It's a chaperone ... it's a gatekeeper ... it's BiP

doi:10.1083/jcb1562iti1

Published 21 January 2002. doi:10.1083/jcb1562iti1

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© The Rockefeller University Press, 0021-9525/2002/1/218 $5.00
The Journal of Cell Biology, Volume 156, Number 2, January 21, 2002 218-218

In This Issue

It's a chaperone ... it's a gatekeeper ... it's BiP

BiP seals the pore.

Imagine insertinga piece of string into an inflated balloon without letting anyof the air out. Ananalogous problem confronts cells in the productionof integral membrane-spanning proteins, which must be insertedpartway into the ER without letting the ER calcium stores leakinto the cytoplasm. On page 261, Haigh and Johnson show thatthe ER lumenal chaperone protein BiP controls one end of a doubledoor system at the translocon, the pore through which nascentproteins enter the ER, and propose a model to explain how thecell accomplishes the daunting task of regulating this doubledoor.

On the cytoplasmic side of the ER membrane, the ribosome bindsto the translocon to seal it while translocating a nascent polypeptideinto the ER lumen. But the ribosome must break this seal toallow a cytoplasmic domain to extend into the cytoplasm. Somemechanism must exist to seal the lumenal side of the transloconwhen this happens.

Using a clever fluorescence quenching assay in isolated microsomes,the authors found that BiP is required to seal the lumenal sideof the translocon pore at certain stages during the integrationof a transmembrane protein, and that BiP can do this even inthe absence of other lumenal proteins. This activity of BiPrequires ATP hydrolysis, suggesting that the protein may usesimilar mechanisms in its diverse duties as a chaperone andpore sealer.

The authors propose that translation of a transmembrane sequencecauses a BiP-mediated closure of the lumenal side of a translocon,allowing the ribosomal seal to be opened on the cytoplasmicside without breaching the ER membrane. Future studies willfocus on identifying the domains of BiP responsible for sealingthe translocon, and determining how BiP and the ribosome coordinatetheir actions across the ER membrane. ${blacksquare}$

Alan W. Dove

alanwdove{at}earthlink.net

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A new role for BiP: closing the aqueous translocon pore during protein integration into the ER membrane: Nora G. Haigh and Arthur E. Johnson
J. Cell Biol. 2002 156: 261-270. [Abstract] [Full Text] [PDF]

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