14-3-3γ meditated transport of plakoglobin to the cell border is required for the initiation of desmosome assembly in vitro and in vivo

Sehgal, Lalit; Mukhopadhyay, Asok; Rajan, A.; Khapare, Nileema; Sawant, Mayur; Vishal, Sonali S.; Bhatt, Khyati; Ambatipudi, Srikant; Antao, Noelle; Alam, Hunain; Gurjar, Murari; Basu, Srikanta; Mathur, Rohit; Borde, Lalit; Hosing, Amol S.; Vaidya, Milind M.; Thorat, Rahul; Samaniego, Felipe; Kolthur‐Seetharam, Ullas; Dalal, Sorab N.

doi:10.1242/jcs.125807

Cited by 14 publications

(17 citation statements)

References 79 publications

(99 reference statements)

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“…Therefore, these are two distinct molecular mechanisms, and they reflect the diversity of mechanisms by which the 14-3-3 protein family regulates cellular pathways. These results are also consistent with data from our laboratory and from other laboratories suggesting that different 14-3-3 isoforms form complexes with and alter the function of different ligands, leading to differences in phenotype both in cells in culture and in mouse models (70,(82)(83)(84)(85).…”

Section: Discussionsupporting

confidence: 92%

“…Immunofluorescence and Confocal Microscopy-Immunofluorescence with antibodies against plakoglobin, desmocollin2/3, desmoglein2, HA, plakophilin3, desmoplakin, ZO1, E-cadherin, ␤-catenin, ␣-tubulin, and keratin8 were performed as described (66,69,70). Vimentin (Sigma; dilution, 1:500) or N-cadherin (BD Transduction Laboratories; dilution, 1:10) were immunostained using methanol fixation as described (66).…”

Section: Methodsmentioning

confidence: 99%

“…Reverse Transcription-PCR and Quantitative Real Time PCR-Reverse transcription assays and quantitative real time PCR were performed as described (70,72). Primers used for both RT-PCR and quantitative real time PCR for PKP3, CK8, CK18, vimentin, c-Jun, and different 14-3-3 isoforms were described previously (65,72,73).…”

Section: Methodsmentioning

confidence: 99%

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14-3-3σ Gene Loss Leads to Activation of the Epithelial to Mesenchymal Transition Due to the Stabilization of c-Jun Protein

Raychaudhuri

Chaudhary

Gurjar

et al. 2016

Journal of Biological Chemistry

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Section: Discussionsupporting

confidence: 92%

Section: Methodsmentioning

confidence: 99%

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14-3-3σ Gene Loss Leads to Activation of the Epithelial to Mesenchymal Transition Due to the Stabilization of c-Jun Protein

Raychaudhuri

Chaudhary

Gurjar

et al. 2016

Journal of Biological Chemistry

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“…This suggests that there is a scaffold intermediate that may facilitate interaction between 14-3-3/keratin protein complexes and other molecules of the cell-cell junction, and which may play a role in the reorganization event. 14-3-3 has been demonstrated to associate with a number of molecules important for the linkage of cytokeratins to the cell-cell adhesion (Acehan et al, 2008) including plakoglobin (Sehgal et al, 2014;Vishal et al, 2018) and plakophilin (Jin et al, 2004;Roberts et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…14-3-3 homo-and heterodimers have been shown to exert control over target substrates by alternatively limiting or enhancing affinity of these molecules for other binding partners (Tzivion et al, 2000;Margolis et al, 2006;Zhou et al, 2010;Obsil and Obsilova, 2011). In this fashion, 14-3-3 proteins are recognized to modulate the activity of a variety of IFs (Li et al, 2006;Miao et al, 2013), as well as other cytoskeleton associated proteins such as motors and scaffold molecules (Jin et al, 2004;Roberts et al, 2013;Sehgal et al, 2014;Vishal et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

14-3-3 recruits keratin intermediate filaments to mechanically sensitive cell-cell contacts

Mariani

Paranjpe

Dobrowolski

et al. 2018

Preprint

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Abbreviations: FRAP fluorescence recovery after photobleaching IFs intermediate filaments LC/MS-MS liquid chromatography, tandem mass spectrometry Abstract Intermediate filament cytoskeletal networks simultaneously support mechanical integrity and influence signal transduction pathways. Marked remodeling of the keratin intermediate filament network accompanies collective cellular morphogenetic movements that occur during early embryonic development in the frog Xenopus laevis. While this reorganization of keratin isinitiated by force transduction on cell-cell contacts mediated by C-cadherin, the mechanism by which keratin filament reorganization occurs remains poorly understood. In this work we demonstrate that 14-3-3 proteins regulate keratin reorganization dynamics in embryonic mesendoderm cells from Xenopus gastrula. 14-3-3 co-localizes with keratin filaments near cellcell junctions in migrating mesendoderm. Co-immunoprecipitation, mass spectrometry and bioinformatic analyses indicate Keratin 19 is a target of 14-3-3 in the whole embryo and, more specifically, mesendoderm tissue. Inhibition of 14-3-3 results in both the decreased exchange of keratin subunits into filaments and blocks keratin filament recruitment toward cell-cell contacts.Synthetically coupling 14-3-3 to Keratin 19 through a unique fusion construct conversely induces the localization of this keratin population to the region of cell-cell contacts. Taken together, these findings indicate that 14-3-3 acts on keratin intermediate filaments and is involved in their reorganization to sites of cell adhesion.

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Disruption of desmosome function leads to increased centrosome clustering in 14‐3‐3γ‐knockout cells with supernumerary centrosomes

et al. 2021

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14‐3‐3 proteins are conserved, dimeric, acidic proteins that regulate multiple cellular pathways. Loss of either 14‐3‐3ε or 14‐3‐3γ leads to centrosome amplification. However, we find that while the knockout of 14‐3‐3ε leads to multipolar mitoses, the knockout of 14‐3‐3γ results in centrosome clustering and pseudo‐bipolar mitoses. 14‐3‐3γ knockouts demonstrate compromised desmosome function and a decrease in keratin levels, leading to decreased cell stiffness and an increase in centrosome clustering. Restoration of desmosome function increased multipolar mitoses, whereas knockdown of either plakoglobin or keratin 5 led to decreased cell stiffness and increased pseudo‐bipolar mitoses. These results suggest that the ability of the desmosome to anchor keratin filaments maintains cell stiffness, thus inhibiting centrosome clustering, and that phenotypes observed upon 14‐3‐3 loss reflect the dysregulation of multiple pathways.

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14-3-3γ meditated transport of plakoglobin to the cell border is required for the initiation of desmosome assembly in vitro and in vivo

Cited by 14 publications

References 79 publications

14-3-3σ Gene Loss Leads to Activation of the Epithelial to Mesenchymal Transition Due to the Stabilization of c-Jun Protein

14-3-3σ Gene Loss Leads to Activation of the Epithelial to Mesenchymal Transition Due to the Stabilization of c-Jun Protein

14-3-3 recruits keratin intermediate filaments to mechanically sensitive cell-cell contacts

Disruption of desmosome function leads to increased centrosome clustering in 14‐3‐3γ‐knockout cells with supernumerary centrosomes

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