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Essentials of Glycobiology
April 28th, 2008
Ajit VarkiLecture 10
Chapter 17 : Unique Forms of Nucleocytoplasmic Glycosylation
Chapter 18 :The O-GlcNAc modification
All Cells Are Coated with “Glycans”
Electron micrograph of a human lymphocyte (Ruthenium Red staining)
Major Glycan Classes in Vertebrate Cells
General Questions for Lecture 10
1. Why was the presence of glycans in the nuclear and cytosolic compartments missed for so long?
2. What is the most striking mechanistic difference between nucleocytoplasmic and cell surface glycosylation?
3. What biochemical criteria would you require to demonstrate a glycan attached to a nuclear or cytoplasmic protein?
4. What conventional glycosylation pathways have steps that occur on the cytoplasmic side of membranes and could be potential sources of nucleocytoplasmic glycans?
5. How would you demonstrate the presence of GAGs in the nuclear compartment?
6. Compare initiating glycosylation reactions on mucins, proteoglycans, glycogenin, and skp1.
7. O-GlcNAc is now known to be the commonest form of glycosylation in the cell. Why did it take so long to be discovered? What was the serendipity involved in the discovery?
8. O-GlcNAc is thought to compete with phosphorylation for the same or similar sites on nuclear or cytosolic glycoproteins. What are the similarities and differences between O-GlcNAcylation and phosphorylation?
9. How does O-GlcNAc act as a "metabolic sensor"?
10. Speculate as to how O-GlcNAc might contribute to 'glucose toxicity' in diabetes
Potential mechanisms for the glycosylation of cytoplasmic proteins
Glycogen Synthesis: Opposing models for self-glucosylation of glycogenin
Model for glycogen biosynthesis
Mechanism of glycosylation of Skp1 in the cytoplasm of Dictyostelium
Rho family proteins regulate receptor-mediated actin cytoskeleton perturbations and are targets for bacterial toxins.
Glycosylation of Rho proteins by toxins occurs at Thr-37 and this has a key role in GTP/GDP nucleotide exchange by these G proteins
O-GlcNAc - A Dynamic Protein Modification
2-D gel analysis of immunoaffinity-isolated O-GlcNAc–modified proteins from nucleocytoplasmic extracts of HeLa cells
O-GlcNAcylated proteins occur in many cellular compartments
O-GlcNAcylated proteins belong to many different functional classes.
O-GlcNAc cycling is regulated by the concerted action of O-GlcNAc transferase (OGT) and O-GlcNAcase (OGase).
O-GlcNAcylation: complex dynamic interplay with O-phosphorylation
Protein phosphatase 1 catalytic subunit (PP1c), a key enzyme that removes O-phosphate residues from important regulatory proteins, is in a complex with OGT
O-GlcNAc transferase (OGT) is regulated by multiple complex mechanisms: transcriptional regulation of expression, differential mRNA splicing, proteolytic processing, posttranslational
modification, and multimerization with itself and other proteins
UDP-GlcNAc is the donor for O-GlcNAc transferase (OGT) and an ideal sensor of the metabolic status of the cell.
Elevating O-GlcNAc blocks insulin signaling at many points.
Torres, C. R. & Hart, G. W. Topography and polypeptide distribution of terminal N-acetylglucosamine residues on the
surfaces of intact lymphocytes. Evidence for O-linked GlcNAc. J. Biol. Chem. 1984. 259:3308 PMID: 6421821
Yang et al. Phosphoinositide signalling links O-GlcNAc transferase to insulin resistance. Nature. 2008. 451:964.
PMID: 18288188
News Article Accompanying Yang et al.
General Questions for Lecture 101. Why was the presence of glycans in the nuclear and cytosolic compartments missed for so long?
2. What is the most striking mechanistic difference between nucleocytoplasmic and cell surface glycosylation?
3. What biochemical criteria would you require to demonstrate a glycan attached to a nuclear or cytoplasmic protein?
4. What conventional glycosylation pathways have steps that occur on the cytoplasmic side of membranes and could be potential sources of nucleocytoplasmic glycans?
5. How would you demonstrate the presence of GAGs in the nuclear compartment?
6. Compare initiating glycosylation reactions on mucins, proteoglycans, glycogenin, and skp1.
7. O-GlcNAc is now known to be the commonest form of glycosylation in the cell. Why did it take so long to be discovered? What was the serendipity involved in the discovery?
8. O-GlcNAc is thought to compete with phosphorylation for the same or similar sites on nuclear or cytosolic glycoproteins. What are the similarities and differences between O-GlcNAcylation and phosphorylation?
9. How does O-GlcNAc act as a "metabolic sensor"?
10. Speculate as to how O-GlcNAc might contribute to 'glucose toxicity' in diabetes