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>Heparan sulfate proteoglycans in the substratum adhesion sites of human neuroblastoma cells: Modulation of affinity binding to fibronectin
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Heparan sulfate proteoglycans in the substratum adhesion sites of human neuroblastoma cells: Modulation of affinity binding to fibronectin
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机译:Heparan sulfate proteoglycans in the substratum adhesion sites of human neuroblastoma cells: Modulation of affinity binding to fibronectin
AbstractTissue culture substratum adhesion sites from EGTA‐detached Platt human neuroblastoma cells were extracted with a buffer containing octylglucoside, NaCl, guanidine hydrochloride, and a variety of protease inhibitors, an extraction which resulted in quantitative solubilization of the35SO4=‐radiolabeled proteoglycans and3H‐leucine‐radiolabeled proteins. Of the sulfate‐radiolabeled material, the vast majority was heparan sulfate proteoglycan (Kav= 0.15 on Sepharose C14B columns) and the remainder was chondroitin sulfate chains (no single chains of heparan sulfate were observed). This extract was then fractionated on DEAE‐Sephadex columns under two different buffer elution conditions. Under DEAE‐I conditions in low ionic strength acetate buffer, two major peaks of35SO4=‐radiolabeled material (A, B) and a minor peak (C) could be resolved in the NaCl gradient; however, three‐fourths of the material required 4 M guanidine hydrochloride to elute it from the column (peak D). Under DEAE‐II conditions in acetate buffer supplemented with 8 M urea, the vast majority of the proteoglycan material could be eluted in the NaCl gradient as peak AB. Peak D material was shown to contain aggregated proteoglycan, along with nonproteoglycan protein, which high concentrations of urea or guanidine could dissociate, but not nonionic or zwitterionic detergents. Three different affinity chromatography systems were used to further characterize these components. Approximately 60 of peak A heparan sulfate proteoglycan from DEAE‐I binds to the hydrophobic matrix, octyl‐Sepharose, while 80 of the proteoglycan in DEAE‐I peak D binds to this hydrophobic column. A sizable fraction of peak A proteoglycan fails to bind to plasma fibronectin but does bind to platelet factor‐4 affinity columns. In contrast, peak AB proteoglycan from DEAE‐II columns yields a much higher proportion of molecules which do bind to fibronectin. To examine the basis for these differences in affinity binding, nonproteoglycan protein from these adhesion sites was mixed with peak AB proteoglycan prior to affinity chromatography; proteoglycan binding to fibronectin decreased markedly while binding to platelet factor‐4 was unaffected. This modulating activity involves the binding of nonproteoglycan protein in adhesion site extracts to both fibronectin on the column, as well as to heparan sulfate proteoglycan itself, and it could not be mimicked by a number of known proteins in adhesion site extracts or several other proteins. These results demonstrate selectivity and specificity in this modulation and indicate that a previously unidentified protein(s) is responsible. The significance of these findings in the substratum adhesion processes
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