Desmoglein-1/Erbin interaction suppresses ERK activation to support epidermal differentiation
Robert M. Harmon, Cory L. Simpson, Jodi L. Johnson, Jennifer L. Koetsier, Adi D. Dubash, Nicole A. Najor, Ofer Sarig, Eli Sprecher, Kathleen J. Green
Robert M. Harmon, Cory L. Simpson, Jodi L. Johnson, Jennifer L. Koetsier, Adi D. Dubash, Nicole A. Najor, Ofer Sarig, Eli Sprecher, Kathleen J. Green
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Research Article

Desmoglein-1/Erbin interaction suppresses ERK activation to support epidermal differentiation

Abstract

Genetic disorders of the Ras/MAPK pathway, termed RASopathies, produce numerous abnormalities, including cutaneous keratodermas. The desmosomal cadherin, desmoglein-1 (DSG1), promotes keratinocyte differentiation by attenuating MAPK/ERK signaling and is linked to striate palmoplantar keratoderma (SPPK). This raises the possibility that cutaneous defects associated with SPPK and RASopathies share certain molecular faults. To identify intermediates responsible for executing the inhibition of ERK by DSG1, we conducted a yeast 2-hybrid screen. The screen revealed that Erbin (also known as ERBB2IP), a known ERK regulator, binds DSG1. Erbin silencing disrupted keratinocyte differentiation in culture, mimicking aspects of DSG1 deficiency. Furthermore, ERK inhibition and the induction of differentiation markers by DSG1 required both Erbin and DSG1 domains that participate in binding Erbin. Erbin blocks ERK signaling by interacting with and disrupting Ras-Raf scaffolds mediated by SHOC2, a protein genetically linked to the RASopathy, Noonan-like syndrome with loose anagen hair (NS/LAH). DSG1 overexpression enhanced this inhibitory function, increasing Erbin-SHOC2 interactions and decreasing Ras-SHOC2 interactions. Conversely, analysis of epidermis from DSG1-deficient patients with SPPK demonstrated increased Ras-SHOC2 colocalization and decreased Erbin-SHOC2 colocalization, offering a possible explanation for the observed epidermal defects. These findings suggest a mechanism by which DSG1 and Erbin cooperate to repress MAPK signaling and promote keratinocyte differentiation.

Authors

Robert M. Harmon, Cory L. Simpson, Jodi L. Johnson, Jennifer L. Koetsier, Adi D. Dubash, Nicole A. Najor, Ofer Sarig, Eli Sprecher, Kathleen J. Green

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Figure 6

Overexpression of DSG1 enhances the interaction of Erbin with the Ras-Raf scaffolding protein SHOC2 and diminishes the formation of SHOC2-Ras complexes.

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Overexpression of DSG1 enhances the interaction of Erbin with the Ras-Ra...
(A) RIPA lysates collected from NHEK cultures infected with GFP, FLAG-tagged DSG1 cytoplasmic domains (Δ569), or FLD were incubated with anti-SHOC2–coated sepharose beads. A combination of the 3 lysates (Pool) was incubated with nonspecific rabbit IgG–coated (rIgG-coated) beads as a negative control. Immunoprecipitated protein and corresponding lysate were analyzed by SDS-PAGE and Western blotting for Erbin, SHOC2, FLAG, and K-Ras. Stars mark putative degradation products. Numbers in parentheses represent densitometric measurement of the specified proteins found in the immunoprecipitations of endogenous SHOC2. Values were converted to fold change over/under the GFP value after subtracting background found in the rabbit IgG immunoprecipitation and normalization to the amount of precipitated SHOC2. (B) Diagram of the proposed formation and Erbin-mediated disruption of Ras-Raf-SHOC2 complexes in the presence or absence of DSG1.