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Melatonin: an internal signal for daily and seasonal timing.

Indian journal of experimental biology
May 1, 2014
Amit Kumar Trivedi et al. (2 authors)
Journal ArticleReviewHuman Study
Extracted Claims (10)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin
no change
secretion timing
organisms
only during night
is secreted only during night
#1
melatonin
no change
classification
-
"darkness hormone"
is known as
#2
melatonin levels
increase
melatonin levels
-
elevated
elevated
#3
melatonin
no change
production site
vertebrates
pineal gland
production main site is
#4
melatonin
no change
receptor mechanism
-
G protein-coupled (GPCR) superfamily receptors
acts through
#5
melatonin receptors
no change
receptor subtypes
vertebrates
MT1 (mella), MT2 (mellb), and MT3 (mellc)
three subtypes identified
#6
melatonin synthesis and secretion
no change
synthesis and secretion pattern
-
circadianly rhythmic
are circadianly rhythmic
#7
melatonin
no change
circadian system functions
vertebrates
circadian system regulated behavioural and physiological functions
involved in
#8
melatonin
no change
photoperiodic system
vertebrates
critical
critical for
#9
melatonin
no change
human health aspects
human
jet lag, sleep, immune system and cancer
implicated in
#10
Abstract

Melatonin is secreted only during night, irrespective of the habitat of an organism and the site of its synthesis and secretion, and hence known as "darkness hormone". Elevated melatonin levels reflect the nighttime. In vertebrates, the main site of melatonin production is the pineal gland. Species in which melatonin is also secreted from sources other than the pineal, as in some birds, relative contributions of different melatonin producing tissues to the blood melatonin level can vary from species to species. Melatonin acts through its receptors, which are members of the G protein-coupled (GPCR) superfamily. Three melatonin receptors subtypes MT1 (mella), MT2 (mellb), and MT3 (mellc) have been identified in different brain areas and other body organs of vertebrates. Melatonin synthesis and secretion are circadianly rhythmic. Changes and differences in specific features of melatonin signal can vary among species, and under a variety of natural environmental conditions. Two major physiological roles of melatonin are established in vertebrates. First, melatonin is involved in the circadian system regulated behavioural and physiological functions. Second, it is critical for the photoperiodic system. Besides, melatonin has been implicated in various ways both directly and indirectly to human health, including jet lag, sleep, immune system and cancer.

Medical Subject Headings (MeSH)
AnimalsCircadian RhythmHumansMelatoninPhotoperiodReceptors, MelatoninSleep
Study Links
PubMed ID24851405
Related Supplements
Melatonin: an internal signal for daily and seasonal timing. | Panacea Index