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A Rab1 Mutant Affecting Guanine Nucleotide Exchange Promotes Disassembly of the Golgi Apparatus

Bridget S. Wilson, Claude Nuoffer, Judy L. Meinkoth, Michael McCaffery, James R. Feramisco, William E. Balch and Marilyn Gist Farquhar
The Journal of Cell Biology
Vol. 125, No. 3 (May, 1994), pp. 557-571
Stable URL: http://www.jstor.org/stable/1616231
Page Count: 15
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A Rab1 Mutant Affecting Guanine Nucleotide Exchange Promotes Disassembly of the Golgi Apparatus
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Abstract

The Golgi apparatus is a dynamic organelle whose structure is sensitive to vesicular traffic and to cell cycle control. We have examined the potential role for rab1a, a GTPase previously associated with ER to Golgi and intra-Golgi transport, in the formation and maintenance of Golgi structure. Bacterially expressed, recombinant rab1a protein was microinjected into rat embryonic fibroblasts, followed by analysis of Golgi morphology by fluorescence and electron microscopy. Three recombinant proteins were tested: wild-type rab, mutant rab1a(S25N), a constitutively GDP-bound form, and mutant rab1a(N124I) defective in guanine nucleotide binding. Microinjection of wild-type rab1a protein or a variety of negative controls (injection buffer alone or activated ras protein) did not affect the appearance of the Golgi, as visualized by immunofluorescence of α-mannosidase II (Man II), used as a Golgi marker. In contrast, microinjection of the mutant forms promoted the disassembly of the Golgi stacks into dispersed vesicular structures visualized by immunofluorescence. When S25N-injected cells were analyzed by EM after immunoperoxidase labeling, Man II was found in isolated ministacks and large vesicular elements that were often surrounded by numerous smaller unlabeled vesicles resembling carrier vesicles. Golgi disassembly caused by rab1a mutants differs from BFA-induced disruption, since β-COP remains membrane associated, and Man II does not redistribute to the ER. BFA can still cause these residual Golgi elements to fuse and disperse, albeit at a slower rate. Moreover, BFA recovery is incomplete in the presence of rab1 mutants or GTPγS. We conclude that GTP exchange and hydrolysis by GTPases, specifically rab1a, are required to form and maintain normal Golgi stacks. The similarity of Golgi disassembly seen with rab1a mutants to that occurring during mitosis, may point to a molecular basis involving rab1a for fragmentation of the Golgi apparatus during cell division.

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