Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.52 (PNGase F)
 1,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have studied the differential susceptibility to N-glycanase (peptide-N4-[N-acetyl-beta-glucosaminyl]asparagine amidase) of oligosaccharides at the individual glycosylation sites of mouse TSH and free alpha-subunits. Mouse thyrotropic tumor tissue or hypothyroid pituitary tissue were incubated with D-[2-3H]mannose for 6 h. [3H]Mannose-labeled TSH or free alpha-subunits were obtained from homogenates using specific antisera and were digested with N-glycanase in their native state or after heat denaturation and reduction in the absence or presence of detergents. Tryptic fragments of the digestion products were then analyzed by reverse phase HPLC so that the effects of N-glycanase at the individual glycosylation sites could be determined. N-Glycanase treatment of native molecules did not cleave oligosaccharides efficiently at Asn56 of alpha-subunits and Asn23 of TSH beta, whereas oligosaccharides at Asn82 of alpha-subunits were more susceptible regardless of whether the alpha-subunits were combined with TSH beta. Heat denaturation, reduction, and the presence of detergents did not substantially increase the cleavage by N-glycanase of the protected oligosaccharides, suggesting that the primary structures of the TSH subunits influenced efficiency at specific sites. Pretreatment of free alpha-subunits with trypsin failed to enable N-glycanase to work fully, as oligosaccharides at Asn56 were cleaved less effectively than those at Asn82. Thus, the susceptibility to N-glycanase differs at the individual glycosylation sites of mouse TSH and free alpha-subunits, and these differences may result from effects of the primary structures of the TSH subunits.
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PMID:Differential susceptibility to N-glycanase at the individual glycosylation sites of mouse thyrotropin and free alpha-subunits. 245 9

We investigated the ability of two enzymes, peptide N-glycosidase F (PNGase F) and endo-beta-N-acetylglucosaminidase F (Endo F), to deglycosylate microgram quantities of bovine TSH and its subunits under nondenaturing conditions. One oligosaccharide chain could be selectively removed from the alpha subunit by PNGase F, and all the oligosaccharide chains from both subunits could be removed by Endo F. These methods of enzymatic deglycosylation should permit study of the functional role of each N-linked carbohydrate chain of various glycoprotein hormones.
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PMID:Enzymatic deglycosylation of thyroid-stimulating hormone with peptide N-glycosidase F and endo-beta-N-acetylglucosaminidase F. 309 Oct 14

To avoid premature lysosomal degradation, thyrocytes have a system able to recycle internalized immature thyroglobulin molecules (Tg) to the follicular lumen via the Golgi apparatus. It has been shown that this quality control system depends on recognition of exposed N-acetylglucosamine (GlcNAc) determinants (Miquelis et al., J Cell Biol, 1993, 123, 1695) present on immature Tg (Bastiani et al., 1995, Endocrinology, 1995, 136, 4204). However, the same in vitro kinetics studies also showed that GlcNAc residues alone induce only weak recycling. The latter finding led us to investigate the possibility that protein determinants might also be involved in binding. For this purpose, we studied binding of Tg to FRTL 5 cells, a widely available TSH-dependent cell line and found that binding to plasma membranes occurred at acidic pH in the presence of calcium, i.e. under conditions previously reported for binding of GlcNAc-BSA to porcine thyroid cell membranes. As expected, binding was GlcNAc- and oligosaccharide-dependent because Bandeiraea Simplificiola II affinity column analysis indicated that GlcNAc-bearing Tg were preferentially bound and N-glycanase treatment of Tg inhibited interaction. Ovomucoid, GlcNAc-BSA, and porcine Tg oligosaccharides did not inhibit binding, indicating that carbohydrates were not the sole determinants for binding. The fact that pronase digestion of Tg totally abolished binding implied that peptide determinants were involved in the interaction. This involvement is supported by the observation that porcine, rat, bovine, and human Tg bound FRTL 5 cell membranes and that monoclonal antibodies raised against human Tg interfered with the binding of both human and porcine Tg. Based on these findings we conclude that, besides the involvement of GlcNAc-bearing oligosaccharides, Tg receptors form a stable bond with peptide determinants.
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PMID:Carbohydrate and protein determinants are involved in thyroglobulin recognition by FRTL 5 cells. 862 13

To evaluate the functional role of complex asparagine-linked oligosaccharides of the human thyrotropin receptor (TSHR), a Chinese hamster ovary cell line (JP09) and a K562 cell line (K562-TSHR) expressing this receptor were treated with deoxymannojirimycin (dMM), a mannosidase I inhibitor. dMM blocks the formation of complex-type structures and leads to the formation of high-mannose-type structures. Treatment of cells with dMM led to a decrease in the number of thyrotropin (TSH)-binding sites at the cell surface. Detection of the TSHR at the cell surface using a monoclonal antibody directed against the A subunit showed that this decrease was not due to a decrease in the number of TSHRs expressed at the cell surface. However the recognition of TSHR by a monoclonal antibody directed against the C peptide was greatly decreased. On immunoblotting, after deglycosylation using peptide N-glycanase F, the A subunit was visualized as a doublet (36 and 41 kDa). In control cells the species of higher molecular mass was more abundant whereas after dMM treatment the species of lower molecular mass became more abundant. This difference in molecular mass between the two peptides is compatible with the removal of the C peptide. In conclusion, the results show that inhibition of complex-type structure formation leads to (i) an incapacity for TSHR to bind TSH, without affecting its intracellular transport and (ii) an increase of TSHR susceptibility to proteases that remove the C peptide. We then hypothesized that removal of the C peptide could contribute to the formation of a non-functional TSHR.
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PMID:Role of complex asparagine-linked oligosaccharides in the expression of a functional thyrotropin receptor. 1117 Nov 11