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Peer-reviewed veterinary case report

How hypocretin receptor 2 affects narcolepsy and cataplexy in dogs

By Wu, Ming-Fung et al.·Published in The Journal of neuroscience : the official journal of the Society for Neuroscience·2011·Neurobiology Research (151A3), United States·View original on PubMed

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Original publication title: Role of the hypocretin (orexin) receptor 2 (Hcrt-r2) in the regulation of hypocretin level and cataplexy.

Species:
dog

Plain-English summary

A group of dogs with a specific genetic mutation were found to have symptoms similar to narcolepsy in humans, including sudden muscle weakness known as cataplexy. These dogs had normal levels of a brain chemical called hypocretin, which is usually low in narcoleptic patients. Researchers discovered that certain medications could help manage cataplexy in these dogs, but they did not affect hypocretin levels as they do in normal dogs. This suggests that the mutation impacts how the brain regulates cataplexy, rather than simply lowering hypocretin levels.

People also search for: dog narcolepsy symptoms · cataplexy treatment in dogs · hypocretin levels in dogs

Abstract

Hypocretin receptor-2 (Hcrt-r2)-mutated dogs exhibit all the major symptoms of human narcolepsy and respond to drugs that increase or decrease cataplexy as do narcoleptic humans; yet, unlike narcoleptic humans, the narcoleptic dogs have normal hypocretin levels. We find that drugs that reduce or increase cataplexy in the narcoleptic dogs, greatly increase and decrease, respectively, hypocretin levels in normal dogs. The effects of these drugs on heart rate and blood pressure, which were considerable, were not correlated with their effects on cataplexy. Administration of these drugs to Hcrt-r2-mutated dogs produced indistinguishable changes in heart rate and blood pressure, indicating that neither central nor peripheral Hcrt-r2 is required for these cardiovascular effects. However, in contrast to the marked Hcrt level changes in the normal dogs, these drugs did not alter hypocretin levels in the Hcrt-r2 mutants. We conclude that Hcrt-r2 is a vital element in a feedback loop integrating Hcrt, acetylcholine, and norepinephrine function. In the absence of functional Hcrt-r2, Hcrt levels are not affected by monoaminergic and cholinergic drugs, despite the strong modulation of cataplexy by these drugs. Conversely, strong transient reductions of Hcrt level by these drugs do not produce episodes of cataplexy in normal dogs. The Hcrt-r2 mutation causes drug-induced cataplexy by virtue of its long-term effect on the functioning of other brain systems, rather than by increasing the magnitude of phasic changes in Hcrt level. A similar mechanism may be operative in spontaneous cataplexy in narcoleptic dogs as well as in narcoleptic humans.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/21525270/