Isolation of a human erythrocyte membrane protein capable of inhibiting expression of homologous complement transmembrane channels
TLDR
Solid-phase anti-C9 proved an efficient tool for the isolation of HRF from solubilized EH membranes and was termed homologous restriction factor (HRF), indicating that the action of this regulatory protein is species specific.Abstract:
Erythrocytes are poorly lysed by homologous complement, whereas they are readily lysed by heterologous complement. This phenomenon had been attributed to an interference by the cell surface with the action of complement components C8 and C9. To isolate the responsible membrane constituent, detergent-solubilized human erythrocyte (EH) membranes were subjected to affinity chromatography by using human C9-Sepharose. The isolated protein had a mass of 38 kDa and, incorporated into liposomes, was highly effective in inhibiting complement-mediated channel expression, including the C5b-8, membrane attack complex, and tubular polymer of C9 channels. Antibody produced to the 38-kDa protein caused a 20-fold increase in reactive lysis of EH by isolated C5b6, C7, C8, and C9. The antibody did not enhance C5b-7 uptake, but it affected C9 binding to the target cell membrane. Antibody to human decay-accelerating factor, used as a control, had no effect on reactive lysis of EH. Anti-38-kDa protein did not enhance the action on EH of C8 and C9 from other species, indicating that the action of this regulatory protein is species specific. It was therefore termed homologous restriction factor (HRF). Blood cells other than erythrocytes, such as polymorphonuclear leukocytes, also exhibited cell-surface HRF activity. In immunoblots of freshly isolated EH membranes, anti-38-kDa HRF detected primarily a 65-kDa protein, suggesting that the 38-kDa protein constitutes an active fragment of membrane HRF. Because of the specific binding reaction observed between HRF and C8 or C9, HRF was tested with anti-human C8 and anti-human C9. A limited immunochemical relationship of HRF to C8 and C9 could be established and solid-phase anti-C9 proved an efficient tool for the isolation of HRF from solubilized EH membranes.read more
Citations
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Journal ArticleDOI
Infectious diseases associated with complement deficiencies.
J E Figueroa,P Densen +1 more
TL;DR: Although complement undoubtedly plays a role in host defense against many microbial pathogens, it appears most important in protection against encapsulated bacteria, especially Neisseria meningitidis but also Streptococcus pneumoniae, Haemophilus influenzae, and, to a lesser extent, NeISSeria gonorrhoeae.
Journal ArticleDOI
CD59, an LY-6-like protein expressed in human lymphoid cells, regulates the action of the complement membrane attack complex on homologous cells.
TL;DR: The sequence of CD59 antigen is unlike that of other complement components or regulatory proteins, but shows 26% identity with that of the murine LY- 6 antigen, and is likely to be absent from the surface of affected erythrocytes in the disease paroxysmal nocturnal hemoglobinuria.
Book ChapterDOI
Control of the complement system.
TL;DR: The complement system is designed to allow rapid, efficient, unimpeded activation on an appropriate foreign target while regulatory proteins intervene to prevent three undesirable consequences of complement activation: excessive activation on a single target, fluid phase activation, and activation on self.
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Structure and biological role of vitronectin.
TL;DR: The structure of the vitronectin molecule and its role in immune defense, inflammation, and Hemostasis are described.
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Complement proteins C5b-9 induce secretion of high molecular weight multimers of endothelial von Willebrand factor and translocation of granule membrane protein GMP-140 to the cell surface.
TL;DR: The capacity of the C5b-9 proteins to stimulate endothelial cells to secrete a platelet adhesive protein provides one mechanism for increased platelet deposition at sites of inflammation, and suggests the potential for other functional changes in endothelium exposed to C5B-9 during intravascular complement activation.
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Journal Article
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Journal ArticleDOI
Affected erythrocytes of patients with paroxysmal nocturnal hemoglobinuria are deficient in the complement regulatory protein, decay accelerating factor
TL;DR: The deficiency of DAF antigen in PNH-E, as assessed by lack of immunoprecipitation and antibody adsorption, could explain the abnormal sensitivity of P NH-E to complement-mediated lysis and suggests that DAF may protect the membranes of normal E from damage resulting from autologous complement activation.
Journal ArticleDOI
Deficiency of an erythrocyte membrane protein with complement regulatory activity in paroxysmal nocturnal hemoglobinuria
TL;DR: The results suggest that the primary molecular defect underlying the clinical manifestations of PNH may be the lack of the membrane-associated DAF protein and that the abnormal cells may also exhibit impaired CR1 function.