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proenkephalin

Proenkephalin, also known as preproenkephalin, is a precursor protein that gives rise to enkephalin opioid peptides. In humans, it is encoded by the PENK gene and is expressed in various brain regions, including the striatum, cortex, hypothalamus, and brainstem, as well as in some peripheral tissues. The translated polypeptide contains several enkephalin sequences separated by basic amino acid pairs that serve as cleavage sites. Proteolytic processing by prohormone convertases and carboxypeptidases cleaves proenkephalin to generate multiple active opioid peptides, most notably Met-enkephalin and Leu-enkephalin, which are among the endogenous ligands for opioid receptors.

Enkephalin peptides derived from proenkephalin primarily bind to delta opioid receptors and, to a lesser extent,

Regulation and clinical relevance: Altered PENK expression or enkephalin levels have been linked to pain sensitivity,

Note: The term preproenkephalin reflects the presence of a signal peptide that directs the nascent polypeptide

mu
receptors,
producing
analgesia,
modulation
of
nociception,
and
effects
on
mood,
stress,
and
reward.
Proenkephalin-derived
peptides
participate
in
pain
inhibition,
emotional
regulation,
and
neuroendocrine
signaling,
and
are
released
with
other
neurotransmitters
in
response
to
stress
or
noxious
stimuli.
opioid
tolerance,
mood
disorders,
and
addiction-related
processes
in
both
preclinical
and
clinical
contexts.
The
gene
and
its
peptide
products
are
studied
as
targets
for
analgesic
therapies
and
as
biomarkers
for
affective
states.
to
the
secretory
pathway;
after
signal
peptide
removal,
the
proenkephalin
protein
is
processed
to
active
enkephalin
peptides.