Palmitoylation of p59fyn is reversible and sufficient for plasma membrane association

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Palmitoylation of p59fyn is reversible and sufficient for plasma membrane association

A Wolven, H Okamura, Y Rosenblatt and MD Resh

Program in Molecular Biology, Cornell University Graduate School of Medical Sciences, New York, New York 10021, USA.

Members of the Src family of protein tyrosine kinases are localized to subspecialized regions of the plasma membrane. Herein we show that the N-terminal SH4 region of the Src family member p59fyn (Fyn) is both necessary and sufficient for targeting of Fyn and heterologous proteins to the plasma membrane and detergent-insoluble subdomains. Attachment of the first 16 amino acids of Fyn to a normally cytosolic protein, beta-galactosidase, resulted in distinct plasma membrane localization of the chimeric protein. Mutation of the palmitoylation site (cysteine- 3) within Fyn16-beta-galactosidase or wild-type Fyn abrogated plasma membrane localization, resulting in redistribution of the mutant proteins into intracellular membranes. Substitution of the SH4 motif within Fyn with heterologous sequences from other palmitoylated proteins (G alpha o and GAP43) revealed that the presence of palmitate is sufficient to direct plasma membrane localization independent of surrounding amino acid sequences and myristate. Palmitoylated Fyn chimeras were also enriched in the Triton X-100-resistant matrix, whereas nonpalmitoylated forms of these proteins were detected in the detergent-soluble fraction. The palmitate moiety on Fyn exhibited a half-life of 1.5-2 h. In contrast, the half-life of the polypeptide backbone was 8 h, indicating that palmitoylation is a reversible modification. These studies establish that the palmitoylated SH4 sequence of Fyn can be used to specifically target proteins to the plasma membrane in a reversible manner.

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Palmitoylation of p59fyn is reversible and sufficient for plasma membrane association

Volume 8, Issue 6, pp. 1159-1173, 06/01/1997 Copyright © 1997 by The American Society for Cell Biology

Volume 8, Issue 6, pp. 1159-1173, 06/01/1997
Copyright © 1997 by The American Society for Cell Biology

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				M. Lavy, K. Bracha-Drori, H. Sternberg, and S. Yalovsky A Cell-Specific, Prenylation-Independent Mechanism Regulates Targeting of Type II RACs PLANT CELL, October 1, 2002; 14(10): 2431 - 2450. [Abstract] [Full Text] [PDF]

				X. Liang, Y. Lu, T. A. Neubert, and M. D. Resh Mass Spectrometric Analysis of GAP-43/Neuromodulin Reveals the Presence of a Variety of Fatty Acylated Species J. Biol. Chem., August 30, 2002; 277(36): 33032 - 33040. [Abstract] [Full Text] [PDF]

				D. Konno, J.-A. Ko, S. Usui, K. Hori, H. Maruoka, M. Inui, T. Fujikado, Y. Tano, T. Suzuki, K. Tohyama, et al. The postsynaptic density and dendritic raft localization of PSD-Zip70, which contains an N-myristoylation sequence and leucine-zipper motifs J. Cell Sci., January 12, 2002; 115(23): 4695 - 4706. [Abstract] [Full Text] [PDF]

				J. S. Loomis, J. B. Bowzard, R. J. Courtney, and J. W. Wills Intracellular Trafficking of the UL11 Tegument Protein of Herpes Simplex Virus Type 1 J. Virol., December 15, 2001; 75(24): 12209 - 12219. [Abstract] [Full Text] [PDF]

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				J. P. Chapple, A. J. Hardcastle, C. Grayson, L.A. Spackman, K. R. Willison, and M. E. Cheetham Mutations in the N-terminus of the X-linked retinitis pigmentosa protein RP2 interfere with the normal targeting of the protein to the plasma membrane Hum. Mol. Genet., August 12, 2000; 9(13): 1919 - 1926. [Abstract] [Full Text] [PDF]

				C. L. Manahan, M. Patnana, K. J. Blumer, and M. E. Linder Dual Lipid Modification Motifs in Galpha and Ggamma Subunits Are Required for Full Activity of the Pheromone Response Pathway in Saccharomyces cerevisiae Mol. Biol. Cell, March 1, 2000; 11(3): 957 - 968. [Abstract] [Full Text]