Clarence A. Dunn scite author profile

The proteins that form vertebrate gap junctions, the connexins, are highly regulated and have short (,2 hour) half-lives. Phosphorylation of connexin43 (Cx43) affects gap junction assembly, channel gating and turnover. After finding dramatic effects on gap junctions with Akt inhibitors, we created an antibody specific for Cx43 phosphorylated on S373, a potential Akt substrate. We found S373 phosphorylation in cells and skin or heart almost exclusively in larger gap-junctional structures that increased dramatically after wounding or hypoxia. We were able to mechanistically show that Akt-dependent phosphorylation of S373 increases gap junction size and communication by completely eliminating the interaction between Cx43 and ZO-1. Thus, phosphorylation on S373 acts as a molecular 'switch' to rapidly increase gap-junctional communication, potentially leading to initiation of activation and migration of keratinocytes or ischemic injury response in the skin and the heart, respectively.

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Adhesion or Plasmin Regulates Tyrosine Phosphorylation of a Novel Membrane Glycoprotein p80/gp140/CUB Domain-containing Protein 1 in Epithelia

Brown

Yang

Zaitsevskaia

et al. 2004

Journal of Biological Chemistry

138

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Suspension of cultured human foreskin keratinocytes (HKs) with trypsin phosphorylates tyrosine residues on an 80-kDa membrane glycoprotein, p80 (Xia, Y., Gil, S. G., and Carter, W. G. (1996) J. Cell Biol. 132, 727-740). Readhesion dephosphorylates p80. Sequencing of a p80 cDNA established identity to CUB domain-containing protein 1 (CDCP1), a gene elevated in carcinomas. CDCP1/p80 cDNA encodes three extracellular CUB domains, a transmembrane domain, and two putative cytoplasmic Tyr phosphorylation sites. Treatment of adherent HKs with suramin, a heparin analogue, or inhibitors of phosphotyrosine phosphatases (PTPs; vanadate or calpeptin) increases phosphorylation of p80 and a novel 140-kDa membrane glycoprotein, gp140. Phosphorylated gp140 was identified as a trypsin-sensitive precursor to p80. Identity was confirmed by digestion and phosphorylation studies with recombinant gp140-GFP. Plasmin, a serum protease, also converts gp140 to p80, providing biological significance to the cleavage in wounds. Phosphorylation of gp140 and p80 are mediated by Src family kinases at multiple Tyr residues including Tyr 734 . Dephosphorylation is mediated by PTP(s). Conversion of gp140 to p80 prolongs phosphorylation of p80 in response to suramin and changes in adhesion. This distinguishes gp140 and p80 and explains the relative abundance of phosphorylated p80 in trypsinized HKs. We conclude that phosphorylation of gp140 is dynamic and balanced by Src family kinase and PTPs yielding low equilibrium phosphorylation. We suggest that the balance is altered by conversion of gp140 to p80 and by adhesion, providing a novel transmembrane phosphorylation signal in epithelial wounds.Wounding of quiescent epidermis activates changes in adhesion and cell signaling resulting in keratinocyte migration, basement membrane (BM) 1 repair, and wound closure (1-3).Based on an in vitro model for wound activation, we reported that trypsin detachment of cultured human foreskin keratinocytes (HKs) promotes phosphorylation of tyrosine residues on an 80-kDa membrane glycoprotein (p80) (4). Phosphorylated p80 (P-p80) in suspended HKs is dephosphorylated upon readhesion to laminin 5 via integrins ␣ 6 ␤ 4 and ␣ 3 ␤ 1 . In work here, we purified and characterized p80. We wished to understand whether phosphorylated p80 identified in an in vitro deadhesion/readhesion screen (4) might be involved in physiologically significant wound activation. Quiescent epidermis adheres to laminin 5 in the BM via integrin ␣ 6 ␤ 4 in hemidesmosome (HD) cell junctions. Wounding epidermis generates leading and following subpopulations of keratinocytes at the wound margin (5). Leading keratinocytes migrate over exposed dermal collagen via integrin ␣ 2 ␤ 1 and fibronectin via integrin ␣ 5 ␤ 1 . However, leading cells also deposit laminin 5 as a provisional BM and interact with these deposits via integrin ␣ 3 ␤ 1 (5-7). The interaction of leading cells with deposited laminin 5 generates distinct transmembrane signals when compared with interaction with dermal ligands. For example,...

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Protein kinase C spatially and temporally regulates gap junctional communication during human wound repair via phosphorylation of connexin43 on serine368

et al. 2004

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Phosphorylation of connexin43 (Cx43) on serine368 (S368) has been shown to decrease gap junctional communication via a reduction in unitary channel conductance. Examination of phosphoserine368 (pS368) in normal human skin tissue using a phosphorylation site–specific antibody showed relatively even distribution throughout the epidermal layers. However, 24 h after wounding, but not at 6 or 72 h, pS368 levels were dramatically increased in basal keratinocytes and essentially lost from suprabasal layers adjacent to the wound (i.e., within 200 μm of it). Scratch wounding of primary human keratinocytes caused a protein kinase C (PKC)-dependent increase in pS368 in cells adjacent to the scratch, with a time course similar to that found in the wounds. Keratinocytes at the edge of the scratch also transferred dye much less efficiently at 24 h, in a manner dependent on PKC. However, keratinocyte migration to fill the scratch required early (within <6 h) gap junctional communication. Our evidence indicates that PKC-dependent phosphorylation of Cx43 at S368 creates dynamic communication compartments that can temporally and spatially regulate wound healing.

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Connexin43 phosphorylation in brain, cardiac, endothelial and epithelial tissues

Márquez-Rosado

Solan

Dunn

et al. 2012

Biochimica et Biophysica Acta (BBA) - Biomembranes

114

100

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Gap junctions, composed of proteins from the connexin family, allow for intercellular communication between cells in essentially all tissues. There are 21 connexin genes in the human genome and different tissues express different connexin genes. Most connexins are known to be phosphoproteins. Phosphorylation can regulate connexin assembly into gap junctions, gap junction turnover and channel gating. Given the importance of gap junctions in development, proliferation and carcinogenesis, regulation of gap junction phosphorylation in response to wounding, hypoxia and other tissue insults is proving to be critical for cellular response and return to homeostasis. Connexin43 (Cx43) is the most widely and highly expressed gap junction protein, both in cell culture models and in humans, thus more research has been done on it and more reagents to it are available. In particular, antibodies that can report Cx43 phosphorylation status have been created allowing temporal examination of specific phosphorylation events in vivo. This review is focused on the use of these antibodies in tissue in situ, predominantly looking at Cx43 phosphorylation in brain, heart, endothelium and epithelium with reference to other connexins where data is available. These data allow us to begin to correlate specific phosphorylation events with changes in cell and tissue function.

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MAPK Phosphorylation of Connexin 43 Promotes Binding of Cyclin E and Smooth Muscle Cell Proliferation

et al. 2012

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Rationale De-differentiation of vascular smooth muscle cells (VSMC) leading to a proliferative cell phenotype significantly contributes to the development of atherosclerosis. Mitogen activated protein kinase (MAPK) phosphorylation of proteins including connexin 43 (Cx43) has been associated with VSMC proliferation in atherosclerosis. Objective To investigate whether MAPK phosphorylation of Cx43 is directly involved in VSMC proliferation. Methods and Results We show in vivo that MAPK phosphorylated Cx43 forms complexes with the cell cycle control proteins cyclin E and CDK2 in carotids of apolipoprotein-E receptor null (ApoE−/−) mice and in C57Bl/6 mice treated with platelet-derived growth factor–BB (PDGF). We tested the involvement of Cx43 MAPK phosphorylation in vitro using constructs for full length Cx43 (Cx43) or the Cx43 C-terminus (Cx43CT) and produced null phosphorylation Ser>Ala (Cx43MK4A/ Cx43CTMK4A) and phospho-mimetic Ser>Asp (Cx43MK4D/Cx43CTMK4D) mutations. Co-immunoprecipitation studies in primary VSMC isolated from Cx43 wild type (Cx43+/+) and Cx43 null (Cx43−/−) mice and analytical size exclusion studies of purified proteins identify that interactions between cyclin E and Cx43 requires Cx43 MAPK phosphorylation. We further demonstrate that Cx43 MAPK phosphorylation is required for PDGF mediated VSMC proliferation. Finally using a novel knock-in mouse containing Cx43-MK4A mutation we show in vivo that interactions between Cx43 and cyclin E are lost and VSMC proliferation does not occur following treatment of carotids with PDGF and that neointima formation is significantly reduced in carotids following injury. Conclusions We identify MAPK phosphorylated Cx43 as a novel interacting partner of cyclin E in VSMC and show that this interaction is critical for VSMC proliferation. This novel interaction may be important in the development of atherosclerotic lesions.

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Activation of Akt, Not Connexin 43 Protein Ubiquitination, Regulates Gap Junction Stability

Dunn

Lau

et al. 2012

Journal of Biological Chemistry

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The role of membrane microdomains in transmembrane signaling through the epithelial glycoprotein Gp140/CDCP1

Alvares

Dunn

Brown

et al. 2008

Biochimica et Biophysica Acta (BBA) - General Subjects

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Cell adhesion to the extracellular matrix (ECM) via integrin adhesion receptors initiates signaling cascades leading to changes in cell behavior. While integrin clustering is necessary to initiate cell attachment to the matrix, additional membrane components are necessary to mediate the transmembrane signals and the cell adhesion response that alter downstream cell behavior. Many of these signaling components reside in glycosphingolipid-rich and cholesterol-rich membrane domains such as Tetraspanin Enriched Microdomains (TEMs)/Glycosynapse 3 and DetergentResistant Microdomains (DRMs), also known as lipid rafts. In the following article, we will review examples of how components in these membrane microdomains modulate integrin adhesion after initial attachment to the ECM. Additionally, we will present data on a novel adhesion-responsive transmembrane glycoprotein Gp140/CUB Domain Containing Protein 1, which clusters in epithelial cell-cell contacts. Gp140 can then be phosphorylated by Src Family Kinases at tyrosine 734 in response to outside-in signals-possibly through interactions involving the extracellular CUB domains. Data presented here suggests that outside-in signals through Gp140 in cell-cell contacts assemble membrane clusters that associate with membrane microdomains to recruit and activate SFKs. Active SFKs then mediate phosphorylation of Gp140, SFK and PKCδ with Gp140 acting as a transmembrane scaffold for these kinases. We propose that the clustering of Gp140 and signaling components in membrane microdomains in cell-cell contacts contributes to changes in cell behavior.

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Phosphorylation of connexin43 at MAPK, PKC or CK1 sites each distinctly alter the kinetics of epidermal wound repair

Lastwika

Dunn

Solan

et al. 2019

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The gap junction protein connexin 43 (Cx43) is a key player in wound healing, and inhibitors of Cx43, which speed epidermal wound healing, are currently in clinical trials. Here, we provide direct in vivo evidence that specific phosphorylation events on Cx43 change the physiological response during wound healing. Blocking phosphorylation, through mutation of serine residues in Cx43 at the protein kinase C (PKC) or casein kinase 1 (CK1) sites, significantly slowed the rate of wound closure in vivo and in vitro and resulted in a thicker epidermal layer after reepithelialization. Conversely, preventing Cx43 phosphorylation by mitogen-activated protein kinases (MAPKs) through mutation significantly increased the rate of wound closure in vivo. Defects in migration, but not proliferation, in all mutants were partially rescued in vitro by changing serine residues to aspartic or glutamic acid. These data prove that specific Cx43 phosphorylation events play an important role at different stages of wound healing. Thus, a clear physiological understanding of the spatiotemporal regulation of kinase activation and consequent effects on gap junctions could lead to a more targeted approach to modulating Cx43 expression during wound healing.

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Clarence A. Dunn

Injury-triggered Akt phosphorylation of Cx43: a ZO-1-driven molecular switch that regulates gap junction size

Adhesion or Plasmin Regulates Tyrosine Phosphorylation of a Novel Membrane Glycoprotein p80/gp140/CUB Domain-containing Protein 1 in Epithelia

Protein kinase C spatially and temporally regulates gap junctional communication during human wound repair via phosphorylation of connexin43 on serine368

Connexin43 phosphorylation in brain, cardiac, endothelial and epithelial tissues

MAPK Phosphorylation of Connexin 43 Promotes Binding of Cyclin E and Smooth Muscle Cell Proliferation

Activation of Akt, Not Connexin 43 Protein Ubiquitination, Regulates Gap Junction Stability

The role of membrane microdomains in transmembrane signaling through the epithelial glycoprotein Gp140/CDCP1

Phosphorylation of connexin43 at MAPK, PKC or CK1 sites each distinctly alter the kinetics of epidermal wound repair

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