Conversion of incomplete antibodies to direct agglutinins by mild reduction: evidence for segmental flexibility within the Fc fragment of immunoglobulin G.

Romans, D. G.; Tilley, C A; Crookston, Marie C.; Falk, R. E.; Dorrington, Keith J.

doi:10.1073/pnas.74.6.2531

Cited by 53 publications

(28 citation statements)

References 31 publications

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“…DISCUSSION Reduction of the interheavy-chain hinge disulfide of the IgG molecule interferes with several of the effector functions of the antibody. The complement-fixing ability of the antibody is destroyed (7,8), incomplete antibodies are converted to direct hemagglutinins (25), and the binding of whole antibody to membrane-bound Fc receptors is abolished by mild reduction (26,27). However, studies of the structure of monomeric antibodies have provided little understanding of the effects of cleavage of this disulfide bond.…”

Section: Methodsmentioning

confidence: 99%

Changes in quaternary structure of IgG upon reduction of the interheavy-chain disulfide bond.

Seegan¹,

Smith²,

Schumaker³

1979

Proc. Natl. Acad. Sci. U.S.A.

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Reduction of the single disulfide bond between heavy chains in the hinge region of rabbit IgG antibody causes destabilization of the CH2 region of the molecule. Our studies indicate that reduced antibody molecules undergo a large change in quaternary structure in the CH2 region upon aggregation with a small bivalent hapten. The conformational change was observed both in hydrodynamic studies and by electron microscopy. Immunoglobulins trigger the classical pathway of complement fixation by activation of the first component of the serum complement cascade, Cl; the immunoglobulins interact directly with C1 by binding to the structural component of the C1 complex, Clq. Still, the mechanism of activation is not well understood. While both monomeric and aggregated IgG have been shown to be capable of binding Clq (1, 2), monomeric antibodies (with a few notable exceptions) have been found to be very poor activators of complement (3, 4).Formation of immune complexes greatly enhances the ability of antibodies to fix complement. Aggregation of monomeric IgG by treatment with antigen, heat, or crosslinking reagents has been found to convert the antibodies to potent activators of complement (5, 6). Other studies, however, have shown the requirements for activation to be more complex in that some critical elements of native antibody structure must be preserved in the aggregate. Mild reduction of immunoglobulins has been reported to greatly reduce the complement-fixing ability of the antibody without affecting antigen binding (7,8). Investigations of the effects of mild reduction have demonstrated that the hinge region disulfide of rabbit IgG is preferentially cleaved under these conditions (9). The importance of the hinge region in the mechanism of complement activation has been further suggested by the localization of the site of Clq binding within the CH2 region of the immunoglobulin molecule, at or near the hinge region (10, 11). However, cleavage of this disulfide has been reported to have no effect on the tertiary structure of the antibody or on its ability to bind Clq (12-16).Crystallographic analyses of human IgG have recently shown the CH2 region to be atypical in its lack of contacts between the individual CH2 domains (17, 18). Fc fragments of immunoglobulins have been shown to be capable of binding complement but, surprisingly, their activity seemed to be independent of the integrity of the hinge disulfide (19,20). The Fc fragment of human IgG4 has also been found to activate complement while the whole antibody was inactive, suggesting that the Fab fragments can somehow interact with CH2 region and might play a role in the complement activation (19).These results seem to indicate that the complement fixation depends upon the quaternary structure of the CH2 region, and that the structure of the CH2 region is modulated in aggregates by the presence of the Fab arms of the antibody and also by the hinge disulfide bond between heavy chains.We have examined the effects of reduction upon small, well-defined antib...

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Section: Methodsmentioning

confidence: 99%

Changes in quaternary structure of IgG upon reduction of the interheavy-chain disulfide bond.

Seegan¹,

Smith²,

Schumaker³

1979

Proc. Natl. Acad. Sci. U.S.A.

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“…These data as well as those obtained with nonprecipitating equine antibodies of high affinity to the p-azophenyl-fl-lactoside (Lac) haptenic group coupled to protein carrier molecules rule out univalence and low affinity as explanations for functional differences (51). Because mild reduction by 10 mM DTT did not convert the low affinity anti-Av-CHO antibodies into lytic ones, these antibodies do not correspond structurally to the incomplete anti-Rh antibodies (28). Depending on the functional properties of anti-Av-CHO antibodies residing in the determinant specificity for this linear poly-rhamnosyl moiety, the associative model of complement activation and not the allosterie model appears to account for the phenomenon (52).…”

Section: Discussionmentioning

confidence: 71%

“…Lysis was expressed as a percent against water-lysed Av-CHO-SRBC and SRBC controls in supernates. These experiments were also performed in the presence of 10 mM dithio-threitol (DTT), Clelands reagent, Calbiochem for two low affinity antibody fractions of single-band purity (28).…”

mentioning

confidence: 99%

Distinct functions of monoclonal IgG antibody depend on antigen-site specificities.

Schalch¹,

Wright²,

Rodkey³

et al. 1979

The Journal of Experimental Medicine

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Intraveneous hyperimmunization of selectivity bred rabbits with streptococcal group A-variant vaccines elicits antibody responses of restricted heterogeneity at high antibody levels. All antisera contain two functionally distinct antibody populations, which can be isolated in single-band purity upon analytical isoelectric focusing. Typical examples of these two kinds of single-band antibodies were investigated in great detail for several parameters by a variety of methods. 85--99% of the streptococcal group A-variant polysaccharide (Av-CHO)-specific antibody in the antisera does not precipitate the isolated 5,000 daltons poly-L-rhamnose antigen, neither agglutinates nor lyses in the presence of complement Av-CHO-coated sheep erythrocytes (SRBC), binds the radio-labeled Av-CHO with an association constant in the ragne of 10(5)--10(6) M-1, and is of terminal specificity (nonreducing end) for the linear Av-CHO. In contrast, the minor fraction of Av-CHO-specific antibody (1--15%) does precipitate the linear Av-CHO, both agglutinates and lyses Av-CHO-coated SRBC in the presence of complement, has an affinity range of 10(8)--10(9) M-1, and is of internal specificity for the Av-CHO. The antigenic determinants of the Av-CHO for the antibodies are nonoverlapping, only one Fab of the low affinity antibody can be bound whereas four Fab of the high affinity antibody are accommodated. Hence, the determinant specificity explains the functional differences observed, for there is no indication of subclass differences. A mechanistic model of the A-variant carbohydrate presentation on the vaccine appears to account best for the unbalanced levels of low and high affinity antibody.

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“…Heat can be used to elute the sensitising antibody from red cells [ 1 ], as can chloroquine diphosphate (CDP) [2] or ZZAP [3]. These methods have disadvantages in that they cannot always dissociate the red cell-bound immunoglobulin without causing damage to either cell integrity or antigen reactivity [1,3,4], Another method for phenotyping, but not requiring the antiglobulin technique, is to use chem ically modified antisera [5].…”

Section: Introductionmentioning

confidence: 99%

Use of Fab Anti-IgG in Phenotyping IgG-Sensitised Red Cells

Henry¹,

Baird²,

Woodfield³

1987

Vox Sanguinis

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Previously described methods of phenotyping red cells sensitised with IgG using the indirect antiglobulin test required the dissociation of the coating protein. Based on an entirely different principle, Fab fragments of anti-human IgG (Fab anti-IgG) were used to block the antiglobulin binding sites on cell-bound IgG molecules, removing the necessity to dissociate them from the red cell. Fab anti-IgG was found to be effective in blocking interfering IgG on in vivo and in vitro IgG-sensitised red cells, permitting successful red cell phenotyping. Strongly IgG-sensitised samples which could not be fully neutralised by chloroquine diphosphate (CDP) or blocked with Fab anti-IgG alone could usually be phenotyped using a combination of both these methods. This new procedure may be of use in immunohaematology laboratories.

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Conversion of incomplete antibodies to direct agglutinins by mild reduction: evidence for segmental flexibility within the Fc fragment of immunoglobulin G.

Cited by 53 publications

References 31 publications

Changes in quaternary structure of IgG upon reduction of the interheavy-chain disulfide bond.

Changes in quaternary structure of IgG upon reduction of the interheavy-chain disulfide bond.

Distinct functions of monoclonal IgG antibody depend on antigen-site specificities.

Use of Fab Anti-IgG in Phenotyping IgG-Sensitised Red Cells

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