycan binding and oligomerization are essential for the in vivo activity of certain chemokines.

            Amanda Proudfoot, Tracy M Handel, Zoe Johnson (2003)
            During organogenesis, immunosurveillance, and inflammation, chemokines selectively recruit leukocytes by activating seven-transmembrane-spanning receptors. It has been suggested that an important component of this process is the formation of a haptotactic gradient by immobilization of chemokines on cell surface glycosaminoglycans (GAGs). However, this hypothesis has not been experimentally demonstrated in vivo. In the present study we investigated the effect of mutations in the GAG binding sites of three chemokines, monocyte chemoattractant protein-1/CC chemokine ligand (CCL)2, macrophage-inflammatory protein-1beta/CCL4, and RANTES/CCL5, on their ability to recruit cells in vivo. These mutant chemokines retain chemotactic activity in vitro, but they are unable to recruit cells when administered intraperitoneally. Additionally, monomeric variants, although fully active in vitro, are devoid of activity in vivo. These data demonstrate that both GAG binding and the ability to form higher-order oligomers are essential for the activity of particular chemokines in vivo, although they are not required for receptor activation in vitro. Thus, quaternary structure of chemokines and their interaction with GAGs may significantly contribute to the localization of leukocytes beyond migration patterns defined by chemokine receptor interactions.
            Article 0 comments Cited 167 times – based on 0 reviews     Review now
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              Chemokines in the pathogenesis of vascular disease.

              Mark Taubman, Israel F Charo (2004)
              Our increasing appreciation of the importance of inflammation in vascular disease has focused attention on the molecules that direct the migration of leukocytes from the blood stream to the vessel wall. In this review, we summarize roles of the chemokines, a family of small secreted proteins that selectively recruit monocytes, neutrophils, and lymphocytes to sites of vascular injury, inflammation, and developing atherosclerosis. Chemokines induce chemotaxis through the activation of G-protein-coupled receptors, and the receptors that a given leukocyte expresses determines the chemokines to which it will respond. Monocyte chemoattractant protein 1 (MCP-1), acting through its receptor CCR2, appears to play an early and important role in the recruitment of monocytes to atherosclerotic lesions and in the formation of intimal hyperplasia after arterial injury. Acute thrombosis is an often fatal complication of atherosclerotic plaque rupture, and recent evidence suggests that MCP-1 contributes to thrombin generation and thrombus formation by generating tissue factor. Because of their critical roles in monocyte recruitment in vascular and nonvascular diseases, MCP-1 and CCR2 have become important therapeutic targets, and efforts are underway to develop potent and specific antagonists of these and related chemokines.
              Article 0 comments Cited 134 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): EMBO Mol Med
                Journal ID (iso-abbrev): EMBO Mol Med
                Journal ID (publisher-id): emmm
                Title: EMBO Molecular Medicine
                Publisher: WILEY-VCH Verlag (Weinheim )
                ISSN (Print): 1757-4676
                ISSN (Electronic): 1757-4684
                Publication date (Print): September 2011
                Volume: 3
                Issue: 9
                Pages: 545-558
                Affiliations
                [1 ]simpleProbiodrug AG Halle, Germany
                [2 ]simpleIngenium Pharmaceuticals GmbH Martinsried, Germany
                [3 ]simpleAlbrecht-von-Haller-Institute, Georg-August University Göttingen, Germany
                [4 ]simpleDepartment of Vascular Surgery, Leiden University Medical Center Leiden, The Netherlands
                [5 ]simpleDepartment for Vascular Surgery, St. Elisabeth and St. Barbara Hospital Halle, Germany
                [6 ]simpleInstitute of Diabetes Karlsburg, Germany
                Author notes
                * Corresponding author: Tel: +49 345 555 99 11, Fax: +49 345 555 99 01; E-mail: stephan.schilling@ 123456probiodrug.de
                Article
                DOI: 10.1002/emmm.201100158
                PMC ID: 3377097
                PubMed ID: 21774078
                SO-VID: d5833d89-8fc2-4ed2-9fd0-fd180520a396
                Copyright © Copyright © 2011 EMBO Molecular Medicine
                History
                Date received : 18 March 2011
                Date revision received : 01 June 2011
                Date accepted : 08 June 2011
                Categories
                Subject: Research Article

                ScienceOpen disciplines: Molecular medicine
                Keywords: pyroglutamate,drug development,ccl2,glutaminyl cyclases,inflammation
                Data availability:
                ScienceOpen disciplines: Molecular medicine
                Keywords: pyroglutamate, drug development, ccl2, glutaminyl cyclases, inflammation

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