The Phosphatase PTPL1 Is Required for PTEN-Mediated Regulation of Apical Membrane Size.

Lucas J M Bruurs,Fried J Zwartkruis,Axel K M Rosendahl Huber,Anneke Post,Susan Zwakenberg,Mirjam C Van Der Net,Johannes L Bos

doi:10.1128/mcb.00102-18

Lucas J M Bruurs, Fried J Zwartkruis + Show 5 more

Open Access

https://doi.org/10.1128/mcb.00102-18

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Abstract

ABSTRACTPTEN is a tumor suppressor that is frequently lost in epithelial malignancies. A part of the tumor-suppressive properties of PTEN is attributed to its function in cell polarization and consequently its role in maintaining epithelial tissue integrity. However, surprisingly little is known about the function and regulation of PTEN during epithelial cell polarization. We used clustered regularly interspaced short palindromic repeat (CRISPR)/Cas9-mediated gene disruption to delete PTEN in intestinal epithelial Ls174T:W4 cells, which upon differentiation form a microvillus-covered apical membrane (brush border) on a part of the cell cortex, independent of cell-cell junctions. We show that loss of PTEN results in the formation of a larger brush border that, in a fraction of the cells, even spans the entire plasma membrane, revealing that PTEN functions in the regulation of apical membrane size. Depletion of the phosphatase PTPL1 resulted in a similar defect. PTPL1 interacts with PTEN, and this interaction is necessary for apical membrane enrichment of PTEN. Importantly, phosphatase activity of PTPL1 is not required, indicating that PTPL1 functions as an anchor protein in this process. Our work thus demonstrates a novel function for PTEN during cell polarization in controlling apical membrane size and identifies PTPL1 as a critical apical membrane anchor for PTEN in this process.

Highlights

PTEN is a tumor suppressor that is frequently lost in epithelial malignancies
We identified PTPL1, a protein tyrosine phosphatase and putative tumor suppressor protein [18], as a PTEN binding partner required in this process
To demonstrate that the microvilli in PTEN knockout cells represent a bona fide apical brush border, we assessed the distributions of the apical membrane determinant yellow fluorescent protein (YFP)-Par3 and the brush border marker green fluorescent protein (GFP)-EBP50 in these cells [16, 19]

Summary

Introduction

PTEN is a tumor suppressor that is frequently lost in epithelial malignancies. A part of the tumor-suppressive properties of PTEN is attributed to its function in cell polarization and its role in maintaining epithelial tissue integrity. We show that loss of PTEN results in the formation of a larger brush border that, in a fraction of the cells, even spans the entire plasma membrane, revealing that PTEN functions in the regulation of apical membrane size. Cells polarize and form a microvillus-covered apical membrane (brush border) in the absence of cell-cell junctions after forced activation of LKB1 by doxycycline-induced expression of its coactivator STRAD␣ [17]. Because of this feature of Ls174T:W4 cells, it is possible to uncouple cell-intrinsic PTEN signaling from junction-dependent PTEN signaling

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