Your search keyword '"Cataplexy genetics"' showing total 3 results

1. The roles of midbrain and diencephalic dopamine cell groups in the regulation of cataplexy in narcoleptic Dobermans.

Author

Okura M, Fujiki N, Kita I, Honda K, Yoshida Y, Mignot E, and Nishino S

Subjects

Animals, Cataplexy genetics, Cataplexy metabolism, Diencephalon drug effects, Dogs, Dopamine genetics, Dopamine Agents pharmacology, Dose-Response Relationship, Drug, Male, Mesencephalon drug effects, Narcolepsy genetics, Diencephalon physiology, Dopamine metabolism, Mesencephalon physiology, Narcolepsy metabolism

Abstract

Cataplexy, an emotion-triggered sudden loss of muscle tone specific to narcolepsy, is tightly associated with hypocretin deficiency. Using hypocretin receptor 2 gene (hcrtr 2)-mutated narcoleptic Dobermans, we have previously demonstrated that altered dopamine (DA) D(2/3) receptor mechanisms in mesencephalic DA nuclei are important for the induction of cataplexy. In the current study, we also found that the administration of D(2/3) agonists into diencephalic dopaminergic cell groups, including the area dorsal to the ventral tegmental area (DRVTA) and the periventricular gray (PVG) matter of the caudal thalamus (corresponding to area A11), significantly aggravated cataplexy in hcrtr 2-mutated narcoleptic Dobermans. A D(1) agonist and antagonist and a DA uptake inhibitor perfused into the DRVTA had no effect on cataplexy, suggesting an involvement of D(2/3) receptors located on DA cell bodies (i.e., autoreceptors) for the regulation of cataplexy. Because the A11 cell group projects to the spinal ventral horn, the A11 D(2/3) receptive mechanisms may directly modulate the activity of spinal motoneurons and modulate cataplexy.

Published

2004

2. Development of cataplexy in genetically narcoleptic Dobermans.

Author

Riehl J, Nishino S, Cederberg R, Dement WC, and Mignot E

Subjects

Age of Onset, Animals, Crosses, Genetic, Disease Progression, Dogs, Female, Humans, Male, Reproducibility of Results, Cataplexy genetics, Heterozygote, Narcolepsy genetics, Sex Characteristics

Abstract

Forty-two genetically narcoleptic Doberman puppies [20 pure narcoleptic (N) puppies (from four narcoleptic x narcoleptic crosses) and 22 backcross narcoleptic (BN) puppies (from six narcoleptic x heterozygous crosses)] were systematically observed during the developmental period (4-24 weeks) to assess the age at onset and severity of cataplexy, a pathological manifestation of REM sleep atonia seen in narcolepsy. The mean age of onset of cataplexy was 9.69 +/- 1.15 weeks, with a median age of 7 weeks. The severity of cataplexy increased with age and reached a plateau at around 16-24 weeks. The effects of cross type (N vs BN) and sex on the development of cataplexy were analyzed. There was no difference in severity between N and BN puppies (P = 0.51). However, females had more severe cataplexy than males (P = 0.01), and this trend was preserved in five of the six litters that had both male and female puppies. These results suggest that the pathophysiological process in genetic canine narcolepsy emerges during the early developmental period and that it may involve a differential development in males and females. Furthermore, our results revealed that cataplexy onset corresponds to the emergence of adult-like REM sleep and to previously reported neuroanatomical and neurochemical abnormalities in canine narcolepsy., (Copyright 1998 Academic Press.)

Published

1998

3. Canine model of narcolepsy: genetic and developmental determinants.

Author

Baker TL, Foutz AS, McNerney V, Mitler MM, and Dement WC

Subjects

Animals, Crosses, Genetic, Dogs, Female, Genes, Recessive, Humans, Male, Models, Genetic, Pedigree, Aging, Cataplexy genetics, Narcolepsy genetics

Published

1982