OBJECTIVES: Alterations in the prostaglandin-D-system have been found in animal sleep experiments and disorders that present with hypersomnia or sleep disturbances. The recently demonstrated involvement of the leptomeningeal lipocalin-type prostaglandin-Dsynthase (L-PGDS) (beta-trace) in human physiological sleep encouraged us to investigate its role in the pathophysiology of narcolepsy. METHODS: In a pilot study, serum LPGDS and melatonin concentrations were assessed in 14 narcoleptic patients during undisturbed sleep and total sleep deprivation, compared with those from 14 healthy controls during undisturbed sleep. Excessive daytime sleepiness was measured by a standardized questionnaire (Epworth sleepiness scale, ESS). RESULTS: In narcoleptic patients, markedly increased baseline L-PGDS levels were significantly correlated with the ESS score, but not with the degree of cataplexy. Serum L-PGDS concentrations in patients as well as in controls followed a time-dependent fluctuation with evening increases, highest values during the night and in the morning. Compared with controls, patients exhibited significant/increased amplitude of circulating L-PGDS without any suppression by total sleep deprivation. CONCLUSION: These findings indicate that the prostaglandin-D-system contributes to the pathophysiology of narcolepsy, e. g. the regulation of excessive daytime sleepiness. Since it has been suggested that L-PGDS is also involved in neurodegenerative disorders, there may be a more specific role of the prostaglandin- D-system in narcoleptic aetiogenesis. Moreover, its linkage with the immune system as well as with human sleep regulation offers a direct access for investigating both systems.
OBJECTIVES: Alterations in the prostaglandin-D-system have been found in animal sleep experiments and disorders that present with hypersomnia or sleep disturbances. The recently demonstrated involvement of the leptomeningeal lipocalin-type prostaglandin-Dsynthase (L-PGDS) (beta-trace) in human physiological sleep encouraged us to investigate its role in the pathophysiology of narcolepsy. METHODS: In a pilot study, serum LPGDS and melatonin concentrations were assessed in 14 narcolepticpatients during undisturbed sleep and total sleep deprivation, compared with those from 14 healthy controls during undisturbed sleep. Excessive daytime sleepiness was measured by a standardized questionnaire (Epworth sleepiness scale, ESS). RESULTS: In narcolepticpatients, markedly increased baseline L-PGDS levels were significantly correlated with the ESS score, but not with the degree of cataplexy. Serum L-PGDS concentrations in patients as well as in controls followed a time-dependent fluctuation with evening increases, highest values during the night and in the morning. Compared with controls, patients exhibited significant/increased amplitude of circulating L-PGDS without any suppression by total sleep deprivation. CONCLUSION: These findings indicate that the prostaglandin-D-system contributes to the pathophysiology of narcolepsy, e. g. the regulation of excessive daytime sleepiness. Since it has been suggested that L-PGDS is also involved in neurodegenerative disorders, there may be a more specific role of the prostaglandin- D-system in narcoleptic aetiogenesis. Moreover, its linkage with the immune system as well as with human sleep regulation offers a direct access for investigating both systems.
Authors: Wolfgang Jordan; Hayrettin Tumani; Stefan Cohrs; Sebastian Eggert; Andrea Rodenbeck; Edgar Brunner; Eckart Rüther; Göran Hajak Journal: Sleep Date: 2004-08-01 Impact factor: 5.849
Authors: W Jordan; S Cohrs; D Degner; A Meier; A Rodenbeck; G Mayer; J Pilz; E Rüther; J Kornhuber; S Bleich Journal: J Neural Transm (Vienna) Date: 2005-06-15 Impact factor: 3.575
Authors: Jing Yu Wang; Fang Han; Song X Dong; Jing Li; Pei An; Xiao Zhe Zhang; Yuan Chang; Long Zhao; Xue Li Zhang; Ya Nan Liu; Han Yan; Qing Hua Li; Yan Hu; Chang Jun Lv; Zhan Cheng Gao; Kingman P Strohl Journal: Sleep Date: 2016-04-01 Impact factor: 5.849