Literature DB >> 8119975

A dual role for COOH-terminal lysine residues in pre-Golgi retention and endocytosis of ERGIC-53.

F Kappeler1, C Itin, R Schindler, H P Hauri.   

Abstract

ERGIC-53 (former designation, p53) is a 53-kDa nonglycosylated, dimeric, and hexameric type I membrane protein that has been established as a marker protein for a tubulovesicular intermediate compartment in which protein transport from the endoplasmic reticulum to the Golgi apparatus is blocked at 15 degrees C. Although ERGIC-53 is not a resident protein of the rough endoplasmic reticulum its cDNA sequence carries a double lysine endoplasmic reticulum retention motif at the cytoplasmically exposed COOH terminus. Here we report that overexpression of ERGIC-53 in COS cells saturates its intracellular retention system leading to the appearance of ERGIC-53 at the cell surface. Cell surface ERGIC-53 is efficiently endocytosed by a mechanism that is disturbed when the two critical lysines of the endoplasmic reticulum retention motif are replaced by serines. The results suggest a mechanistic similarity of pre-Golgi retention by the double lysine motif and lysine-based endocytosis.

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Year:  1994        PMID: 8119975

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  9 in total

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5.  A novel endocytosis signal related to the KKXX ER-retrieval signal.

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6.  Targeting of protein ERGIC-53 to the ER/ERGIC/cis-Golgi recycling pathway.

Authors:  C Itin; R Schindler; H P Hauri
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Review 7.  Endoplasmic reticulum chaperones and oxidoreductases: critical regulators of tumor cell survival and immunorecognition.

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Journal:  Front Oncol       Date:  2014-10-27       Impact factor: 6.244

8.  Identification of an ER retrieval signal in a retroviral glycoprotein.

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9.  The intracellular cargo receptor ERGIC-53 is required for the production of infectious arenavirus, coronavirus, and filovirus particles.

Authors:  Joseph P Klaus; Philip Eisenhauer; Joanne Russo; Anne B Mason; Danh Do; Benjamin King; Douglas Taatjes; Cromwell Cornillez-Ty; Jonathan E Boyson; Markus Thali; Chunlei Zheng; Lujian Liao; John R Yates; Bin Zhang; Bryan A Ballif; Jason W Botten
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  9 in total

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