Lecture 13: Orexins and Narcolepsy Flashcards
what is narcolepsy?
Sleep disorder incidence of 1 in 2000, appears between ages of 15 and 30 years, with 4 main symptoms:
Excessive daytime sleepiness with irresistible sleep attacks during the day.
Cataplexy (brief episodes of muscle weakness/paralysis precipitated by strong emotions such as laughter or surprise).
Sleep paralysis–abnormal episode of REM sleep atonia.
Hypnagogic hallucinations or dream-like images that occur at sleep onset.
what are orexins/hypocretins?
Two carboxy-terminally amidated neuropeptides of related sequence.
Synthesized by a few 1000 cells in the brain.
Function via two G-protein-coupled receptors.
Differentially distributed throughout the brain.
Fibres containing these neuropeptides innervate many brain areas including those implicated in the control of cardiovascular function, ingestive behaviour, and sleep-wake cycles.
Peptides primarily excitatory and central injection stimulates food intake, blood pressure, locomotor activity, increases wakefulness, and suppressing REM sleep.
2 types,
Hcrt1, Hcrt2 or OX1R OX2R both from same precursor.
precursor of orexins?
preprohypocretin. found in puffer fish and various frog species.
indicates that gene arose early in chordate lineage.
Sequence similarities with various members of incretin family. Secretin gene, indicate that Hcrt gene formed from secretin gene by three genetic arrangements.
3-D structure determined by NMR show similarities between secretins and hypocretins.
USA scientists and hypocretin discovery?
found hypothalamus specific peptides with neuroexcitatory activity.
particularly in the lateral hypothalamus.
hypocretins found in both cell bodies and also in vesicles in terminals.
involved in transmission of info.
hypocretin increases the frequency of postsynaptic events in most cultured hypothalamic neurons.
Orexin discovery?
family of hypothalamic neuropeptides and GPCR that regulate feeding behaviour.
lateral hypothalamus again.
rats.
found injection of orexin into the brain stimulates food intake, both OX1/2R. even in full satisfied rats.
fasted rat has high orexin, once ate reduced.
stimulates appetite.
orexins found where?
only lateral hypothalamus. small number but extensive projections throughout the brain.
hypo, basal forebrain, cortex, hippocampus, spinal cord.
orexin role?
excitatory, stimulates post synaptic cell.
Orexin-ir vesicles found
in presynaptic terminals
forming presumed
excitatory synapses.
orexin neurons with green fluorescent protein (GFP) mice.
GFP expressed by the cells with orexin gene.
can make specific recordings.
low concentrations of glucose activate orexin neurones.
can determine metabolic state of animal since glucose crosses BBB.
Leptin and Ghren effects on orexin?
sensitive to metabolic cues
Leptin inhibits orexin neurones, indicates fat reserves.
Ghrelin (metabolically comproised, peripheral hormone gets in brain)
activates orexin neurons.
how do mice lacking orexin neurons respond to fasting?
unusual.
orexin KO mice + sleep?
unusual sleep/wake cycles.
normal mice: transitions smoothly between wake/SWS/REM.
KO: rapid transitions to REM frmo wake.
EMG/EEG:
???
Narcoptic like bout:
EEG/EMG
straight into REM from wake, cannot move.
cannot maintain a behavioural state (behavioural state instability).
Have more transitions between all behavioural states, both light/dark comapred to WT.
also have cataplexy which WT don’t.
mice with Ox1/2R KO
OX1R KO:
wake/REM & non-rem/REM transitions.
cataplexy, paralysis, SOREM periods.
OX2R KO:
wake/non-rem transitions.
non-REM sleep attacks, excessive sleepiness.
both contribute to narcolepsy-cataplexy syndrome.
slightly different roles.
other narcoleptic models?
Doberman Pinschers:
Narcolepsy inherited as autosomal-recessive fully penetrant phenotype.
once orexin discovered, found out that defective canine narcolepsy gene encodes Hctr2/Ox2R receptor.
Truncated receptor protein which does not localize to membrane and does not bind ligands ie orexin.
Labradors: their Hcrtr2/Ox2R gene has a distinct mutation skipping exon 6 leading to truncated receptor protein.
Dachshunds: point mutation in Hcrtr2/Ox2R gene results in receptor protein that reaches membrane but cannot bind the hypocretin.
humans narcoleptic vs controls
orexin mRNA in narcoleptics non existant in lateral hypothalamus.
MCH mRNA (other peptide found in hypothalamus) same in narcoleptic and controls.
therefore selective loss of orexin.
model of narcolepsy?
not fully understood.
but since onset is usually 15-30 must have normal amount but lose them over time.
maybe auto immune.
similar to psarkinsons, loss of dopamine over time.
don’t show symptoms until lost a certain amount of orexin/dopamine
