Abstract
Narcolepsy type 1 (Na-1) and 2 (Na-2) are characterized by an inability to sustain wakefulness and are likely caused by degeneration of orexin neurons. Near complete orexin neurodegeneration depletes orexin-A from the cerebrospinal fluid and produces Na-1. The pathophysiology of Na-2 is less understood, but has been hypothesized to be due to less extensive loss of orexin neurotransmission. The orexin-tTA; TetO diphtheria toxin A mouse allows conditional control over the extent and timing of orexin neurodegeneration. To evaluate partial ablation of the orexin field as a model of Na-2, orexin-A positive cell counts and sleep/wake phenotypes (determined by piezoelectric monitoring) were correlated within individual mice after different protocols of diet-controlled neurodegeneration. Partial ablations that began during the first 8 days of study were 14% larger than partial ablations induced during the last 8 days of study, six weeks later and prior to sacrifice of all mice, suggesting orexin-A positive cell death continued despite the resumption of conditions intended to keep orexin neurons intact. Sleep/wake of mice with 71.0% orexin-A positive cell loss, initiated at the beginning of study, resembled that of orexin-intact controls more than mice with near complete neurodegeneration. Conversely, mice with 56.6% orexin-A positive cell loss, created at the end of study, had sleep/wake phenotypes that were similar to those of mice with near complete orexin-A positive cell loss. Collectively, these results suggest that compensatory wake-promotion develops in mice that have some critical portion of their orexinergic system remaining after partial ablation.
Statement of significance The pathophysiology of narcolepsy type 2 is poorly understood but has been hypothesized to be due, at least in part, to degeneration of a smaller proportion of the orexin neuronal field than occurs in narcolepsy type 1. To evaluate a transgenic mouse model of narcolepsy type 2, we correlated the sleep/wake phenotypes of individual, male and female adult mice that received diet-induced conditional ablations of orexin neurons with their orexin cell counts. Using a translatable measure of narcolepsy sleepiness severity, we demonstrated that compensatory wake-promoting responses developed in mice concurrent with progressive orexin neurodegeneration. These results provide important details necessary for preclinical drug discovery for therapeutic areas characterized by orexin insufficiency, such as narcolepsy, Parkinson’s disease, and other neurodegenerative disorders.
Abbreviations
- ANOVA
- analysis of variance
- Atax
- orexin/ataxin-3
- CSF
- cerebrospinal fluid
- DOX
- doxycycline
- DOX(+)6wk DOX(−)8d
- DOX chow for 6 weeks followed by standard chow for 8 days
- DOX(+)7wk
- DOX chow for 7 weeks
- DOX(−)7wk
- standard chow for 7 weeks
- DOX(−)8d (RD)6wk
- standard chow for 8 days followed by resumed DOX chow for 6 weeks
- DTA
- orexin-tTA; TetO diphtheria toxin A
- EDS
- excessive daytime sleepiness
- EEG
- electroencephalography
- EMG
- electromyography
- f
- fornix
- ic
- internal capsule
- LD12:12
- 12 h light period, 12 h dark period
- MSLT
- multiple sleep latency test
- MWT
- maintenance of wakefulness test
- Na-1
- narcolepsy type 1
- Na-2
- narcolepsy type 2
- NREM
- non-rapid-eye-movement
- PBS
- phosphate-buffered saline
- REM
- rapid-eye-movement
- RM ANOVA
- repeated-measures analysis of variance
- SBD
- sleep bout duration
- S.E.M.
- standard error of the mean
- Sox
- supraoptic decussation
- TetO
- Tet Off
- tTA
- tetracycline transactivator
- WBD
- wake bout duration
- WT
- wild type
- ZT
- zeitgeber time