ICln: a new regulator of non-erythroid 4.1R localisation and function.

Claudia Bazzini,Simona Rodighiero,Lorena Benedetti,Maura Francolini,Davide Civello,Maria Lisa Garavaglia,Chiara Zanoni,Giuliano Meyer,Valeria Rossetti,Markus Paulmichl,Davide Marchesi

doi:10.1371/journal.pone.0108826

Claudia Bazzini, Simona Rodighiero + Show 9 more

Open Access

https://doi.org/10.1371/journal.pone.0108826

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Abstract

To optimise the efficiency of cell machinery, cells can use the same protein (often called a hub protein) to participate in different cell functions by simply changing its target molecules. There are large data sets describing protein-protein interactions (“interactome”) but they frequently fail to consider the functional significance of the interactions themselves. We studied the interaction between two potential hub proteins, ICln and 4.1R (in the form of its two splicing variants 4.1R80 and 4.1R135), which are involved in such crucial cell functions as proliferation, RNA processing, cytoskeleton organisation and volume regulation. The sub-cellular localisation and role of native and chimeric 4.1R over-expressed proteins in human embryonic kidney (HEK) 293 cells were examined. ICln interacts with both 4.1R80 and 4.1R135 and its over-expression displaces 4.1R from the membrane regions, thus affecting 4.1R interaction with ß-actin. It was found that 4.1R80 and 4.1R135 are differently involved in regulating the swelling activated anion current (ICl,swell) upon hypotonic shock, a condition under which both isoforms are dislocated from the membrane region and thus contribute to ICl,swell current regulation. Both 4.1R isoforms are also differently involved in regulating cell morphology, and ICln counteracts their effects. The findings of this study confirm that 4.1R plays a role in cell volume regulation and cell morphology and indicate that ICln is a new negative regulator of 4.1R functions.

Highlights

ICln [1] is a ubiquitously expressed and highly conserved [2] 26 kDa protein, whose knock-out in mice is lethal [3]
Our findings strongly suggest a new role for ICln as a regulator of 4.1R localisation and function, and confirm that 4.1R plays a role in cell volume regulation
We used FRET studies to investigate the in vivo sub-cellular localisation of the 4.1R/ICln interaction, and the specific relationship between ICln and 80 or 135 kDa isoforms, using YFP-tagged 4.1R (Y-4.1R80 and Y-4.1R135) and CFP-tagged ICln (C-ICln)

Summary

Introduction

ICln [1] is a ubiquitously expressed and highly conserved [2] 26 kDa protein, whose knock-out in mice is lethal [3] This is consistent with its essential role in one or more basic cell processes, and it has been proposed to be a connector hub [4] of such diverse cell functions as ion permeation [5], cytoskeletal organisation [6,7,8,9] and RNA processing [10]. The ICln binding/ unbinding regulation of cytoskeletal proteins may be an important step in the modulation of channel/transporter function because ICln interacts with actin [6,7] and, in renal collecting duct cells, this interaction increases after cell swelling [14]

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