ISSN:
1573-4986
Keywords:
heparin
;
mastocytoma
;
sulfotransferase
;
3′-phosphoadenylylsulfate (PAPS)
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract The formation of labeled heparin-precursor polysaccharide (N-acetylheparosan) from the nucleotide sugars, UDP-[14C]glucuronic acid and UDP-N-acetylglucosamine, in a mouse mastocytoma microsomal fraction was abolished by the addition of 1% Triton X-100. In contrast, the detergent-treated microsomal preparation retained the ability to convert such preformed polysaccharide into sulfated products during incubation with 3′-phosphoadenylylsulfate (PAPS). However, as shown by ion-exchange chromatography of these products, the detegent treatment changed the kinetics of sulfation from the rapid, repetivive process characteristic of the unperturbed system to a slow, progressive sulfation, which involved all polysarccharide molecules simultaneously and yielded, ultimately, a more highly sulfated product. The detergent effect was attributed to solubilization of sulfotransferases from the microsomal membranes, along with other polymer-modifying enzymes and the polysaccharide substrate. The resulting product showed an apparently random distribution ofN-acetyl andN-sulfate groups, instead of the predominantly block-wise arrangement achieved through membrane-associated biosynthesis.O-Sulfation occurred mainly at C2 of the iduronic acid units in the membrane-bound polysaccharide but at C6 of the glucosamine residues in the presence of detergent. A capsular polysaccharide fromEscherichia coli K5, previously found to have a structure identical to that of the nonsulfated heparin-precursor polysaccharide, was sulfated in the solubilized system in a fashion similar to that of the endogenous substrate, but was not accessible to the membrane-bound enzymes. These findings suggest that the regulation of the polymer-modification process, and hence the structure of the final polysaccharide product, depends heavily on the organization of the enzymes and their proteoglycan substrate in the endoplasmic membranes of the cell.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01049455
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