Lena Kask scite author profile

C4b-binding protein (C4BP) is a regulator of the classical complement pathway C3 convertase (C4bC2a complex). It is a disulfide-linked polymer of seven ␣-chains and a unique ␤-chain; the ␣-and ␤-chains are composed of eight and three complement control protein (CCP) domains, respectively. To elucidate the importance of the polymeric nature of C4BP and the structural requirements for the interaction between C4b and the ␣-chain, 19 recombinant C4BP variants were created. Six truncated monomeric variants, nine polymeric variants in which individual CCPs were deleted, and finally, four variants in which double alanine residues were introduced between CCPs were functionally characterized. The smallest truncated C4BP variant still active in regulating fluid phase C4b comprised CCP1-3. The monomeric variants were less efficient than polymeric C4BP in degrading C4b on cell surfaces. All three Nterminal CCP domains contributed to the binding of C4b and were important for full functional activity; CCP2 and CCP3 were the most important. The spatial arrange-

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CCP1–4 of the C4b-binding protein α-chain are required for factor I mediated cleavage of complement factor C3b

Blom

2003

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The C4b-binding Protein-Protein S Complex Inhibits the Phagocytosis of Apoptotic Cells

Kask

Trouw²,

Dahlbäck

et al. 2004

Journal of Biological Chemistry

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The phagocytosis of apoptotic cells is a complex process involving numerous interactions between the target cell and the macrophage. We have examined a role of the major soluble inhibitor of the classic and lectin complement pathways, C4b-binding protein (C4BP), in the clearance of apoptotic cells. The major form of C4BP present in blood is composed of seven ␣-chains and one ␤-chain, which binds protein S (PS). Approximately 70% of all PS in human plasma is trapped in such a complex and is able to localize C4BP to the surface of apoptotic cells due to the high affinity to phosphatidylserine. Free PS has recently been shown to enhance phagocytosis of apoptotic cells by macrophages. We observed a stimulatory effect of free PS on the engulfment of apoptotic cells (BL-41 and Jurkat) by primary human macrophages or THP-1 cells and a decrease of activity in serum depleted of PS in agreement with previous results. However, we also show that the process is strongly inhibited in the presence of the C4BP-PS complex. Addition of the C4BP-PS complex to serum deficient in both molecules abolished the enhancing effect of serum on phagocytosis. The effect of both free PS and the C4BP-PS complex could be inhibited with monoclonal antibody directed against the Gla domain of PS. Although the presence of the C4BP-PS complex on apoptotic cells may lead to decreased phagocytosis, it may still be beneficial to the host, since it could prevent secondary necrosis because it inhibits further complement attack.

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Structural Requirements for the Intracellular Subunit Polymerization of the Complement Inhibitor C4b-Binding Protein

et al. 2002

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C4b-binding protein (C4BP), an important inhibitor of complement activation, has a unique spider-like shape. It is composed of six to seven identical alpha-chains with or without a single beta-chain, the chains being linked by disulfide bridges in their C-terminal parts. To elucidate the structural requirements for the assembly of the alpha-chains, recombinant C4BP was expressed in HEK 293 cells. The expressed C4BP was found to contain six disulfide-linked alpha-chains. Pulse-chase analysis demonstrated that the recombinant C4BP was rapidly synthesized in the cells and the polymerized C4BP appeared in the medium after 40 min. The alpha-chains were polymerized in the endoplasmic reticulum (ER) already after 5 min chase. The polymerization process was unaffected by blockage of the transport from the ER to the Golgi mediated by brefeldin A or low temperature (10 degrees C). The C-terminal part of the alpha-chain (57 amino acids), containing 2 cysteine residues and an amphiphatic alpha-helix region, was required for the polymerization. We constructed and expressed several mutants of C4BP that lacked the cysteine residues and/or were truncated at various positions in the C-terminal region. Gel filtration analysis of these variants demonstrated the whole alpha-helix region to be required for the formation of stable polymers of C4BP, which were further stabilized by the formation of disulfide bonds.

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Lena Kask

Structural Requirements for the Complement Regulatory Activities of C4BP

CCP1–4 of the C4b-binding protein α-chain are required for factor I mediated cleavage of complement factor C3b

The C4b-binding Protein-Protein S Complex Inhibits the Phagocytosis of Apoptotic Cells

Structural Requirements for the Intracellular Subunit Polymerization of the Complement Inhibitor C4b-Binding Protein

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