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autoantigens

Autoantigens are self-derived molecular targets recognized by the immune system in autoimmune diseases. They are components of the body's own tissues or cells that, under certain conditions, become the focus of an immune response. Autoantigens can be intracellular or extracellular, and their recognition by autoreactive B or T cells can contribute to tissue injury.

Mechanisms leading to autoimmunity include loss of self-tolerance, molecular mimicry where foreign antigens resemble self components,

Autoantigens are often categorized as organ-specific, such as thyroid peroxidase or insulin, or systemic, such as

Autoantigens are central to diagnostic testing. Autoantibody assays—indirect immunofluorescence, ELISA, and immunoblot—detect antibodies against specific autoantigens.

Therapeutically, targeting autoreactive B cells or modulating tolerance is an area of study. Treatments such as

and
epitope
spreading
that
broadens
reactivity.
Post-translational
modifications
such
as
citrullination
or
phosphorylation
can
create
neoepitopes
that
escape
tolerance.
Sequestered
antigens
released
during
tissue
damage
or
apoptosis
can
also
become
targets.
double-stranded
DNA,
histones,
SSA/SSB
or
glutamate
decarboxylase.
In
rheumatoid
arthritis,
citrullinated
proteins
are
prominent
autoantigens;
in
systemic
lupus
erythematosus,
anti-dsDNA
and
anti-Sm
are
common.
Autoantibodies
against
erythrocyte,
platelet,
or
basement
membrane
components
are
involved
in
related
diseases.
The
presence
and
pattern
of
autoantibodies
can
aid
diagnosis,
influence
prognosis,
and,
in
some
diseases,
precede
clinical
onset
by
years.
B-cell
depletion
or
tolerance-inducing
approaches
aim
to
reduce
autoantigen-directed
responses
and
limit
tissue
damage.