A role for GRIP domain proteins and/or their ligands in structure and function of the trans Golgi network

doi:10.1242/jcs.00746

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JCS ePress online publication date 16 Sep 2003
doi: 10.1242/jcs.00746

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Research Article

A role for GRIP domain proteins and/or their ligands in structure and function of the trans Golgi network

Atsuko Yoshino, Bert M. Bieler, Dawn C. Harper, David A. Cowan, Shaheen Sutterwala, Denise M. Gay, Nelson B. Cole, J. Michael McCaffery, and Michael S. Marks^*
^* Author for correspondence (e-mail: marksm{at}mail.med.upenn.edu)

tGolgin-1 (golgin-245, trans golgi p230) and golgin-97 aremembers of a family of peripheral membrane proteins of unknownfunction that localize to the trans Golgi network (TGN) througha conserved C-terminal GRIP domain. We have probed for GRIPprotein function by assessing the consequences of overexpressingisolated GRIP domains. By semi-quantitative immunofluorescencemicroscopy we found that high level expression of epitope-tagged,GRIP domain-containing fragments of tGolgin-1 or golgin-97 specificallyaltered the characteristic pericentriolar distribution of TGNintegral membrane and coat components. Concomitantly, vesiculartransport from the TGN to the plasma membrane and furin-dependentcleavage of substrate proteins in the TGN were inhibited. Mutagenesisof a conserved tyrosine in the tGolgin-1 GRIP domain abolishedthese effects. GRIP domain overexpression had little effecton the distribution of most Golgi stack resident proteins andno effect on markers of other organelles. Electron microscopyanalyses of GRIP domain-overexpressing cells revealed distendedperinuclear vacuoles and a proliferation of multivesicular lateendosomes to which the TGN resident protein TGN46 was largelymislocalized. These studies, the first to address the functionof GRIP domain-containing proteins in higher eukaryotes, suggestthat some or all of these proteins and/or their ligands functionin maintaining the integrity of the TGN by regulating residentprotein localization.

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