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hypocretin

Hypocretin, also known as orexin, refers to a pair of neuropeptides, hypocretin‑1 (orexin‑A) and hypocretin‑2 (orexin‑B), produced by a small group of neurons in the lateral hypothalamus. These neuropeptides bind to two G‑protein‑coupled receptors, OX1R and OX2R, and play a key role in regulating arousal, wakefulness, and appetite. Their discovery in 1998 highlighted a link between the hypothalamus and sleep‑wake control, leading to the identification of narcolepsy as a disorder associated with hypocretin deficiency.

In the central nervous system, hypocretin neurons project widely to regions involved in sleep regulation, reward,

Beyond sleep, hypocretin modulates feeding behavior and energy metabolism; intracerebroventricular administration stimulates food intake, while antagonism

stress,
and
autonomic
functions,
including
the
locus
coeruleus,
raphe
nuclei,
and
the
ventral
tegmental
area.
Activation
of
OX1R
primarily
influences
reward
and
stress
pathways,
whereas
OX2R
is
more
involved
in
stabilizing
wakefulness.
Loss
of
hypocretin‑producing
cells,
measured
as
low
cerebrospinal
fluid
hypocretin‑1
levels,
is
a
hallmark
of
narcolepsy
type
1
(formerly
narcolepsy
with
cataplexy).
Animal
models
lacking
hypocretin
signaling
display
fragmented
sleep,
reduced
wake
time,
and
altered
energy
balance.
reduces
appetite
in
rodents.
The
system
also
interacts
with
the
hypothalamic‑pituitary‑adrenal
axis,
influencing
stress
responses.
Pharmacologically,
orexin
receptor
antagonists
such
as
suvorexant
are
approved
for
insomnia,
whereas
therapeutic
strategies
to
restore
hypocretin
signaling
are
under
investigation
for
narcolepsy
and
other
disorders.
Research
continues
to
explore
hypocretin’s
broader
roles
in
neuropsychiatric
conditions,
metabolic
disease,
and
neurodegeneration.