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      MAPKAP kinase 2 (MK2)-dependent and independent models of blister formation in pemphigus vulgaris

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          Abstract

          Pemphigus vulgaris (PV) is an autoimmune blistering disease characterized by autoantibodies to the keratinocyte adhesion protein desmoglein (Dsg) 3. Previous studies suggest that PV pathogenesis involves p38 mitogen activated protein kinase-dependent and -independent pathways. However, p38 is a difficult protein to study and therapeutically target because it has four isoforms and multiple downstream effectors. In the current study, we identify MAPKAP kinase 2 (MK2) as a downstream effector of p38 signaling in PV and describe MK2-dependent and -independent mechanisms of blister formation using passive transfer of human anti-Dsg IgG4 mAbs to neonatal mice. In human keratinocytes, PV mAbs activate MK2 in a dose-dependent manner. MK2 is also activated in human pemphigus skin blisters, causing translocation of MK2 from the nucleus to the cytosol. Small molecule inhibition of MK2 and silencing of MK2 expression block PV mAb-induced Dsg3 endocytosis in human keratinocytes. Additionally, small molecule inhibition and genetic deletion of p38α and MK2 inhibit spontaneous, but not induced, suprabasal blisters by PV mAbs in mouse passive transfer models. Collectively, these data suggest that MK2 is a key downstream effector of p38 that can modulate PV autoantibody pathogenicity. MK2 inhibition may be a valuable adjunctive therapy for control of pemphigus blistering.

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          MAPKAP kinase 2 is essential for LPS-induced TNF-alpha biosynthesis.

          Alexey Kotlyarov, C Birchmeier, M. Gaestel (1999)
          MAPKAP kinase 2 (MK2) is one of several kinases that are regulated through direct phosphorylation by p38 MAP kinase. By introducing a targeted mutation into the mouse MK2 gene, we have determined the physiological function of MK2 in vivo. Mice that lack MK2 show increased stress resistance and survive LPS-induced endotoxic shock. This is due to a reduction of approximately 90% in the production of tumor necrosis factor-alpha (TNF-alpha) and not to a change in signalling from the TNF receptor. The level and stability of TNF-alpha mRNA is not reduced and TNF-alpha secretion is not affected. We conclude that MK2 is an essential component in the inflammatory response which regulates biosynthesis of TNF-alpha at a post-transcriptional level.
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            Induction of pemphigus phenotype by a mouse monoclonal antibody against the amino-terminal adhesive interface of desmoglein 3.

            K Tsunoda, T Nagai, Shigeo Koyasu (2003)
            Pemphigus vulgaris (PV) is a life-threatening autoimmune blistering disease that is caused by IgG autoantibodies against the cadherin-type adhesion molecule desmoglein (Dsg)3. Previously, we have generated an active mouse model for PV by adoptive transfer of Dsg3(-/-) splenocytes. In this study, we isolated eight AK series, anti-Dsg3 IgG mAbs from the PV mouse model, and examined their pathogenic activities in induction of blister formation. Intraperitoneal inoculation of the AK23 hybridoma, but not the other AK hybridomas, induced the virtually identical phenotype to that of PV model mice or Dsg3(-/-) mice with typical histology of PV. Epitope mapping with domain-swapped and point-mutated Dsg1/Dsg3 molecules revealed that AK23 recognized a calcium-dependent conformational epitope on Dsg3, which consisted of the V3, K7, P8, and D59 Dsg3-specific residues that formed the adhesive interface between juxtaposed Dsg, as predicted by the crystal structure. The epitopes of the mAbs that failed to show apparent pathogenic activity were mapped in the middle to carboxyl-terminal extracellular region of Dsg3, where no direct intermolecular interaction was predicted. These findings demonstrate the pathogenic heterogeneity among anti-Dsg3 IgG Abs due to their epitopes, and suggest the direct inhibition of adhesive interaction of Dsg as an initial molecular event of blister formation in pemphigus.
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              The mitogen-activated protein kinase (MAPK)-activated protein kinases MK2 and MK3 cooperate in stimulation of tumor necrosis factor biosynthesis and stabilization of p38 MAPK.

              P. Kracht, J.-B. Telliez, N. Ronkina (2006)
              MK2 and MK3 represent protein kinases downstream of p38 mitogen-activated protein kinase (MAPK). Deletion of the MK2 gene in mice resulted in an impaired inflammatory response although MK3, which displays extensive structural similarities and identical functional properties in vitro, is still present. Here, we analyze tumor necrosis factor (TNF) production and expression of p38 MAPK and tristetraprolin (TTP) in MK3-deficient mice and demonstrate that there are no significant differences with wild-type animals. We show that in vivo MK2 and MK3 are expressed and activated in parallel. However, the level of activity of MK2 is always significantly higher than that of MK3. Accordingly, we hypothesized that MK3 could have significant effects only in an MK2-free background and generated MK2/MK3 double-knockout mice. Unexpectedly, these mice are viable and show no obvious defects due to loss of compensation between MK2 and MK3. However, there is a further reduction of TNF production and expression of p38 and TTP in double-knockout mice compared to MK2-deficient mice. This finding, together with the observation that ectopically expressed MK3 can rescue MK2 deficiency similarly to MK2, indicates that both kinases share the same physiological function in vivo but are expressed to different levels.
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                Author and article information

                Journal
                Journal ID (nlm-journal-id): 0426720
                Journal ID (pubmed-jr-id): 4839
                Journal ID (nlm-ta): J Invest Dermatol
                Journal ID (iso-abbrev): J. Invest. Dermatol.
                Title: The Journal of investigative dermatology
                ISSN (Print): 0022-202X
                ISSN (Electronic): 1523-1747
                Publication date Nihms-submitted: 23 May 2013
                Publication date (Electronic): 27 June 2013
                Publication date (Print): January 2014
                Publication date PMC-release: 01 July 2014
                Volume: 134
                Issue: 1
                Electronic Location Identifier: 10.1038/jid.2013.224
                Affiliations
                [1 ]Dermatology, University of Pennsylvania, Philadelphia, PA, United States
                [2 ]Cutaneous Biology Research Center, Massachusetts General Hospital and Harvard Medical School, Charlestown, MA, United States
                [3 ]Institute of Biochemistry, Hannover Medical School, Hannover, Germany
                Author notes
                Corresponding author: Aimee S. Payne, MD, PhD, 217A Clinical Research Building, 415 Curie Boulevard, Philadelphia, PA 19104, Telephone: 215-746-4488, Fax: 215-573-7173, paynea@ 123456mail.med.upenn.edu
                Article
                Manuscript ID: NIHMS475957
                DOI: 10.1038/jid.2013.224
                PMC ID: 3786199
                PubMed ID: 23657501
                SO-VID: 51069c08-387e-4995-b2e9-f5e00d63e145
                History
                Funding
                Funded by: National Institute of Arthritis and Musculoskeletal and Skin Diseases : NIAMS
                Award ID: R01 AR057001 || AR
                Funded by: National Institute of Arthritis and Musculoskeletal and Skin Diseases : NIAMS
                Award ID: P30 AR057217 || AR
                Categories
                Subject: Article

                ScienceOpen disciplines: Dermatology
                Keywords: autoimmunity,desmosome,cell adhesion,cadherin,cell signaling
                Data availability:
                ScienceOpen disciplines: Dermatology
                Keywords: autoimmunity, desmosome, cell adhesion, cadherin, cell signaling

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