Antibodies are major components of
humoral immunity. IgG is the main type of antibody found in
blood and
extracellular fluid, allowing it to control infection of body
tissues. By binding many kinds of
pathogens such as
viruses,
bacteria, and
fungi, IgG protects the body from infection. It does this through several mechanisms: • IgG-mediated binding of pathogens causes their immobilization and binding together via
agglutination; IgG coating of pathogen surfaces (known as
opsonization) allows their recognition and ingestion by
phagocytic immune cells, leading to the elimination of the pathogen itself; • IgG activates the
classical pathway of the
complement system, a cascade of immune
protein production that results in pathogen elimination; • IgG also binds and
neutralizes toxins; • IgG also plays an important role in
antibody-dependent cell-mediated cytotoxicity (ADCC) and
intracellular antibody-mediated proteolysis, in which it binds to
TRIM21 (the receptor with greatest affinity to IgG in humans) in order to direct marked virions to the
proteasome in the cytosol; • IgG is also associated with type II and type III
hypersensitivity reactions. IgG antibodies are generated following
class switching and maturation of the antibody response, thus they participate predominantly in the
secondary immune response. IgG is secreted as a monomer, which is small in size, allowing it to easily
diffuse into tissues. It is the only
antibody isotype that has
receptors to facilitate passage through the human
placenta, thereby providing protection to the
fetus in utero. Along with
IgA secreted in the
breast milk, residual IgG absorbed through the placenta provides the
neonate with humoral immunity before its own
immune system develops.
Colostrum contains a high percentage of IgG, especially bovine colostrum. In individuals with prior immunity to a pathogen, IgG appears about 24–48 hours after antigenic stimulation. Therefore, in the first six months of life, the newborn has the same antibodies as the mother and can defend itself against all the pathogens the mother encountered in her life (even if only through vaccination) until these antibodies are degraded. This repertoire of immunoglobulins is crucial for newborns, who are very sensitive to infections, especially in the respiratory and digestive systems. IgG is also involved in regulating allergic reactions. According to Finkelman, there are two pathways of systemic
anaphylaxis: antigens can cause systemic anaphylaxis in mice through classic pathway by cross-linking
IgE bound to the
mast cell receptor
FcεRI, stimulating the release of both
histamine and
platelet activating factor (PAF). In the alternative pathway, antigens form complexes with IgG, which then cross-link the
macrophage receptor
FcγRIII, stimulating only PAF release. IgG antibodies can prevent IgE-mediated anaphylaxis by intercepting a specific antigen before it binds to mast cell–associated IgE. Consequently, IgG antibodies block systemic anaphylaxis induced by small amounts of
antigen, but can mediate systemic anaphylaxis induced by larger amounts. == Structure ==