A brief review about melatonin, a pineal hormone

doi:10.20945/2359-3997000000066

Review

. 2018 Aug;62(4):472-479.

doi: 10.20945/2359-3997000000066.

A brief review about melatonin, a pineal hormone

Fernanda Gaspar do Amaral¹, José Cipolla-Neto²

Affiliations

¹ Departamento de Fisiologia, Universidade Federal de São Paulo (Unifesp), São Paulo, SP Brasil.
² Departamento de Fisiologia e Biofísica, Instituto de Ciências Biomédicas, Universidade de São Paulo (USP), São Paulo, SP, Brasil.

PMID: 30304113
PMCID: PMC10118741
DOI: 10.20945/2359-3997000000066

Review

A brief review about melatonin, a pineal hormone

Fernanda Gaspar do Amaral et al. Arch Endocrinol Metab. 2018 Aug.

. 2018 Aug;62(4):472-479.

doi: 10.20945/2359-3997000000066.

Authors

Fernanda Gaspar do Amaral¹, José Cipolla-Neto²

Affiliations

¹ Departamento de Fisiologia, Universidade Federal de São Paulo (Unifesp), São Paulo, SP Brasil.
² Departamento de Fisiologia e Biofísica, Instituto de Ciências Biomédicas, Universidade de São Paulo (USP), São Paulo, SP, Brasil.

PMID: 30304113
PMCID: PMC10118741
DOI: 10.20945/2359-3997000000066

Abstract

Melatonin is a ubiquitous molecule in nature, being locally synthesized in several cells and tissues, besides being a hormone that is centrally produced in the pineal gland of vertebrates, particularly in mammals. Its pineal synthesis is timed by the suprachiasmatic nucleus, that is synchronized to the light-dark cycle via the retinohypothalamic tract, placing melatonin synthesis at night, provided its dark. This unique trait turns melatonin into an internal synchronizer that adequately times the organism's physiology to the daily and seasonal demands. Besides being amphiphilic, melatonin presents specific mechanisms and ways of action devoted to its role as a time-giving agent, being widely spread in the organism. The present review aims to focus on melatonin as a pineal hormone with specific mechanisms and ways of action, besides presenting the clinical syndromes related to its synthesis and/or function disruptions.

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Conflict of interest statement

Disclosure: no potential conflict of interest relevant to this article was reported.

Figures

**Figure 1. Melatonin molecule (232,2 molecular weight).**

**Figure 2. Neural control of pineal melatonin synthesis. RHT: retinohypothalamic tract. SCN: suprachiasmatic nucleus. PVH: paraventricular nucleus. SCG: superior cervical ganglion.**

**Figure 3. Melatonin synthesis pathway and hepatic metabolization. The enzymes are written in italic and the derived molecules are underlined.**

**Figure 4. Melatonin mechanisms of action. Classical receptor mediated and non-mediated pathways and the involvement of nuclear, cytosolic and membrane receptors.**

Figure 5. Melatonin ways of action. The upper boxes represent the different ways of action. The second-line boxes explain how melatonin causes the correspondent effects. The third-line boxes show examples of the correspondent effects. Note that the Prospective effects are further classified in Proximal ou consecutive and Distal or prolonged effects.

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References

1. Vollrath L. The Pineal Organ. Mollendorff WaB, W., editor. Heildberg, Germany: Springer-Verlag; 1981. p. 659
1. Kappers JA. The development, topographical relations and innervation of the epiphysis cerebri in the albino rat. Z Zellforsch Mikrosk Anat. 1960;52:163-215. - PubMed
1. Afeche SC, do Amaral FG, Villela DCM, Abrahão MV, Peres R, Cipolla-Neto J. Melatonin and the Pineal Gland. In: Romano E, De Luca S, editors. New Research on Neurosecretory Systems. New York: Nova Biomedical Books; 2008. p. 151-77.
1. Reiter RJ. Pineal melatonin: cell biology of its synthesis and of its physiological interactions. Endocr Rev. 1991;12(2):151-80. - PubMed
1. Hardeland R. Taxon- and Site-Specific Melatonin Catabolism. Molecules. 2017; 22(11):pii: E2015. - PMC - PubMed

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the present work was funded by São Paulo Research Foundation - Fapesp (2014/50457-0).

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[1] Vollrath L. The Pineal Organ. Mollendorff WaB, W., editor. Heildberg, Germany: Springer-Verlag; 1981. p. 659

[2] Vollrath L. The Pineal Organ. Mollendorff WaB, W., editor. Heildberg, Germany: Springer-Verlag; 1981. p. 659

[3] Kappers JA. The development, topographical relations and innervation of the epiphysis cerebri in the albino rat. Z Zellforsch Mikrosk Anat. 1960;52:163-215. - PubMed

[4] Kappers JA. The development, topographical relations and innervation of the epiphysis cerebri in the albino rat. Z Zellforsch Mikrosk Anat. 1960;52:163-215. - PubMed

[5] Afeche SC, do Amaral FG, Villela DCM, Abrahão MV, Peres R, Cipolla-Neto J. Melatonin and the Pineal Gland. In: Romano E, De Luca S, editors. New Research on Neurosecretory Systems. New York: Nova Biomedical Books; 2008. p. 151-77.

[6] Afeche SC, do Amaral FG, Villela DCM, Abrahão MV, Peres R, Cipolla-Neto J. Melatonin and the Pineal Gland. In: Romano E, De Luca S, editors. New Research on Neurosecretory Systems. New York: Nova Biomedical Books; 2008. p. 151-77.

[7] Reiter RJ. Pineal melatonin: cell biology of its synthesis and of its physiological interactions. Endocr Rev. 1991;12(2):151-80. - PubMed

[8] Reiter RJ. Pineal melatonin: cell biology of its synthesis and of its physiological interactions. Endocr Rev. 1991;12(2):151-80. - PubMed

[9] Hardeland R. Taxon- and Site-Specific Melatonin Catabolism. Molecules. 2017; 22(11):pii: E2015. - PMC - PubMed

[10] Hardeland R. Taxon- and Site-Specific Melatonin Catabolism. Molecules. 2017; 22(11):pii: E2015. - PMC - PubMed

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A brief review about melatonin, a pineal hormone

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A brief review about melatonin, a pineal hormone

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