Helen Slawik scite author profile

Melatonin is secreted systemically from the pineal gland maximally at night but is also produced locally in many tissues. Its chronobiological function is mainly exerted by pineal melatonin. It is a feedback regulator of the main circadian pacemaker in the hypothalamic suprachiasmatic nuclei and of many peripheral oscillators. Although exogenous melatonin is approved for circadian rhythm sleep disorders and old-age insomnia, research on endogenous melatonin in humans is hindered by the great interindividual variability of its amount and circadian rhythm. Single case studies on pinealectomized patients report on disrupted but also hypersomnic sleep. This is the first systematic prospective report on sleep with respect to pinealectomy due to pinealocytoma World Health Organization grade I without chemo- or radiotherapy. Before and after pinealectomy, 8 patients completed questionnaires on sleep quality and circadian rhythm (Pittsburgh Sleep Quality Index, Epworth Sleepiness Scale, and Morningness-Eveningness Questionnaire), 2 nights of polysomnography, salivary evening melatonin profiles, and qualitative assessment of 2 weeks of actigraphy and sleep logs. Six patients were assessed retrospectively up to 4 years after pinealectomy. Before pinealectomy, all but 1 patient showed an evening melatonin rise typical for indifferent chronotypes. After pinealectomy, evening saliva melatonin was markedly diminished, mostly below the detection limit of the assay (0.09 pg/mL). No systematic change in subjective sleep quality or standard measures of polysomnography was found. Mean pre- and postoperative sleep efficiency was 94% and 95%, and mean sleep-onset latency was 21 and 17 min, respectively. Sleep-wake rhythm during normal daily life did not change. Retrospective patients had a reduced sleep efficiency (90%) and more stage changes, although this was not significantly different from prospective patients. In conclusion, melatonin does seem to have a modulatory, not a regulatory, effect on standard measures of sleep. Study output is limited by small sample size and because only evening melatonin profiles were assessed.

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Regional Distribution of the Prostaglandin E<SUB>2</SUB> Receptor EP1 in the Rat Brain: Accumulation in Purkinje Cells of the Cerebellum

Candelario‐Jalil

Slawik

Ridelis

et al. 2005

JMN

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Prostaglandin E2 (PGE2), is a major prostanoid produced by the activity of cyclooxygenases (COX) in response to various physiological and pathological stimuli. PGE2 exerts its effects by activating four specific E-type prostanoid receptors (EP1, EP2, EP3, and EP4). In the present study, we analyzed the expression of the PGE2 receptor EP1 (mRNA and protein) in different regions of the adult rat brain (hippocampus, hypothalamus, striatum, prefrontal cerebral cortex, parietal cortex, brain stem, and cerebellum) using reverse transcription- polymerase chain reaction, Western blotting, and immunohistochemical methods. On a regional basis, levels of EP1 mRNA were the highest in parietal cortex and cerebellum. At the protein level, we found very strong expression of EP1 in cerebellum, as revealed by Western blotting experiments. Furthermore, the present study provides for the first time evidence that the EP1 receptor is highly expressed in the cerebellum, where the Purkinje cells displayed very high immunolabeling of their perikaryon and dendrites, as observed in the immunohistochemical analysis. Results from the present study indicate that the EP1 prostanoid receptor is expressed in specific neuronal populations, which possibly determine the region-specific response to PGE2.

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Interleukin‐1 beta‐induced expression of the prostaglandin E₂‐receptor subtype EP3 in U373 astrocytoma cells depends on protein kinase C and nuclear factor‐kappaB

Waschbisch

Fiebich

Akundi

et al. 2006

Journal of Neurochemistry

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Both interleukin-1b (IL-1b) and prostaglandins (PGs) are important mediators of physiological and pathophysiological processes in the brain. PGE 2 exerts its effects by binding to four different types of PGE 2 receptors named EP1-EP4. EP3 has found to be expressed in neurons, whereas expression of EP3 in glial cells has not been reported in the brain yet. Here we describe IL-1b-induced EP3 receptor expression in human astrocytoma cells, primary astrocytes of rat and human origin and in rat brain. Using western blot, we found a marked up-regulation of EP3 receptor synthesis in human and rat primary glial cells. Intracerebroventricular administration of IL-1b stimulated EP3 receptor synthesis in rat hippocampus.The analysis of involved signal transduction pathways by pathway-specific inhibitors revealed an essential role of protein kinase C and nuclear factor-jB in astrocytic IL-1b-induced EP3 synthesis. Our data suggest that PGE 2 signaling in the brain may be altered after IL-1b release due to up-regulation of EP3 receptors. This might play an important role in acute and chronic conditions such as cerebral ischemia, traumatic brain injury, HIV-encephalitis, Alzheimer's disease and prion diseases in which a marked up-regulation of IL-1b is followed by a prolonged increase of PGE 2 levels in the brain.

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Helen Slawik

Microglial expression of prostaglandin EP3 receptor in excitotoxic lesions in the rat striatum

Prospective Study on Salivary Evening Melatonin and Sleep before and after Pinealectomy in Humans

Regional Distribution of the Prostaglandin E<SUB>2</SUB> Receptor EP1 in the Rat Brain: Accumulation in Purkinje Cells of the Cerebellum

Interleukin‐1 beta‐induced expression of the prostaglandin E₂‐receptor subtype EP3 in U373 astrocytoma cells depends on protein kinase C and nuclear factor‐kappaB

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Helen Slawik

Microglial expression of prostaglandin EP3 receptor in excitotoxic lesions in the rat striatum

Prospective Study on Salivary Evening Melatonin and Sleep before and after Pinealectomy in Humans

Regional Distribution of the Prostaglandin E<SUB>2</SUB> Receptor EP1 in the Rat Brain: Accumulation in Purkinje Cells of the Cerebellum

Interleukin‐1 beta‐induced expression of the prostaglandin E2‐receptor subtype EP3 in U373 astrocytoma cells depends on protein kinase C and nuclear factor‐kappaB

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Interleukin‐1 beta‐induced expression of the prostaglandin E₂‐receptor subtype EP3 in U373 astrocytoma cells depends on protein kinase C and nuclear factor‐kappaB