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EMILIN1-?4/?9 integrin interaction inhibits dermal fibroblast and keratinocyte proliferation.

ABSTRACT: EMILIN1 promotes ?4?1 integrin-dependent cell adhesion and migration and reduces pro-transforming growth factor-? processing. A knockout mouse model was used to unravel EMILIN1 functions in skin where the protein was abundantly expressed in the dermal stroma and where EMILIN1-positive fibrils reached the basal keratinocyte layer. Loss of EMILIN1 caused dermal and epidermal hyperproliferation and accelerated wound closure. We identified the direct engagement of EMILIN1 to ?4?1 and ?9?1 integrins as the mechanism underlying the homeostatic role exerted by EMILIN1. The lack of EMILIN1-?4/?9 integrin interaction was accompanied by activation of PI3K/Akt and Erk1/2 pathways as a result of the reduction of PTEN. The down-regulation of PTEN empowered Erk1/2 phosphorylation that in turn inhibited Smad2 signaling by phosphorylation of residues Ser245/250/255. These results highlight the important regulatory role of an extracellular matrix component in skin proliferation. In addition, EMILIN1 is identified as a novel ligand for keratinocyte ?9?1 integrin, suggesting prospective roles for this receptor-ligand pair in skin homeostasis.

SUBMITTER: Danussi C 

PROVIDER: S-EPMC3187715 | biostudies-literature | 2011 Oct

REPOSITORIES: biostudies-literature

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EMILIN1-α4/α9 integrin interaction inhibits dermal fibroblast and keratinocyte proliferation.

Danussi Carla C   Petrucco Alessandra A   Wassermann Bruna B   Pivetta Eliana E   Modica Teresa Maria Elisa TM   Del Bel Belluz Lisa L   Colombatti Alfonso A   Spessotto Paola P  

The Journal of cell biology 20110926 1

EMILIN1 promotes α4β1 integrin-dependent cell adhesion and migration and reduces pro-transforming growth factor-β processing. A knockout mouse model was used to unravel EMILIN1 functions in skin where the protein was abundantly expressed in the dermal stroma and where EMILIN1-positive fibrils reached the basal keratinocyte layer. Loss of EMILIN1 caused dermal and epidermal hyperproliferation and accelerated wound closure. We identified the direct engagement of EMILIN1 to α4β1 and α9β1 integrins  ...[more]

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