Abstract
Glycolipid glycosyltransferases (GGT) are transported from the endoplasmic reticulum (ER) to the Golgi, their site of residence, via COPII vesicles. An interaction of a (R/K)X(R/K) motif at their cytoplasmic tail (CT) with Sar1 is critical for the selective concentration in the transport vesicles. In this work using computational docking, we identify three putative binding pockets in Sar1 (sites A, B, and C) involved in the interaction with the (R/K)X(R/K) motif. Sar1 mutants with alanine replacement of amino acids in site A were tested in vitro and in cells. In vitro, mutant versions showed a reduced ability to bind immobilized peptides with the CT sequence of GalT2. In cells, Sar1 mutants (Sar1(D198A)) specifically affect the exiting of GGT from the ER, resulting in an ER/Golgi concentration ratio favoring the ER. Neither the typical Golgi localization of GM130 nor the exiting and transport of the G protein of the vesicular stomatitis virus were affected. The protein kinase inhibitor H89 produced accumulation of Sec23, Sar1, and GalT2 at the ER exit sites; Sar1(D189A) also accumulated at these sites, but in this case GalT2 remained disperse along ER membranes. The results indicate that amino acids in site A of Sar1 are involved in the interaction with the CT of GGT for concentration at ER exiting sites.
Highlights
Membrane-bound Sar1 GTP by the GEF Sec12p, an endoplasmic reticulum (ER) membrane protein [2]
The results revealed that certain amino acids in the region of Sar1 facing the ER membrane surface are critical for an efficient ER export and proper Golgi localization of glycolipid glycosyltransferases
Two alanines in the cytoplasmic tail (CT) of GalT2 affect its binding to Sar1 and affects the ER/Golgi ratio of GM130. These results suggest that leads to changes in the subcellular localization of GalT2, from site A in Sar1, as identified by our docking analysis, is relevant its typical concentration in the Golgi complex to a pattern of for selectively recognizing the CT of GalT2 in its ER to Golgi distribution along ER membranes [16]
Summary
In Silico Assays—The LSLFRR peptide with sequence corresponding to the GalT2 CT and its noninteracting analog LSLFAA [16] were independently docked on the structure of mouse Sar (Protein Data Bank code 1F6B) [4]. Lysates of CHO-K1 cells expressing GalT2-HA-YFP, GalT2RR-AAHA-YFP, or VSV-G-YFP were incubated with Sar1-Sepharose beads at 25 °C for 1.5 h, washed three times with binding buffer containing 1% (v/v) Triton X-100, and washed three times with washing buffer (500 mM NaCl, 20 mM Tris/HCl, pH 7.9, and 1% (v/v) Triton X-100). Sar1-CFP (panel a, white) and GalT2-YFP (panel b, green) were immunostained for the Golgi marker GM130 (panel c, red); panel d is the merge of panels b and c. Cells co-transfected with Sar1T39N-CFP (panel e, white) and GalT2-YFP (panel f, green) were immunostained for the Golgi marker GM130 (panel g, red); panel h is the merge of panels f and g. Cells co-expressing Sar1D198A-CFP (panel i, white) and GalT2-YFP (panel j, green) were immunostained for the Golgi marker GM130 (panel k, red); panel l is the merge of panels j and k. Sar1D198A Shows Reduced Binding to GalT2CT—It is known that Sar immobilized on Sepharose
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