Abstract
Immunoglobulin G (IgG) adopts a modular multidomain structure that mediates antigen recognition and effector functions, such as complement-dependent cytotoxicity. IgG molecules are self-assembled into a hexameric ring on antigen-containing membranes, recruiting the complement component C1q. In order to provide deeper insights into the initial step of the complement pathway, we report a high-speed atomic force microscopy study for the quantitative visualization of the interaction between mouse IgG and the C1 complex composed of C1q, C1r, and C1s. The results showed that the C1q in the C1 complex is restricted regarding internal motion, and that it has a stronger binding affinity for on-membrane IgG2b assemblages than C1q alone, presumably because of the lower conformational entropy loss upon binding. Furthermore, we visualized a 1:1 stoichiometric interaction between C1/C1q and an IgG2a variant that lacks the entire CH1 domain in the absence of an antigen. In addition to the canonical C1q-binding site on Fc, their interactions are mediated through a secondary site on the CL domain that is cryptic in the presence of the CH1 domain. Our findings offer clues for novel-modality therapeutic antibodies.
Highlights
Immunoglobulin G (IgG) is a crucial mediator of the defensive mechanisms that eliminate infectious microorganisms
The heavy chain comprises VH, CH1, CH2, and CH3 domains, whereas the light chains are divided into VL and CL domains
One IgG molecule can be separated into two Fab and one Fc fragments, tethered at a flexible, disulfide-linked hinge region connecting the CH1 and CH2 domains
Summary
Immunoglobulin G (IgG) is a crucial mediator of the defensive mechanisms that eliminate infectious microorganisms. A variety of IgG molecules are currently being used as therapeutic antibodies because of their antigen-binding specificities and/or cytotoxic ability [2,3]. IgG binds these effector molecules primarily through its hinge-proximal region spanning the two CH2 domains.
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