DIRECTIONAL IMMOBILIZATION OF HEPARIN ONTO BEADED SUPPORTS

被引:37
作者
NADKARNI, VD [1 ]
PERVIN, A [1 ]
LINHARDT, RJ [1 ]
机构
[1] UNIV IOWA,COLL PHARM,DIV MED & NAT PROD CHEM,IOWA CITY,IA 52242
来源
ANALYTICAL BIOCHEMISTRY | 1994年 / 222卷 / 01期
关键词
D O I
10.1006/abio.1994.1454
中图分类号
Q5 [生物化学];
学科分类号
071010 ; 081704 ;
摘要
Heparin was immobilized in a defined orientation on Sepharose, agarose, and polyacrylamide supports by coupling through its reducing end. This is expected to mimic the attachment of heparin to the protein core in the naturally occurring proteoglycan and impart better ligand binding efficiency by exposing all the binding sites available in the naturally occurring heparin. The coupling chemistry was accomplished by modifying heparin at its reducing end to introduce reactive functionality that can react with appropriately functionalized supports. Three reducing end modified heparins were synthesized and characterized: 2,6-diaminopyridinyl heparin, containing a reactive amino group at the reducing end; omega-hydrazido-adipyl-azo heparin, containing a hydrazido group at the reducing end; and heparin lactone, containing a reactive ester functionality at the reducing end. These heparin derivatives were then reacted with the supports to give directionally immobilized heparin using different coupling chemistries: coupling of reducing end modified heparins to amine-containing supports (i.e., omega-aminohexyl Sepharose and omega-aminobutyl agarose), hydrazide-containing supports (i.e., Emphaze hydrazide), and activated carboxy-containing supports (i.e., activated 6-aminohexanoic acid Sepharose, Emphaze azlactone). The heparinized matrices were prepared and analyzed for their heparin content and protamine binding capacity. (C) 1994 Academic Press, Inc.
引用
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页码:59 / 67
页数:9
相关论文
共 31 条
[1]   BASEMENT-MEMBRANE HEPARAN-SULFATE PROTEOGLYCAN BINDS TO LAMININ BY ITS HEPARAN-SULFATE CHAINS AND TO NIDOGEN BY SITES IN THE PROTEIN CORE [J].
BATTAGLIA, C ;
MAYER, U ;
AUMAILLEY, M ;
TIMPL, R .
EUROPEAN JOURNAL OF BIOCHEMISTRY, 1992, 208 (02) :359-366
[2]   A MODIFIED URONIC ACID CARBAZOLE REACTION [J].
BITTER, T ;
MUIR, HM .
ANALYTICAL BIOCHEMISTRY, 1962, 4 (04) :330-&
[3]   SYNTHESIS OF HEPARIN-SEPHAROSES AND THEIR BINDING WITH THROMBIN-HEPARIN AND ANTITHROMBIN-HEPARIN COFACTOR [J].
DANISHEFSKY, I ;
TZENG, F ;
AHRENS, M ;
KLEIN, S .
THROMBOSIS RESEARCH, 1976, 8 (02) :131-140
[4]   IMMOBILIZED HEPARIN - SPACER ARM EFFECTS ON BIOLOGICAL INTERACTIONS [J].
EBERT, CD ;
KIM, SW .
THROMBOSIS RESEARCH, 1982, 26 (01) :43-57
[5]   GRADIENT POLYACRYLAMIDE-GEL ELECTROPHORESIS FOR DETERMINATION OF MOLECULAR-WEIGHTS OF HEPARIN PREPARATIONS AND LOW-MOLECULAR-WEIGHT HEPARIN DERIVATIVES [J].
EDENS, RE ;
ALHAKIM, A ;
WEILER, JM ;
RETHWISCH, DG ;
FAREED, J ;
LINHARDT, RJ .
JOURNAL OF PHARMACEUTICAL SCIENCES, 1992, 81 (08) :823-827
[6]  
ERICSSON JC, 1967, J BIOMED MATER RES, V1, P301
[7]   PREPARATION OF 3 TYPES OF HEPARIN SEPHAROSE AND THEIR BINDING ACTIVITIES TO THROMBIN AND ANTI-THROMBIN-III [J].
FUNAHASHI, M ;
MATSUMOTO, I ;
SENO, N .
ANALYTICAL BIOCHEMISTRY, 1982, 126 (02) :414-421
[8]  
GRODE GA, 1969, T AM SOC ART INT ORG, V15, P1
[9]   MECHANISM OF INHIBITION OF MAMMALIAN DNA TOPOISOMERASE-I BY HEPARIN [J].
ISHII, K ;
FUTAKI, S ;
UCHIYAMA, H ;
NAGASAWA, K ;
ANDOH, T .
BIOCHEMICAL JOURNAL, 1987, 241 (01) :111-119
[10]   GLYCOSAMINOGLYCANS - MOLECULAR-PROPERTIES, PROTEIN INTERACTIONS, AND ROLE IN PHYSIOLOGICAL PROCESSES [J].
JACKSON, RL ;
BUSCH, SJ ;
CARDIN, AD .
PHYSIOLOGICAL REVIEWS, 1991, 71 (02) :481-539
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