Abstract
We previously described enterophilin-1 (Ent-1), a new intestinal protein bearing an extended leucine zipper and a B30.2 domain. Ent-1 expression is associated with growth arrest and enterocyte differentiation. To investigate the importance of Ent-1 in the differentiation, we performed a yeast two-hybrid screening. We identified sorting nexin 1 (SNX1) as a novel partner of Ent-1 and confirmed the specificity of interaction by co-immunoprecipitation experiments in mammalian cells. SNX1 is associated with endosomal membranes and triggers the endosome-to-lysosome pathway of epidermal growth factor receptor (EGFR). We observe by immunofluorescence microscopy that Ent-1 and SNX1 are co-localized on vesicular and tubulovesicular structures, which are different from early endosome antigen 1-containing endosomes. By gel filtration chromatography, we show that Ent-1 and SNX1 co-eluted in macromolecular complexes containing part of EGFR. Furthermore, overexpressed Ent-1 decreases cell surface EGFR. Ent-1 and SNX1 co-overexpression strongly extends EGFR diminution, indicating a synergetic effect of both proteins on cell surface EGFR removal. Interestingly, the increase of endogenous Ent-1 expression correlates with the decrease of EGFR during spontaneous differentiation of Caco-2 cells. We thus propose a role of Ent-1 in the trafficking of EGFR to down-regulate intestinal mitogenic signals, highlighting the mechanisms of cell growth arrest associated with enterocytic differentiation.
Highlights
The intestinal epithelium undergoes continuous and rapid renewal, with proliferation of the multipotent stem cells limited to the crypts of Lieberkuhn
Even if the cell growth arrest is well known to be associated with the differentiation process, the link between these two phenomena remains a confused point in the study of epithelial cell differentiation
These data showed that the clones contained only a part of the coiled coil regions and the epidermal growth factor receptor (EGFR) binding domain of sorting nexin 1 (SNX1), indicating that these minimal regions are sufficient for binding to Ent-1
Summary
The intestinal epithelium undergoes continuous and rapid renewal, with proliferation of the multipotent stem cells limited to the crypts of Lieberkuhn. In human intestinal epithelial carcinoma Caco-2 cells, Ent-1 ortholog expression pattern was positively correlated to growth arrest and terminal differentiation program. To investigate the role of Ent-1 in growth arrest associated with enterocytic differentiation, we performed a yeast twohybrid screen to identify proteins interacting with Ent-1.
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