Chronophysiology of melatonin : therapeutical implications

Chronophysiology of melatonin : therapeutical implications

Abstract: Normal circadian rhythms are synchronized to a regular 24 hr environmental light/dark cycle. Both the suprachiasmatic nucleus (SCN) and melatonin are essential for this adaptation. Melatonin exerts its chronophysiological action in part by acting through specific receptors (MT1, MT2) which have been identified in the plasma membrane of SCN as well as in several neural and non-neural tissues. Both receptors have been cloned and share general features with other G protein linked receptors. Melatonin also exerts direct effects on intracellular proteins such as calmodulin or tubulin and has strong free radical scavenger properties which are non-receptor mediated. Within the SCN, melatonin reduces neuronal activity in a time-dependent manner. SCN MT1 and MT2 receptors appear to be insensitive during the day, but sensitive at dusk and dawn (MT2; causes phase shifts) or during early night period (MT1; decreases neuronal firing rate). Melatonin secreted during nighttime provides enough inertia to resist minor perturbations of the circadian timing system. The disruption of these circadian mechanisms cause a number of sleep disorders named according to the International Classification of Sleep Disorders as circadian rhythm sleep disorders (CRSDs). CRSDs include delayed or advanced sleep phase syndromes, non 24 hr sleep/wake rhythm disorder, time zone change syndrome (“jet lag”) and shift work sleep disorder. Disturbances in the circadian phase position of plasma melatonin levels have been found in all these disorders. In addition, co-morbility of severe circadian alterations with neurodegenerative diseases like Alzheimer´disease (AD) has been documented. Although further research involving larger number of patients suffering CRSDs is required, currently there is sufficient evidence to implicate endogenous melatonin as an important mediator in CRSD pathophysiology. Melatonin and its analogs can constitute useful therapeutic tools to treat disturbed sleep-wake rhythms in CRSDs. Melatonin secretion decreases in AD patients and its administration improves sleep efficiency, sundowning and cognitive function. This effect can be particularly important in mild cognitive impairment, an etiologically heterogeneous syndrome characterized by cognitive impairment preceding dementia.

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Main Authors: Cardinali, Daniel Pedro, Scacchi Bernasconi, Pablo A.
Format: Artículo biblioteca
Language:eng
eng
Published: 2010
Subjects:RITMO CIRCADIANO, RECEPTORES DE MELATONINA, ENFERMEDAD DE ALZHEIMER, TRASTORNOS DEL SUEÑO, MELATONINA, NUCLEO SUPRAQUIASMATICO,
Online Access:https://repositorio.uca.edu.ar/handle/123456789/1629
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spelling oai:ucacris:123456789-16292020-07-29T21:47:03Z Chronophysiology of melatonin : therapeutical implications Cardinali, Daniel Pedro Scacchi Bernasconi, Pablo A. RITMO CIRCADIANO RECEPTORES DE MELATONINA ENFERMEDAD DE ALZHEIMER TRASTORNOS DEL SUEÑO MELATONINA NUCLEO SUPRAQUIASMATICO Abstract: Normal circadian rhythms are synchronized to a regular 24 hr environmental light/dark cycle. Both the suprachiasmatic nucleus (SCN) and melatonin are essential for this adaptation. Melatonin exerts its chronophysiological action in part by acting through specific receptors (MT1, MT2) which have been identified in the plasma membrane of SCN as well as in several neural and non-neural tissues. Both receptors have been cloned and share general features with other G protein linked receptors. Melatonin also exerts direct effects on intracellular proteins such as calmodulin or tubulin and has strong free radical scavenger properties which are non-receptor mediated. Within the SCN, melatonin reduces neuronal activity in a time-dependent manner. SCN MT1 and MT2 receptors appear to be insensitive during the day, but sensitive at dusk and dawn (MT2; causes phase shifts) or during early night period (MT1; decreases neuronal firing rate). Melatonin secreted during nighttime provides enough inertia to resist minor perturbations of the circadian timing system. The disruption of these circadian mechanisms cause a number of sleep disorders named according to the International Classification of Sleep Disorders as circadian rhythm sleep disorders (CRSDs). CRSDs include delayed or advanced sleep phase syndromes, non 24 hr sleep/wake rhythm disorder, time zone change syndrome (“jet lag”) and shift work sleep disorder. Disturbances in the circadian phase position of plasma melatonin levels have been found in all these disorders. In addition, co-morbility of severe circadian alterations with neurodegenerative diseases like Alzheimer´disease (AD) has been documented. Although further research involving larger number of patients suffering CRSDs is required, currently there is sufficient evidence to implicate endogenous melatonin as an important mediator in CRSD pathophysiology. Melatonin and its analogs can constitute useful therapeutic tools to treat disturbed sleep-wake rhythms in CRSDs. Melatonin secretion decreases in AD patients and its administration improves sleep efficiency, sundowning and cognitive function. This effect can be particularly important in mild cognitive impairment, an etiologically heterogeneous syndrome characterized by cognitive impairment preceding dementia. 2019-05-02T14:01:11Z 2019-05-02T14:01:11Z 2010 Artículo Cardinali, D. P., Scacchi, P. A. Chronophysiology of melatonin : therapeutical implications [en línea]. The Open Neuroendocrinology Journal. 2010, 3. Disponible en: https://repositorio.uca.edu.ar/handle/123456789/1629 https://repositorio.uca.edu.ar/handle/123456789/1629 eng eng Acceso Abierto https://creativecommons.org/licenses/by-nc-sa/4.0/ application/pdf The Open Neuroendocrinology Journal. 2010, 3
institution UCA
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-uca
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de la UCA
language eng
eng
topic RITMO CIRCADIANO
RECEPTORES DE MELATONINA
ENFERMEDAD DE ALZHEIMER
TRASTORNOS DEL SUEÑO
MELATONINA
NUCLEO SUPRAQUIASMATICO
RITMO CIRCADIANO
RECEPTORES DE MELATONINA
ENFERMEDAD DE ALZHEIMER
TRASTORNOS DEL SUEÑO
MELATONINA
NUCLEO SUPRAQUIASMATICO
spellingShingle RITMO CIRCADIANO
RECEPTORES DE MELATONINA
ENFERMEDAD DE ALZHEIMER
TRASTORNOS DEL SUEÑO
MELATONINA
NUCLEO SUPRAQUIASMATICO
RITMO CIRCADIANO
RECEPTORES DE MELATONINA
ENFERMEDAD DE ALZHEIMER
TRASTORNOS DEL SUEÑO
MELATONINA
NUCLEO SUPRAQUIASMATICO
Cardinali, Daniel Pedro
Scacchi Bernasconi, Pablo A.
Chronophysiology of melatonin : therapeutical implications
description Abstract: Normal circadian rhythms are synchronized to a regular 24 hr environmental light/dark cycle. Both the suprachiasmatic nucleus (SCN) and melatonin are essential for this adaptation. Melatonin exerts its chronophysiological action in part by acting through specific receptors (MT1, MT2) which have been identified in the plasma membrane of SCN as well as in several neural and non-neural tissues. Both receptors have been cloned and share general features with other G protein linked receptors. Melatonin also exerts direct effects on intracellular proteins such as calmodulin or tubulin and has strong free radical scavenger properties which are non-receptor mediated. Within the SCN, melatonin reduces neuronal activity in a time-dependent manner. SCN MT1 and MT2 receptors appear to be insensitive during the day, but sensitive at dusk and dawn (MT2; causes phase shifts) or during early night period (MT1; decreases neuronal firing rate). Melatonin secreted during nighttime provides enough inertia to resist minor perturbations of the circadian timing system. The disruption of these circadian mechanisms cause a number of sleep disorders named according to the International Classification of Sleep Disorders as circadian rhythm sleep disorders (CRSDs). CRSDs include delayed or advanced sleep phase syndromes, non 24 hr sleep/wake rhythm disorder, time zone change syndrome (“jet lag”) and shift work sleep disorder. Disturbances in the circadian phase position of plasma melatonin levels have been found in all these disorders. In addition, co-morbility of severe circadian alterations with neurodegenerative diseases like Alzheimer´disease (AD) has been documented. Although further research involving larger number of patients suffering CRSDs is required, currently there is sufficient evidence to implicate endogenous melatonin as an important mediator in CRSD pathophysiology. Melatonin and its analogs can constitute useful therapeutic tools to treat disturbed sleep-wake rhythms in CRSDs. Melatonin secretion decreases in AD patients and its administration improves sleep efficiency, sundowning and cognitive function. This effect can be particularly important in mild cognitive impairment, an etiologically heterogeneous syndrome characterized by cognitive impairment preceding dementia.
format Artículo
topic_facet RITMO CIRCADIANO
RECEPTORES DE MELATONINA
ENFERMEDAD DE ALZHEIMER
TRASTORNOS DEL SUEÑO
MELATONINA
NUCLEO SUPRAQUIASMATICO
author Cardinali, Daniel Pedro
Scacchi Bernasconi, Pablo A.
author_facet Cardinali, Daniel Pedro
Scacchi Bernasconi, Pablo A.
author_sort Cardinali, Daniel Pedro
title Chronophysiology of melatonin : therapeutical implications
title_short Chronophysiology of melatonin : therapeutical implications
title_full Chronophysiology of melatonin : therapeutical implications
title_fullStr Chronophysiology of melatonin : therapeutical implications
title_full_unstemmed Chronophysiology of melatonin : therapeutical implications
title_sort chronophysiology of melatonin : therapeutical implications
publishDate 2010
url https://repositorio.uca.edu.ar/handle/123456789/1629
work_keys_str_mv AT cardinalidanielpedro chronophysiologyofmelatonintherapeuticalimplications
AT scacchibernasconipabloa chronophysiologyofmelatonintherapeuticalimplications
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