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protocadherins

Protocadherins are a large group of cell adhesion molecules in the cadherin superfamily that function in calcium-dependent cell–cell adhesion. They are predominantly expressed in the vertebrate nervous system and are distinguished by their highly diverse extracellular domains and variable expression patterns.

Genetic organization: clustered protocadherins are encoded by three gene clusters (PCDHα, PCDHβ, PCDHγ) on chromosome 5

Function: in brain development, protocadherins contribute to neuronal self-avoidance, dendritic arborization, and synaptic specificity, by enabling

Clinical significance: alterations in protocadherin genes, including mutations and epigenetic changes, have been associated with neurodevelopmental

in
humans.
Each
gene
typically
contains
a
promoter
that
drives
expression
of
a
variable
exon,
which
splices
to
a
common
constant
region
to
produce
a
unique
extracellular
and
membrane-tethered
isoform.
This
architecture
allows
extensive
combinatorial
diversity,
generating
hundreds
of
protocadherin
isoforms
through
promoter
choice
and
alternative
splicing.
homophilic
interactions
that
help
distinguish
neighboring
neurons.
The
prevailing
view
is
that
each
neuron
expresses
a
distinctive
set
of
protocadherin
isoforms;
matching
isoforms
promote
adhesion
and
synaptic
connections,
while
non-matching
isoforms
reduce
adhesion,
influencing
neural
circuit
formation.
disorders
such
as
autism
spectrum
conditions
and
intellectual
disability,
as
well
as
with
cancer
in
some
contexts.
Ongoing
research
aims
to
clarify
their
signaling
interactions
with
intracellular
scaffolding
proteins
and
their
precise
roles
in
neural
connectivity.