PROTEOLYTIC MODIFICATION OF THE HEPARIN-BINDING AFFINITY OF EXTRACELLULAR SUPEROXIDE-DISMUTASE

被引:40
作者
KARLSSON, K
EDLUND, A
SANDSTROM, J
MARKLUND, SL
机构
[1] UMEA UNIV HOSP,DEPT CLIN CHEM,S-90185 UMEA,SWEDEN
[2] UMEA UNIV,DEPT MICROBIOL,S-90187 UMEA,SWEDEN
[3] SYMBICOM AB,S-90124 UMEA,SWEDEN
来源
BIOCHEMICAL JOURNAL | 1993年 / 290卷
关键词
D O I
10.1042/bj2900623
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The heparin-binding affinity of the tetrameric extracellular superoxide dismutase (EC-SOD) is a result of the cooperative effect of the heparin-binding domains of the subunits, located in the hydrophilic, strongly positively charged C-terminal ends. EC-SOD C, the high-heparin-affinity type, exposed to immobilized trypsin and plasmin was found to rapidly lose its affinity for heparin, without any loss of enzymic activity or major change in molecular mass as judged by size-exclusion chromatography. Heparin and dextran sulphate 5000 inhibited the proteolysis, suggesting that EC-SOD C sequestered by heparan sulphate proteoglycan in vivo is partially protected against proteolysis. The loss of heparin-affinity occurred with the stepwise formation of intermediates, and the pattern upon chromatography on heparin-Sepharose and subsequent immunoblotting was compatible with the notion that the changes are due to sequential truncations of heparin-binding domains from subunits composing the EC-SOD tetramers. A similar pattern with intermediates and apparent truncations has previously been found with EC-SOD of human plasma. The findings show that the unique design of the heparin-binding domain of EC-SOD allows easy modification of the heparin-affinity by means of limited proteolysis, and suggest that such proteolysis is a major contributor to the heterogeneity in heparin-affinity of EC-SOD in mammalian plasma.
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页码:623 / 626
页数:4
相关论文
共 19 条
  • [1] NONENZYMATIC GLYCATION OF HUMAN EXTRACELLULAR SUPEROXIDE-DISMUTASE
    ADACHI, T
    OHTA, H
    HIRANO, K
    HAYASHI, K
    MARKLUND, SL
    [J]. BIOCHEMICAL JOURNAL, 1991, 279 : 263 - 267
  • [2] ADACHI T, 1989, J BIOL CHEM, V264, P8537
  • [3] MOLECULAR MODELING OF PROTEIN-GLYCOSAMINOGLYCAN INTERACTIONS
    CARDIN, AD
    WEINTRAUB, HJR
    [J]. ARTERIOSCLEROSIS, 1989, 9 (01): : 21 - 32
  • [4] FASTER SUPEROXIDE-DISMUTASE MUTANTS DESIGNED BY ENHANCING ELECTROSTATIC GUIDANCE
    GETZOFF, ED
    CABELLI, DE
    FISHER, CL
    PARGE, HE
    VIEZZOLI, MS
    BANCI, L
    HALLEWELL, RA
    [J]. NATURE, 1992, 358 (6384) : 347 - 351
  • [5] ISOLATION AND SEQUENCE OF COMPLEMENTARY-DNA ENCODING HUMAN EXTRACELLULAR SUPEROXIDE-DISMUTASE
    HJALMARSSON, K
    MARKLUND, SL
    ENGSTROM, A
    EDLUND, T
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1987, 84 (18) : 6340 - 6344
  • [6] KARLSSON K, 1988, BIOCHEM J, V255, P223
  • [7] BINDING OF HUMAN EXTRACELLULAR SUPEROXIDE-DISMUTASE C TO SULFATED GLYCOSAMINOGLYCANS
    KARLSSON, K
    LINDAHL, U
    MARKLUND, SL
    [J]. BIOCHEMICAL JOURNAL, 1988, 256 (01) : 29 - 33
  • [8] HEPARIN-INDUCED RELEASE OF EXTRACELLULAR SUPEROXIDE-DISMUTASE TO HUMAN-BLOOD PLASMA
    KARLSSON, K
    MARKLUND, SL
    [J]. BIOCHEMICAL JOURNAL, 1987, 242 (01) : 55 - 59
  • [9] PLASMA-CLEARANCE OF HUMAN EXTRACELLULAR-SUPEROXIDE DISMUTASE-C IN RABBITS
    KARLSSON, K
    MARKLUND, SL
    [J]. JOURNAL OF CLINICAL INVESTIGATION, 1988, 82 (03) : 762 - 766
  • [10] KARLSSON K, 1989, LAB INVEST, V60, P659
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