COVALENT BINDING OF C3B TO C4B WITHIN THE CLASSICAL COMPLEMENT PATHWAY C5 CONVERTASE - DETERMINATION OF AMINO-ACID-RESIDUES INVOLVED IN ESTER LINKAGE FORMATION

被引：0

作者：

KIM, YU

CARROLL, MC

ISENMAN, DE

NONAKA, M

PRAMOONJAGO, P

TAKEDA, J

INOUE, K

KINOSHITA, T

机构：

[1] OSAKA UNIV, MICROBIAL DIS RES INST, DEPT IMMUNOREGULAT, 3-1 YAMADA OKA, SUITA, OSAKA 565, JAPAN

[2] OSAKA UNIV, SCH MED, DEPT BACTERIOL, SUITA, OSAKA 565, JAPAN

[3] HARVARD UNIV, SCH MED, DEPT PATHOL, BOSTON, MA 02138 USA

[4] UNIV TORONTO, DEPT BIOCHEM, TORONTO M5S 1A1, ONTARIO, CANADA

[5] KANAZAWA UNIV, CANC RES INST, DEPT IMMUNOBIOL, KANAZAWA, ISHIKAWA 920, JAPAN

来源：

JOURNAL OF BIOLOGICAL CHEMISTRY | 1992年 / 267卷 / 06期

关键词：

D O I：

暂无

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：

C5 convertase of the classical complement pathway is a protein complex consisting of C4b, C2a, and C3b. Within this complex C3b binds to C4b via an ester linkage. We now present evidence that the covalent C3b-binding site on human C4b is Ser at position 1217 of C4. We also show that formation of the covalently linked C4b . C3b complex occurs in the mouse complement system and that the C3b-binding site on mouse C4b is Ser at position 1213 which is homologous to Ser-1217 of human C4. Therefore, covalent binding of C3b to a single specific site on C4b within the classical pathway C5 convertase is likely a common phenomenon in the mammalian complement system. Specific noncovalent association of metastable C3b with C4b would occur first, leading to reaction of the thioester with a specific hydroxy group. This is supported by two lines of experimental evidence, one which shows that a mutant C4 that does not make a covalent linkage with C3b is still capable of forming C5 convertase and a second in which the C4b . C3b complex has been demonstrated by cross-linking erythrocytes bearing this C5 convertase.

引用

页码：4171 / 4176

页数：6

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