Esohe Idusogie scite author profile

Rituxan (Rituximab) is a chimeric mAb with human IgG1 constant domains used in the therapy of non-Hodgkin’s B cell lymphomas. This Ab targets B cells by binding to the cell-surface receptor, CD20. In our investigation of the mechanism of B cell depletion mediated by Rituximab, we first constructed mutants of Rituximab defective in complement activation but with all other effector functions intact. Our results demonstrate that the previously described C1q binding motif in murine IgG2b constituting residues E318, K320, and K322 is not applicable to a human IgG1 when challenged with either human, rabbit, or guinea pig complement. Alanine substitution at positions E318 and K320 in Rituximab had little or no effect on C1q binding and complement activation, whereas alanine substitution at positions D270, K322, P329, and P331 significantly reduced the ability of Rituximab to bind C1q and activate complement. We have also observed that concentrations of complement approaching physiological levels are able to rescue >60% of the activity of these mutant Abs with low affinity for C1q. These data localize the C1q binding epicenter on human IgG1 and suggest that there are species-specific differences in the C1q binding site of Igs.

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Engineered Antibodies with Increased Activity to Recruit Complement

Idusogie¹,

Wong²,

Presta³

et al. 2001

266

168

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This manuscript describes two sites in a human IgG1 that, when mutated individually or in combination, result in a dramatic increase in C1q binding and complement-dependent cytotoxicity activity. These two residues, K326 and E333, are located at the extreme ends of the C1q binding epicenter in the CH2 domain of a human IgG. A mutation to tryptophan at K326 debilitates Ab-dependent cell-mediated cytotoxicity activity. In addition, substitutions of the residues E333 with serine and of K326 with tryptophan in a human IgG2 confer biological activity in the complement-dependent cytotoxicity assay in which the wild-type IgG2 is inactive. This study reveals that the residues K326 and E333 play a significant role in the control of the biological activity of an IgG molecule and can rescue the activity of an inactive IgG isotype.

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Mice lacking factor VII develop normally but suffer fatal perinatal bleeding

Rosen

Chan

Idusogie

et al. 1997

Nature

222

112

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Blood coagulation in vivo is initiated by factor VII (FVII) binding to its cellular receptor tissue factor (TF). FVII is the only known ligand for TF, so it was expected that FVII-deficient embryos would have a similar phenotype to TF-deficient embryos, which have defective vitello-embryonic circulation and die around 9.5 days of gestation. Surprisingly, we find that FVII-deficient (FVII-/-) embryos developed normally. FVII-/- mice succumbed perinatally because of fatal haemorrhaging from normal blood vessels. At embryonic day 9.5, maternal-fetal transfer of FVII was undetectable and survival of embryos did not depend on TF-FVII-initiated fibrin formation. Thus, the TF-/- embryonic lethal and the FVII-/- survival-phenotypes suggest a role for TF during embryogenesis beyond fibrin formation.

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Characterization of a cDNA Encoding Murine Coagulation Factor VII

et al. 1996

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SummaryThe cDNA encoding murine coagulation factor VII (mfVII) was isolated and reconstructed from a Λ Zap cDNA library generated from murine liver mRNA. The cDNA contains 1903 nucleotides spanning 15 bases upstream of the 5’-translation initiation codon, an open reading frame of 1338 nucleotides, 550 nucleotides downstream of the first stop codon and a 3’ poly(A) tail. The translation product is composed of a 41-amino acid signal/propeptide region followed by a 405-residue mature protein. The latter is highly homologous to that of human, rabbit, bovine, Rhesus monkey, and canine fVII. All protein domains of hfVII are strictly conserved in mfVII.

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Esohe Idusogie

Mapping of the C1q Binding Site on Rituxan, a Chimeric Antibody with a Human IgG1 Fc

Engineered Antibodies with Increased Activity to Recruit Complement

Mice lacking factor VII develop normally but suffer fatal perinatal bleeding

Characterization of a cDNA Encoding Murine Coagulation Factor VII

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