Abstract
We have used specific inhibitors of oligosaccharide processing enzymes as probes to determine the involvement of oligosaccharide residues in the biosynthesis and function of insulin and insulin-like growth factor-I receptors. In a previous study (Duronio, V., Jacobs, S., and Cuatrecasas, P. (1986) J. Biol. Chem. 261, 970-975) swainsonine was used to inhibit mannosidase II, resulting in the production of receptors containing only hybrid-type oligosaccharides. These receptors had a slightly lower molecular weight and were much more sensitive to endoglycosidase H, but otherwise behaved identically to normal receptors. In this study, we used two compounds that inhibit oligosaccharide processing at earlier steps: (i) N-methyl-1-deoxynojirimycin (MedJN), which inhibits glucosidases I and II and yields glucosylated, high mannose oligosaccharides, and (ii) manno-1-deoxynojirimycin (MandJN), which inhibits mannosidase I and yields high mannose oligosaccharides. In the presence of MandJN, HepG2 cells synthesized receptors of lower molecular weight, which were cleaved into alpha and beta subunits and were able to bind hormone and autophosphorylate. These receptors were as sensitive to endoglycosidase H as receptors made in the presence of swainsonine. In the presence of MedJN, receptors of only slightly lower molecular weight than normal were synthesized and were shown to contain some glucosylated high mannose oligosaccharides. These receptors were able to bind hormone and retained hormone-sensitive autophosphorylation activity. In both cases, the incompletely processed receptors could be detected at the cell surface by cross-linking of iodinated hormone and susceptibility to trypsin digestion, although less receptor was present in cells treated with MedJN. Studies of receptor synthesis using pulse-chase labeling showed that the receptor precursors synthesized in the presence of MedJN were cleaved into alpha and beta subunits at a slower rate than normal receptors or those made in the presence of MandJN. Inhibition of oligosaccharide processing had no effect on the association of the receptor subunits into disulfide-linked oligomeric complexes.
Highlights
Vincent DuronioS and Steven Jacobs From the Department of MolecularBwlogy, Burroughs Wellcome Co., Resenrch Triangle Park, North Carolina 27709
Processing enzymesasprobes to determine theinvolve- I;‘ somatomedin C ) have similar structures consisting of two ment of oligosaccharide residues in the biosynthesis subunits referred to as a and p (1-9), which are linked by and function of insulin and insulin-like growth factor- disulfide bonds to form tetrameric ( L Y B )c~omplexes (10-12)
As will be seen below, MandJN and MedJN had and, like the control precursor, it shifted to a M, of 170,000 similar effects on the biosynthesisof IGF-I receptors
Summary
Biosynthesis of Insulin Receptors in the Presenceof Inhibi- subunits were not nearly as susceptible to Endo H as the tors-The effect of 1 mM MandJN or 5 mM MedJN on the MandJN samples in which the a and p subunits appear to biosynthesis of insulin receptors in [35S]methionine-labeled contain onlyhigh mannose oligosaccharides. Receptors synthesized in thepresence or absence of MedJN, The molecular weights of the a and subunits of the insulin samples were analyzed after being labeled with [ 3 H ] m a n n ~ ~ e receptor synthesized in the presenceof MandJN were lower As ex- Pronase digestion of immunoprecipitated receptors were fracpected, the control a and p subunits were only slightly susceptible to Endo Hdigestion, but in the MandJN-treated tionated on Bio-Gel P-6 before (Fig. 2, A and B ) and after (Fig. 2, C and D ) Endo H treatment to distinguish between sample, the subunitws ere very susceptible to Endo H, result- glycopeptides containing complex and high mannose oligosacing indigested polypeptides withmolecular weights of 86,000 charides.
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