Update on melatonin receptors: IUPHAR Review 20

doi:10.1111/bph.13536

Review

. 2016 Sep;173(18):2702-25.

doi: 10.1111/bph.13536. Epub 2016 Aug 8.

Update on melatonin receptors: IUPHAR Review 20

Ralf Jockers^{1

2

3}, Philippe Delagrange⁴, Margarita L Dubocovich⁵, Regina P Markus⁶, Nicolas Renault⁷, Gianluca Tosini⁸, Erika Cecon^{1

2

3}, Darius P Zlotos⁹

Affiliations

¹ Inserm, U1016, Institut Cochin, Paris, France.
² CNRS UMR 8104, Paris, France.
³ University Paris Descartes, Paris, France.
⁴ Institut de Recherches Servier, Croissy, France.
⁵ Department Pharmacology and Toxicology, Jacobs School of Medicine and Biomedical Science, University at Buffalo (SUNY), Buffalo, USA.
⁶ Institute of Biosciences, University of São Paulo, São Paulo, Brazil.
⁷ Inserm UMR 995, LIRIC, UFR Pharmacie, Lille, France.
⁸ Neuroscience Institute and Department of Pharmacology and Toxicology, Morehouse School of Medicine, Atlanta, GA, USA.
⁹ Department of Pharmaceutical Chemistry, The German University in Cairo, New Cairo City, Cairo, Egypt.

PMID: 27314810
PMCID: PMC4995287
DOI: 10.1111/bph.13536

Review

Update on melatonin receptors: IUPHAR Review 20

Ralf Jockers et al. Br J Pharmacol. 2016 Sep.

. 2016 Sep;173(18):2702-25.

doi: 10.1111/bph.13536. Epub 2016 Aug 8.

Authors

Ralf Jockers^{1

2

3}, Philippe Delagrange⁴, Margarita L Dubocovich⁵, Regina P Markus⁶, Nicolas Renault⁷, Gianluca Tosini⁸, Erika Cecon^{1

2

3}, Darius P Zlotos⁹

Affiliations

¹ Inserm, U1016, Institut Cochin, Paris, France.
² CNRS UMR 8104, Paris, France.
³ University Paris Descartes, Paris, France.
⁴ Institut de Recherches Servier, Croissy, France.
⁵ Department Pharmacology and Toxicology, Jacobs School of Medicine and Biomedical Science, University at Buffalo (SUNY), Buffalo, USA.
⁶ Institute of Biosciences, University of São Paulo, São Paulo, Brazil.
⁷ Inserm UMR 995, LIRIC, UFR Pharmacie, Lille, France.
⁸ Neuroscience Institute and Department of Pharmacology and Toxicology, Morehouse School of Medicine, Atlanta, GA, USA.
⁹ Department of Pharmaceutical Chemistry, The German University in Cairo, New Cairo City, Cairo, Egypt.

PMID: 27314810
PMCID: PMC4995287
DOI: 10.1111/bph.13536

Abstract

Melatonin receptors are seven transmembrane-spanning proteins belonging to the GPCR superfamily. In mammals, two melatonin receptor subtypes exist - MT1 and MT2 - encoded by the MTNR1A and MTNR1B genes respectively. The current review provides an update on melatonin receptors by the corresponding subcommittee of the International Union of Basic and Clinical Pharmacology. We will highlight recent developments of melatonin receptor ligands, including radioligands, and give an update on the latest phenotyping results of melatonin receptor knockout mice. The current status and perspectives of the structure of melatonin receptor will be summarized. The physiological importance of melatonin receptor dimers and biologically important and type 2 diabetes-associated genetic variants of melatonin receptors will be discussed. The role of melatonin receptors in physiology and disease will be further exemplified by their functions in the immune system and the CNS. Finally, antioxidant and free radical scavenger properties of melatonin and its relation to melatonin receptors will be critically addressed.

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Figures

**Figure 1**
Structures of non‐selective MT₁/MT₂ receptor ligands. 5‐HEAT, 5‐hydroxyethoxy‐N‐acetyltryptamine; EFPPEA, ethyl‐furo‐pyrazolo‐pyridine‐ethyl‐acetamide.

**Figure 2**
Structures of MT₂ receptor‐selective ligands. BOMPPA, benzyloxy‐methoxyphenyl‐propylamide; CIFEA, cyclohexylmethyl‐indenofurane‐ethylacetamide; 4P‐PDOT, 4‐phenyl‐2‐propionamidotetralin.

**Figure 3**
Structures of MT₁ receptor‐selective ligands. CBOBNEA, carboxybiphenyloxy‐butoxy‐naphthalene‐ethylacetamide; AAE‐M‐PBP amine, acetylaminoethyl‐methyl‐phenylbutoxyphenyl‐amine.

**Figure 4**
Structures of radioligands used to determine binding affinity for MT₁ and MT₂ receptors.

**Figure 5**
Structures useful for the study of MT₁ receptor structure–function relationships. MT₁*‐MLT (A) was derived from active forms of rhodopsin, β₂‐adrenoceptor and A_2A adenosine receptors (unpublished data, N.R.). Docking of melatonin (MLT) in the solvent‐accessible cavity was achieved by energy relaxation by 300‐ns molecular dynamics simulations. The structure of the MT₁*‐MLT‐Giα₃ complex could be modelled on the basis of the sequence homology with the β2‐adrenoceptor‐Gα_s structure (Rasmussen *et al.,* 2011b) and the homology between Gα_s and Giα₃ (Soundararajan *et al.,* 2008) (B) whereas the structure of the MT₁*‐MLT‐arrestin complex could be modelled based on the crystallized rhodopsin‐arrestin complex (Kang *et al.,* 2015) (C).

**Figure 6**
Distribution of non‐synonymous MT₁ (A) and MT₂ (B) receptor variants identified in various human populations. Positions of variants are highlighted in light brown. Typical signatures of MT receptors such as the ^3.49NRY^3.51 motif and the ^7.49NAXXY^7.53 motif are highlighted in red. Residues suspected to be directly involved in melatonin binding (S3.35 and S3.39 in MT₁ and H5.46 in both MT₁ and MT₂ receptors) are highlighted with a blue circle. The putative palmitoylation site at C314 is indicated in MT₁ receptors.

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References

1. Abecasis GR, Auton A, Brooks LD, DePristo MA, Durbin RM, Handsaker RE et al. (2012). An integrated map of genetic variation from 1,092 human genomes. Nature 491: 56–65. - PMC - PubMed
1. Adachi A, Natesan AK, Whitfield‐Rucker MG, Weigum SE, Cassone VM (2002). Functional melatonin receptors and metabolic coupling in cultured chick astrocytes. Glia 39: 268–278. - PubMed
1. Adamah‐Biassi EB, Stepien I, Hudson RL, Dubocovich ML (2013). Automated video analysis system reveals distinct diurnal behaviors in C57BL/6 and C3H/HeN mice. Behav Brain Res 243: 306–312. - PMC - PubMed
1. Adi N, Mash DC, Ali Y, Singer C, Shehadeh L, Papapetropoulos S (2010). Melatonin MT1 and MT2 receptor expression in Parkinson's disease. Med Sci Monit 16: BR61–BR67. - PubMed
1. Alarma‐Estrany P, Crooke A, Pintor J (2009). 5‐MCA‐NAT does not act through NQO2 to reduce intraocular pressure in New‐Zealand white rabbit. J Pineal Res 47: 201–209. - PubMed

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[1] Abecasis GR, Auton A, Brooks LD, DePristo MA, Durbin RM, Handsaker RE et al. (2012). An integrated map of genetic variation from 1,092 human genomes. Nature 491: 56–65. - PMC - PubMed

[2] Abecasis GR, Auton A, Brooks LD, DePristo MA, Durbin RM, Handsaker RE et al. (2012). An integrated map of genetic variation from 1,092 human genomes. Nature 491: 56–65. - PMC - PubMed

[3] Adachi A, Natesan AK, Whitfield‐Rucker MG, Weigum SE, Cassone VM (2002). Functional melatonin receptors and metabolic coupling in cultured chick astrocytes. Glia 39: 268–278. - PubMed

[4] Adachi A, Natesan AK, Whitfield‐Rucker MG, Weigum SE, Cassone VM (2002). Functional melatonin receptors and metabolic coupling in cultured chick astrocytes. Glia 39: 268–278. - PubMed

[5] Adamah‐Biassi EB, Stepien I, Hudson RL, Dubocovich ML (2013). Automated video analysis system reveals distinct diurnal behaviors in C57BL/6 and C3H/HeN mice. Behav Brain Res 243: 306–312. - PMC - PubMed

[6] Adamah‐Biassi EB, Stepien I, Hudson RL, Dubocovich ML (2013). Automated video analysis system reveals distinct diurnal behaviors in C57BL/6 and C3H/HeN mice. Behav Brain Res 243: 306–312. - PMC - PubMed

[7] Adi N, Mash DC, Ali Y, Singer C, Shehadeh L, Papapetropoulos S (2010). Melatonin MT1 and MT2 receptor expression in Parkinson's disease. Med Sci Monit 16: BR61–BR67. - PubMed

[8] Adi N, Mash DC, Ali Y, Singer C, Shehadeh L, Papapetropoulos S (2010). Melatonin MT1 and MT2 receptor expression in Parkinson's disease. Med Sci Monit 16: BR61–BR67. - PubMed

[9] Alarma‐Estrany P, Crooke A, Pintor J (2009). 5‐MCA‐NAT does not act through NQO2 to reduce intraocular pressure in New‐Zealand white rabbit. J Pineal Res 47: 201–209. - PubMed

[10] Alarma‐Estrany P, Crooke A, Pintor J (2009). 5‐MCA‐NAT does not act through NQO2 to reduce intraocular pressure in New‐Zealand white rabbit. J Pineal Res 47: 201–209. - PubMed

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Update on melatonin receptors: IUPHAR Review 20

Affiliations

Update on melatonin receptors: IUPHAR Review 20

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