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Hla

Human leukocyte antigen (HLA) refers to a set of genes in humans that encode cell-surface proteins responsible for presenting peptide antigens to T cells. The HLA region is located on the short arm of chromosome 6 (6p21) within the major histocompatibility complex (MHC). The proteins produced are essential for immune recognition and help distinguish self from non-self.

Two main classes of HLA molecules mediate antigen presentation: class I molecules (HLA-A, HLA-B, HLA-C) present

Clinical relevance: In transplantation, HLA compatibility between donor and recipient at multiple loci greatly influences graft

Laboratory typing methods include serology and molecular techniques such as sequence-based typing and next-generation sequencing. The

endogenous
peptides
to
CD8+
cytotoxic
T
cells,
while
class
II
molecules
(HLA-DR,
HLA-DQ,
HLA-DP)
present
exogenous
peptides
to
CD4+
helper
T
cells.
The
HLA
genes
are
highly
polymorphic,
and
each
person
expresses
two
different
haplotypes
co-dominantly,
yielding
a
broad
repertoire
of
peptide
presentation.
Polymorphism
arises
from
many
alleles;
this
diversity
underpins
tissue
compatibility
and
immune
responsiveness.
survival
and
risk
of
rejection;
typing
typically
includes
HLA-A,
-B,
-C,
-DRB1,
and
sometimes
-DQ
and
-DP.
HLA
associations
with
diseases
are
well
established:
HLA-B27
with
ankylosing
spondylitis;
HLA-DRB1
alleles
with
rheumatoid
arthritis;
HLA-DQ2/DQ8
with
celiac
disease.
In
pharmacogenomics,
certain
alleles
predict
drug
hypersensitivity,
such
as
HLA-B*57:01
and
abacavir
sensitivity,
and
HLA-B*15:02
with
carbamazepine-induced
Stevens–Johnson
syndrome
in
specific
populations.
high
degree
of
polymorphism
and
linkage
disequilibrium
within
the
MHC
makes
full
HLA
matching
complex
but
essential
for
transplantation,
autoimmunity
research,
and
personalized
medicine.