Nitric oxide-dependent processing of heparan sulfate in recycling S-nitrosylated glypican-1 takes place in caveolin-1 containing endosomes.
(2002) In Journal of Biological Chemistry 277(46). p.44431-44439- Abstract
- We have previously demonstrated intracellular degradation of the heparan sulfate side-chains in recycling glypican-1 by heparanase and by deaminative cleavage at N-unsubstituted glucosamine with nitric oxide derived from intrinsic nitrosothiols [see Ding, K., Mani, K., Cheng, F., Belting, M. and Fransson, L.-. (2002) J. Biol. Chem., 277, xxx-xxx; prepub M203383200]. To determine where and in what order events take place, we have visualized, by using confocal laser-scanning immunofluorescence microscopy, glypican-1 variants in unperturbed cells or arrested at various stages of processing. In unperturbed proliferating cells, glypican-1 was partly S-nitrosylated. Intracellular glypican-1 was enriched in endosomes, colocalized significantly... (More)
- We have previously demonstrated intracellular degradation of the heparan sulfate side-chains in recycling glypican-1 by heparanase and by deaminative cleavage at N-unsubstituted glucosamine with nitric oxide derived from intrinsic nitrosothiols [see Ding, K., Mani, K., Cheng, F., Belting, M. and Fransson, L.-. (2002) J. Biol. Chem., 277, xxx-xxx; prepub M203383200]. To determine where and in what order events take place, we have visualized, by using confocal laser-scanning immunofluorescence microscopy, glypican-1 variants in unperturbed cells or arrested at various stages of processing. In unperturbed proliferating cells, glypican-1 was partly S-nitrosylated. Intracellular glypican-1 was enriched in endosomes, colocalized significantly with GM-1 ganglioside, caveolin-1 and Rab9-positive endosomes, and carried side-chains rich in N-unsubstituted glucosamine residues. However, such residues were scarce in cell-surface glypican-1. Brefeldin A-arrested glypican-1, which was non-S-nitrosylated and carried side-chains rich in N-unsubstituted glucosamines, colocalized extensively with caveolin-1 but not with Rab9. Suramin, which inhibits heparanase, induced the appearance of S-nitrosylated glypican-1 in caveolin-1-rich compartments. Inhibition of deaminative cleavage did not prevent heparanase from generating heparan sulfate oligosaccharides that colocalized strongly with caveolin-1. Growth-quiescent cells displayed extensive NO-dependent deaminative cleavage of heparan sulfate generating anhydromannose-terminating fragments which were partly associated with acidic vesicles. Proliferating cells generated such fragments during polyamine uptake. We conclude that recycling glypican-1 that is associated with caveolin-1-containing endosomes undergoes sequential N-desulfation/N-deacetylation, heparanase cleavage, S-nitrosylation, NO-release and deaminative cleavage of its side-chains in conjunction with polyamine uptake. (Less)
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https://lup.lub.lu.se/record/110313
- author
- Cheng, Fang LU ; Mani, Katrin LU ; Van Den Born, Jacob ; Ding, Kan LU ; Belting, Mattias LU and Fransson, Lars-Åke LU
- organization
- publishing date
- 2002
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Journal of Biological Chemistry
- volume
- 277
- issue
- 46
- pages
- 44431 - 44439
- publisher
- American Society for Biochemistry and Molecular Biology
- external identifiers
-
- wos:000179272000114
- scopus:0037113903
- ISSN
- 1083-351X
- DOI
- 10.1074/jbc.M205241200
- language
- English
- LU publication?
- yes
- id
- a7c9c051-29bf-49cb-a4ff-c5b176d8179c (old id 110313)
- alternative location
- http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12226079&dopt=Abstract
- date added to LUP
- 2016-04-01 11:41:29
- date last changed
- 2023-09-01 03:25:30
@article{a7c9c051-29bf-49cb-a4ff-c5b176d8179c, abstract = {{We have previously demonstrated intracellular degradation of the heparan sulfate side-chains in recycling glypican-1 by heparanase and by deaminative cleavage at N-unsubstituted glucosamine with nitric oxide derived from intrinsic nitrosothiols [see Ding, K., Mani, K., Cheng, F., Belting, M. and Fransson, L.-. (2002) J. Biol. Chem., 277, xxx-xxx; prepub M203383200]. To determine where and in what order events take place, we have visualized, by using confocal laser-scanning immunofluorescence microscopy, glypican-1 variants in unperturbed cells or arrested at various stages of processing. In unperturbed proliferating cells, glypican-1 was partly S-nitrosylated. Intracellular glypican-1 was enriched in endosomes, colocalized significantly with GM-1 ganglioside, caveolin-1 and Rab9-positive endosomes, and carried side-chains rich in N-unsubstituted glucosamine residues. However, such residues were scarce in cell-surface glypican-1. Brefeldin A-arrested glypican-1, which was non-S-nitrosylated and carried side-chains rich in N-unsubstituted glucosamines, colocalized extensively with caveolin-1 but not with Rab9. Suramin, which inhibits heparanase, induced the appearance of S-nitrosylated glypican-1 in caveolin-1-rich compartments. Inhibition of deaminative cleavage did not prevent heparanase from generating heparan sulfate oligosaccharides that colocalized strongly with caveolin-1. Growth-quiescent cells displayed extensive NO-dependent deaminative cleavage of heparan sulfate generating anhydromannose-terminating fragments which were partly associated with acidic vesicles. Proliferating cells generated such fragments during polyamine uptake. We conclude that recycling glypican-1 that is associated with caveolin-1-containing endosomes undergoes sequential N-desulfation/N-deacetylation, heparanase cleavage, S-nitrosylation, NO-release and deaminative cleavage of its side-chains in conjunction with polyamine uptake.}}, author = {{Cheng, Fang and Mani, Katrin and Van Den Born, Jacob and Ding, Kan and Belting, Mattias and Fransson, Lars-Åke}}, issn = {{1083-351X}}, language = {{eng}}, number = {{46}}, pages = {{44431--44439}}, publisher = {{American Society for Biochemistry and Molecular Biology}}, series = {{Journal of Biological Chemistry}}, title = {{Nitric oxide-dependent processing of heparan sulfate in recycling S-nitrosylated glypican-1 takes place in caveolin-1 containing endosomes.}}, url = {{http://dx.doi.org/10.1074/jbc.M205241200}}, doi = {{10.1074/jbc.M205241200}}, volume = {{277}}, year = {{2002}}, }