Abstract
BackgroundAlternative mRNA splicing of αi2, a heterotrimeric G protein α subunit, has been shown to produce an additional protein, termed sαi2. In the sαi2 splice variant, 35 novel amino acids replace the normal C-terminal 24 amino acids of αi2. Whereas αi2 is found predominantly at cellular plasma membranes, sαi2 has been localized to intracellular Golgi membranes, and the unique 35 amino acids of sαi2 have been suggested to constitute a specific targeting signal.ResultsThis paper proposes and examines an alternative hypothesis: disruption of the normal C-terminus of αi2 produces an unstable protein that fails to localize to plasma membranes. sαi2 is poorly expressed upon transfection of cultured cells; however, radiolabeling indicated that αi2 and sαi2 undergo myristoylation, a co-translational modification, equally well suggesting that protein stability rather than translation is affected. Indeed, pulse-chase analysis indicates that sαi2 is more rapidly degraded compared to αi2. Co-expression of βγ rescues PM localization and increases expression of sαi2. In addition, αi2A327S, a mutant previously shown to be unstable and defective in guanine-nucleotide binding, and αi2(1–331), in which the C-terminal 24 amino acids of αi2 are deleted, show a similar pattern of subcellular localization as sαi2 (i.e., intracellular membranes rather than plasma membranes). Finally, sαi2 displays a propensity to localize to potential aggresome-like structures.ConclusionsThus, instead of the novel C-terminus of sαi2 functioning as a specific Golgi targeting signal, the results presented here indicate that the disruption of the normal C-terminus of αi2 causes mislocalization and rapid degradation of sαi2.
Highlights
Alternative mRNA splicing of αi2, a heterotrimeric G protein α subunit, has been shown to produce an additional protein, termed sαi2
Conclusions: instead of the novel C-terminus of sαi2 functioning as a specific Golgi targeting signal, the results presented here indicate that the disruption of the normal C-terminus of αi2 causes mislocalization and rapid degradation of sαi2
The following results support this hypothesis: 1) sαi2 and αi2 are labeled by a pulse of 3H-myristate, much less sαi2 protein is detected; 2) sαi2 displays a propensity to localize to potential aggresome-like structures, and this localization is greatly enhanced by proteasome inhibitor treatment; 3) the αi2A327S mutant, previously shown to be unstable and defective in guanine-nucleotide binding, shows a similar pattern of subcellular localization; 4) βγ over-expression increases
Summary
Alternative mRNA splicing of αi, a heterotrimeric G protein α subunit, has been shown to produce an additional protein, termed sαi. Whereas αi is found predominantly at cellular plasma membranes, sαi has been localized to intracellular Golgi membranes, and the unique 35 amino acids of sαi have been suggested to constitute a specific targeting signal. G proteins have been detected at a variety of subcellular locations and have been implicated in numerous membrane trafficking activities [1,2]. This suggests that distinct, though not yet determined, mechanisms exist to target G protein subunits to subcellular locations other than plasma membranes (PM). Unique subcellular localization has been observed for a novel alternative spliced form of the G protein α subunit (page number not for citation purposes) Post-transcriptional or post-translational modifications may play a role in directing a G protein subunit to a specific intracellular location.
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