Literature DB >> 15917292

Lowe syndrome protein OCRL1 interacts with clathrin and regulates protein trafficking between endosomes and the trans-Golgi network.

Rawshan Choudhury1, Aipo Diao, Fang Zhang, Evan Eisenberg, Agnes Saint-Pol, Catrin Williams, Athanasios Konstantakopoulos, John Lucocq, Ludger Johannes, Catherine Rabouille, Lois E Greene, Martin Lowe.   

Abstract

Oculocerebrorenal syndrome of Lowe is caused by mutation of OCRL1, a phosphatidylinositol 4,5-bisphosphate 5-phosphatase localized at the Golgi apparatus. The cellular role of OCRL1 is unknown, and consequently the mechanism by which loss of OCRL1 function leads to disease is ill defined. Here, we show that OCRL1 is associated with clathrin-coated transport intermediates operating between the trans-Golgi network (TGN) and endosomes. OCRL1 interacts directly with clathrin heavy chain and promotes clathrin assembly in vitro. Interaction with clathrin is not, however, required for membrane association of OCRL1. Overexpression of OCRL1 results in redistribution of clathrin and the cation-independent mannose 6-phosphate receptor (CI-MPR) to enlarged endosomal structures that are defective in retrograde trafficking to the TGN. Depletion of cellular OCRL1 also causes partial redistribution of a CI-MPR reporter to early endosomes. These findings suggest a role for OCRL1 in clathrin-mediated trafficking of proteins from endosomes to the TGN and that defects in this pathway might contribute to the Lowe syndrome phenotype.

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Year:  2005        PMID: 15917292      PMCID: PMC1182289          DOI: 10.1091/mbc.e05-02-0120

Source DB:  PubMed          Journal:  Mol Biol Cell        ISSN: 1059-1524            Impact factor:   4.138


  56 in total

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2.  Characterization of coated-vesicle adaptors: their reassembly with clathrin and with recycling receptors.

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Journal:  Methods Cell Biol       Date:  1989       Impact factor: 1.441

3.  Coated vesicles from human placenta carry ferritin, transferrin, and immunoglobulin G.

Authors:  B M Pearse
Journal:  Proc Natl Acad Sci U S A       Date:  1982-01       Impact factor: 11.205

4.  The protein deficient in Lowe syndrome is a phosphatidylinositol-4,5-bisphosphate 5-phosphatase.

Authors:  X Zhang; A B Jefferson; V Auethavekiat; P W Majerus
Journal:  Proc Natl Acad Sci U S A       Date:  1995-05-23       Impact factor: 11.205

5.  The oculocerebrorenal syndrome gene product is a 105-kD protein localized to the Golgi complex.

Authors:  I M Olivos-Glander; P A Jänne; R L Nussbaum
Journal:  Am J Hum Genet       Date:  1995-10       Impact factor: 11.025

6.  Properties of type II inositol polyphosphate 5-phosphatase.

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Journal:  J Biol Chem       Date:  1995-04-21       Impact factor: 5.157

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Authors:  P S McPherson; E P Garcia; V I Slepnev; C David; X Zhang; D Grabs; W S Sossin; R Bauerfeind; Y Nemoto; P De Camilli
Journal:  Nature       Date:  1996-01-25       Impact factor: 49.962

8.  FAPPs control Golgi-to-cell-surface membrane traffic by binding to ARF and PtdIns(4)P.

Authors:  Anna Godi; Antonella Di Campli; Athanasios Konstantakopoulos; Giuseppe Di Tullio; Dario R Alessi; Gursant S Kular; Tiziana Daniele; Pierfrancesco Marra; John M Lucocq; M Antonietta De Matteis
Journal:  Nat Cell Biol       Date:  2004-04-25       Impact factor: 28.824

9.  A novel class of clathrin-coated vesicles budding from endosomes.

Authors:  W Stoorvogel; V Oorschot; H J Geuze
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Review 10.  PI-loting membrane traffic.

Authors:  Maria Antonietta De Matteis; Anna Godi
Journal:  Nat Cell Biol       Date:  2004-06       Impact factor: 28.824
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  84 in total

1.  OCRL1 modulates cilia length in renal epithelial cells.

Authors:  Youssef Rbaibi; Shanshan Cui; Di Mo; Marcelo Carattino; Rajeev Rohatgi; Lisa M Satlin; Christina M Szalinski; Lisa M Swanhart; Heike Fölsch; Neil A Hukriede; Ora A Weisz
Journal:  Traffic       Date:  2012-07-04       Impact factor: 6.215

2.  AGAP2 regulates retrograde transport between early endosomes and the TGN.

Authors:  Yoko Shiba; Winfried Römer; Gonzalo A Mardones; Patricia V Burgos; Christophe Lamaze; Ludger Johannes
Journal:  J Cell Sci       Date:  2010-06-15       Impact factor: 5.285

Review 3.  Phosphoinositides and vesicular membrane traffic.

Authors:  Peter Mayinger
Journal:  Biochim Biophys Acta       Date:  2012-01-14

4.  Mouse model for Lowe syndrome/Dent Disease 2 renal tubulopathy.

Authors:  Susan P Bothwell; Emily Chan; Isa M Bernardini; Yien-Ming Kuo; William A Gahl; Robert L Nussbaum
Journal:  J Am Soc Nephrol       Date:  2010-12-23       Impact factor: 10.121

Review 5.  Cargo trafficking between endosomes and the trans-Golgi network.

Authors:  Pei Zhi Cheryl Chia; Priscilla Gunn; Paul A Gleeson
Journal:  Histochem Cell Biol       Date:  2013-07-14       Impact factor: 4.304

6.  A role of the Lowe syndrome protein OCRL in early steps of the endocytic pathway.

Authors:  Kai S Erdmann; Yuxin Mao; Heather J McCrea; Roberto Zoncu; Sangyoon Lee; Summer Paradise; Jan Modregger; Daniel Biemesderfer; Derek Toomre; Pietro De Camilli
Journal:  Dev Cell       Date:  2007-09       Impact factor: 12.270

7.  Abnormal bradykinin signalling in fibroblasts deficient in the PIP(2) 5-phosphatase, ocrl1.

Authors:  S F Suchy; J C Cronin; R L Nussbaum
Journal:  J Inherit Metab Dis       Date:  2009-01-28       Impact factor: 4.982

Review 8.  Lysosome dysfunction in the pathogenesis of kidney diseases.

Authors:  Kameswaran Surendran; Seasson P Vitiello; David A Pearce
Journal:  Pediatr Nephrol       Date:  2013-11-12       Impact factor: 3.714

Review 9.  APPL1: role in adiponectin signaling and beyond.

Authors:  Sathyaseelan S Deepa; Lily Q Dong
Journal:  Am J Physiol Endocrinol Metab       Date:  2008-10-14       Impact factor: 4.310

10.  The 5-phosphatase OCRL mediates retrograde transport of the mannose 6-phosphate receptor by regulating a Rac1-cofilin signalling module.

Authors:  Vanessa A van Rahden; Kristina Brand; Juliane Najm; Joerg Heeren; Suzanne R Pfeffer; Thomas Braulke; Kerstin Kutsche
Journal:  Hum Mol Genet       Date:  2012-08-19       Impact factor: 6.150
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