Abstract
We previously showed that the exocyst complex specifically affected the synthesis and delivery of secretory and basolateral plasma membrane proteins. Significantly, the entire spectrum of secreted proteins was increased when the hSec10 (human Sec10) component of the exocyst complex was overexpressed, suggestive of post-transcriptional regulation (Lipschutz, J. H., Guo, W., O'Brien, L. E., Nguyen, Y. H., Novick, P., and Mostov, K. E. (2000) Mol. Biol. Cell 11, 4259-4275). Here, using an exogenously transfected basolateral protein, the polymeric immunoglobulin receptor (pIgR), and a secretory protein, gp80, we show that pIgR and gp80 protein synthesis and delivery are increased in cells overexpressing Sec10 despite the fact that mRNA levels are unchanged, which is highly indicative of post-transcriptional regulation. To test specificity, we also examined the synthesis and delivery of an exogenous apical protein, CNT1 (concentrative nucleoside transporter 1), and found no increase in CNT1 protein synthesis, delivery, or mRNA levels in cells overexpressing Sec10. Sec10-GFP-overexpressing cell lines were created, and staining was seen in the endoplasmic reticulum. It was demonstrated previously in yeast that high levels of expression of SEB1, the Sec61beta homologue, suppressed sec15-1, an exocyst mutant (Toikkanen, J., Gatti, E., Takei, K., Saloheimo, M., Olkkonen, V. M., Soderlund, H., De Camilli, P., and Keranen, S. (1996) Yeast 12, 425-438). Sec61beta is a member of the Sec61 heterotrimer, which is the main component of the endoplasmic reticulum translocon. By co-immunoprecipitation we show that Sec10, which forms an exocyst subcomplex with Sec15, specifically associates with the Sec61beta component of the translocon and that Sec10 overexpression increases the association of other exocyst complex members with Sec61beta. Proteosome inhibition does not appear to be the mechanism by which increased protein synthesis occurs in the face of equivalent amounts of mRNA. Although the exact mechanism remains to be elucidated, the exocyst/Sec61beta interaction represents an important link between the cellular membrane trafficking and protein synthetic machinery.
Highlights
We previously showed that the exocyst complex affected the synthesis and delivery of secretory and basolateral plasma membrane proteins
Using an exogenously transfected basolateral protein, the polymeric immunoglobulin receptor, and a secretory protein, gp80, we show that pIgR and gp80 protein synthesis and delivery are increased in cells overexpressing Sec10 despite the fact that mRNA levels are unchanged, which is highly indicative of post-transcriptional regulation
We have previously reported that overexpression of the human homologue of Sec10, hSec10, in Madin-Darby canine kidney (MDCK) cells resulted in multiple effects. (i) Polarized hSec10-overexpressing cells grown on a two-dimensional Transwell filters were significantly taller, but not wider, than control cells, suggesting an increased basolateral surface area and protein delivery. (ii) hSec10 overexpression resulted in increased synthesis and delivery of endogenous basolateral plasma membrane proteins as well as secretory proteins, compared with control cells, as determined by pulse-chase experiments on filter-grown cells. (iii) hSec10-overexpressing cells in a threedimensional collagen gel system formed cysts much more rapidly and efficiently than did control cells
Summary
We previously showed that the exocyst complex affected the synthesis and delivery of secretory and basolateral plasma membrane proteins. (i) Polarized hSec10-overexpressing cells grown on a two-dimensional Transwell filters were significantly taller, but not wider, than control cells, suggesting an increased basolateral surface area and protein delivery.
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