Complementing antibody profiles: Assessing antibody function on antigen microarrays
Abstract:
Antibody effector functions other than neutralization depend on
interactions with soluble and cellular components of the immune
system. Antigen recognition is usually oligoclonal, with the
different clones of antibodies belonging to different classes,
subclasses, glycoforms and having different affinities and
epitope specificities. Thus, composition of immune complexes
determines biological effects mainly via interactions with FcR
and complement proteins. Antibodies are capable of triggering
any of the three pathways of complement activation and antigen
recognition of complex antigens often results in the activation
of more than one pathway. These events can be tracked in a
multiplex format using antigen microarrays, where complement
products bind to elements of the microarray. By controlling
cation concentrations and detecting various complement
components (C1q, C4, C3) contribution of the different pathways
can be identified. Parallel measurement of antibodies and
complement proteins provides a novel way of looking at
interactions between antigen and antibodies. We propose the use
of immune complex signatures, composite depictions of antibody
and complement content of immune complexes characterizing
healthy and diseased populations. Normalized interquartile
ranges of antibody binding (IgM, IgG) and complement deposition
(C4, C3) are projected onto radar charts to produce patterns
that can distinguish normal and altered immune responses. We
propose that comprehensive interaction studies of serum
antibodies and complement with arrays of antigens can generate
functional antibody profiles and help better understand
immunological disease mechanism.