Sphingomyelin Metabolism is Involved in the Differentiation of MDCK Cells Induced by Environmental Hypertonicity

Overview

Journal J Lipid Res

Publisher Elsevier

Specialty Biochemistry

Date 2015 Feb 12

PMID 25670801

Citations 6

Authors

Nicolas Octavio Favale

Bruno Jaime Santacreu

Lucila Gisele Pescio

Maria Gabriela Marquez

Norma Beatriz Sterin-Speziale

Affiliations

Soon will be listed here.

Abstract

Sphingolipids (SLs) are relevant lipid components of eukaryotic cells. Besides regulating various cellular processes, SLs provide the structural framework for plasma membrane organization. Particularly, SM is associated with detergent-resistant microdomains. We have previously shown that the adherens junction (AJ) complex, the relevant cell-cell adhesion structure involved in cell differentiation and tissue organization, is located in an SM-rich membrane lipid domain. We have also demonstrated that under hypertonic conditions, Madin-Darby canine kidney (MDCK) cells acquire a differentiated phenotype with changes in SL metabolism. For these reasons, we decided to evaluate whether SM metabolism is involved in the acquisition of the differentiated phenotype of MDCK cells. We found that SM synthesis mediated by SM synthase 1 is involved in hypertonicity-induced formation of mature AJs, necessary for correct epithelial cell differentiation. Inhibition of SM synthesis impaired the acquisition of mature AJs, evoking a disintegration-like process reflected by the dissipation of E-cadherin and β- and α-catenins from the AJ complex. As a consequence, MDCK cells did not develop the hypertonicity-induced differentiated epithelial cell phenotype.

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