R. B. Sim scite author profile

A cDNA clone of the mRNA coding for the human complement system control protein Factor I has been isolated. The predicted amino acid sequence obtained from the DNA sequence demonstrates a protein consisting of a heavy chain (Mr 35,400) linked to a light chain (Mr 27,600), both of which contain three sites for N-linked glycosylation. The light chain has clear homology with other serine proteinases, most notably in the region of the catalytically active and structurally important amino acids and shares some of the features characteristic of the plasminogen activators. The heavy chain has a clear 'mosaic' nature typical of the plasma serine proteinases; in particular it contains class A and class B LDL (low-density lipoprotein) receptor repeats with conserved cysteine residues similar to those found in other complement proteins.

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Interaction of human monocytes, macrophages, and polymorphonuclear leukocytes with zymosan in vitro. Role of type 3 complement receptors and macrophage-derived complement.

Ezekowitz¹,

Sim²,

MacPherson³

et al. 1985

J. Clin. Invest.

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Heterozygous and homozygous factor H deficiency states in a Dutch family

Fijen

Kuijper

Bulte

et al. 1996

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SUMMARYFactor H, a 150-kD protein, is an important down-regulating protein of the alternative pathway of the complement system. Presently, only 15 persons, representing seven families, have been described with homozygous factor H deficiency. Deficiency of this protein, inherited as an autosomal recessive trait and resulting in uncontrolled breakdown of C3, results in depletion of components of the alternative pathway (factor B, properdin) and of the terminal pathway (C5), and is associated with the onset of bacterial infections, glomerulonephritis and systemic lupus erythematosus (SLE). The proband of the family in this study suffered from subacute cutaneous lupus erythematosus and had had meningococcal meningitis due to serogroup X. She had a complete factor H deficiency at the protein level as determined by Western blotting. Among 21 relatives of the proband studied, encompassing three generations, 10 had low factor H levels, including the two children of the proband, indicating a heterozygous factor H deficiency state. In serum samples of the proband and 11 relatives prospectively studied, a strong correlation of factor H levels with C3, C3 haemolytic activity, factor B and properdin levels (P < 0 . 0001) was found. Alternative pathway protein levels were significantly lower (Mann-Whitney test; Z values 3 . 6-2 . 7) in sera from the four heterozygous relatives studied than in sera from the seven non-deficient relatives. In addition, a defect of the 37/42-kD H-related protein was found in the proband and two of 21 relatives, compared with four of 40 controls. A defect of the 24/29-kD H-related protein was present in one of 21 relatives studied and in none of the 40 controls.

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Structure, Organization, and Regulation of the Complement Genes

Campbell¹,

Law²,

Reid³

et al. 1988

Annu. Rev. Immunol.

163

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Biochemical studies on red blood cells from a patient with the Inab phenotype (decay-accelerating factor deficiency)

Reid¹,

Mallinson²,

Sim³

et al. 1991

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A 38-year-old Russian woman (KZ) has been identified as the fourth proposita with the Inab blood group phenotype. Like the first two propositi, she has a chronic intestinal disorder and, as shown for the third proposita, her Inab phenotype is demonstrably inherited. KZ's serum contained anti-IFC, which reacted with a red blood cell (RBC) membrane component with an Mr of 70,000, which is decay accelerating factor (DAF). Her RBCs lacked all Cromer-related blood group antigens and DAF. Her RBCs were no more susceptible than normal control RBCs to lysis in acid lysis or in rabbit or human antibody-initiated complement lysis tests. Northern blots of total RNA isolated from KZ's Epstein- Barr virus-transformed lymphoblasts showed a marked reduction of DAF mRNA when compared with normal. Polymerase chain reaction (PCR) amplification of cDNA confirmed this reduced level of DAF mRNA. Sequencing of the PCR product showed a 44-nucleotide deletion in the mRNA close to the short consensus repeats IIIa/IIIb intron/exon boundary. This deletion results in a change in the reading frame that places a termination codon six amino acids after the deletion. The putative translation product would lack a glycosyl phosphatidyl- inositol linkage site and, therefore, would not be membrane-bound in the RBC.

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R. B. Sim

Characterization of primary amino acid sequence of human complement control protein factor I from an analysis of cDNA clones

Interaction of human monocytes, macrophages, and polymorphonuclear leukocytes with zymosan in vitro. Role of type 3 complement receptors and macrophage-derived complement.

Heterozygous and homozygous factor H deficiency states in a Dutch family

Structure, Organization, and Regulation of the Complement Genes

Biochemical studies on red blood cells from a patient with the Inab phenotype (decay-accelerating factor deficiency)

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