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  • Title: Use of phage surface expression to analyze regions of human V4-34(VH4-21)-encoded IgG autoantibody required for recognition of DNA: no involvement of the 9G4 idiotope.
    Author: Mockridge CI, Chapman CJ, Spellerberg MB, Isenberg DA, Stevenson FK.
    Journal: J Immunol; 1996 Sep 15; 157(6):2449-54. PubMed ID: 8805644.
    Abstract:
    The V4-34 gene encodes the majority of autoanti-red cell Abs of I/i specificity. It also encodes a proportion of autoanti-DNA Abs found in patients with systemic lupus erythematosus. Nucleotide sequence analysis of mAbs that use this gene has indicated a role for CDR3 in discrimination between these autoantigens. Specifically, anti-DNA activity may require basic amino acids, such as arginine, found in this region. To investigate this requirement, we have expressed VH and VL sequences from a patient's IgG anti-DNA mAb, as Fab molecules at the surface of phage. Expressed Fab bound strongly to DNA, whereas control VH and VL pairs from an anti-red cell mAb did not. Replacement of the homologous mutated V4-34 sequence by germ-line sequence did not affect binding, indicating that somatic mutations in VH did not contribute significantly. In contrast, replacement of the basic CDR3 by an anti-red cell CDR3 abrogated anti-DNA activity, confirming its major role. However, an influence of VL was revealed by replacing homologous mutated V kappa IIIb by an unmutated V kappa IIIb sequence, reducing binding by approximately 50%. This influence was apparent only with homologous VH since the mutated V kappa was unable to generate anti-DNA activity when combined with anti-red cell VH. The 9G4 idiotope, which arises from FWR1, was expressed by all constructs. Substitution of Trp by Ser at position 7 in FWR11 caused complete loss of idiotope expression, with no effect on recognition of DNA, indicating no influence of idiotope expression on anti-DNA activity. Phage surface expression provides a powerful and rapid technique for assessing sequences relevant for Ab specificity or idiotope expression.
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