To investigate the role of cytoplasmic sequences in directing transmembrane protein trafficking through the Golgi, we analyzed the sorting of VSV tsO45 G fusions with either the native G cytoplasmic domain (G) or an alternative cytoplasmic tail derived from the chicken AE1-4 anion exchanger (G(AE) ). At restrictive temperature G(AE) and G accumulated in the ER, and upon shifting the cells to permissive temperature both proteins folded and underwent transport through the Golgi. However, G(AE) and G did not form hetero-oligomers upon the shift to permissive temperature and they progressed through the Golgi with distinct kinetics. In addition, the transport of G through the proximal Golgi was Arf1 and COPI-dependent, while G(AE) progression through the proximal Golgi was Arf1 and COPI-independent. Although Arf1 did not regulate the sorting of G(AE) in the cis-Golgi, Arf1 did regulate the exit of G(AE) from the TGN. The trafficking of G(AE) through the Golgi was similar to that of the native AE1-4 anion exchanger, in that the progression of both proteins through the proximal Golgi was Arf1-independent, while both required Arf1 to exit the TGN. We propose that the differential recognition of cytosolic signals in membrane-spanning proteins by the Arf1-dependent sorting machinery may influence the rate at which cargo progresses through the Golgi.
Keywords: Arf1; COPI; Golgi; VSV G; anion exchanger; sorting signals.
© 2014 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.