Abstract
O-Mannosylation and N-glycosylation are essential protein modifications that are initiated in the endoplasmic reticulum (ER). Protein translocation across the ER membrane and N-glycosylation are highly coordinated processes that take place at the translocon-oligosaccharyltransferase (OST) complex. In analogy, it was assumed that protein O-mannosyltransferases (PMTs) also act at the translocon, however, in recent years it turned out that prolonged ER residence allows O-mannosylation of un-/misfolded proteins or slow folding intermediates by Pmt1-Pmt2 complexes. Here, we reinvestigate protein O-mannosylation in the context of protein translocation. We demonstrate the association of Pmt1-Pmt2 with the OST, the trimeric Sec61, and the tetrameric Sec63 complex in vivo by co-immunoprecipitation. The coordinated interplay between PMTs and OST in vivo is further shown by a comprehensive mass spectrometry-based analysis of N-glycosylation site occupancy in pmtΔ mutants. In addition, we established a microsomal translation/translocation/O-mannosylation system. Using the serine/threonine-rich cell wall protein Ccw5 as a model, we show that PMTs efficiently mannosylate proteins during their translocation into microsomes. This in vitro system will help to unravel mechanistic differences between co- and post-translocational O-mannosylation.
Highlights
O-Mannosylation is a conserved, essential protein modification that is initiated in the endoplasmic reticulum (ER)
Pmt1-Pmt2 Complexes Are Associated with the Translocon Complex in Vivo—To further investigate whether the O-mannosylation machinery acts on protein chains entering the ER lumen, we first screened for associations between protein O-mannosyltransferases (PMTs) and the translocon
The most significant effect is on polypeptide folding and it has been proposed that in the course of eukaryotic evolution, this has been the selection mechanism that resulted in the widespread occurrence of post-translational modifications on secretory proteins [6]
Summary
O-Mannosylation is a conserved, essential protein modification that is initiated in the endoplasmic reticulum (ER). Protein translocation across the ER membrane and N-glycosylation are highly coordinated processes that take place at the translocon-oligosaccharyltransferase (OST) complex. The cell wall protein Ccw, it has even been shown that O-mannosylation precedes N-glycosylation [11], strongly suggesting that PMT complexes can act on protein chains while they enter the ER. These findings are consistent with the general assumption that O-mannosylation takes place on translocating polypeptide chains which, is based on a single study from the mid-1970s [12]. Our study brings forth an in vitro system that allows the analysis of O-mannosylation in the context of protein translocation
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