Melatonin antagonizes apoptosis via receptor interaction in U937 monocytic cells

Flavia Radogna; Laura Paternoster; Maria Cristina Albertini; Claudia Cerella; Augusto Accorsi; Anahi Bucchini; Gilberto Spadoni; Giuseppe Diamantini; Giorgio Tarzia; Milena De Nicola; Maria D'Alessio; Lina Ghibelli

doi:10.1111/j.1600-079X.2007.00455.x

Melatonin antagonizes apoptosis via receptor interaction in U937 monocytic cells

Flavia Radogna, Laura Paternoster, Maria Cristina Albertini, Claudia Cerella, Augusto Accorsi, Anahi Bucchini, Gilberto Spadoni, Giuseppe Diamantini, Giorgio Tarzia, Milena De Nicola, Maria D'Alessio, Lina Ghibelli^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer-review

67 Citations (Scopus)

Abstract

Among the non-neurological functions of melatonin, much attention is being directed to the ability of melatonin to modulate the immune system, whose cells possess melatonin-specific receptors and biosynthetic enzymes. Melatonin controls cell behaviour by eliciting specific signal transduction actions after its interaction with plasma membrane receptors (MT₁, MT₂); additionally, melatonin potently neutralizes free radicals. Melatonin regulates immune cell loss by antagonizing apoptosis. A major unsolved question is whether this is due to receptor involvement, or to radical scavenging considering that apoptosis is often dependent on oxidative alterations. Here, we provide evidence that on U937 monocytic cells, apoptosis is antagonized by melatonin by receptor interaction rather than by radical scavenging. First, melatonin and a set of synthetic analogues prevented apoptosis in a manner that is proportional to their affinity for plasma membrane receptors but not to their antioxidant ability. Secondly, melatonin's antiapoptotic effect required key signal transduction events including G protein, phospholipase C and Ca ²⁺ influx and, more important, it is sensitive to the specific melatonin receptor antagonist luzindole.

Original language	English
Pages (from-to)	154-162
Number of pages	9
Journal	Journal of Pineal Research
Volume	43
Issue number	2
DOIs	https://doi.org/10.1111/j.1600-079X.2007.00455.x
Publication status	Published - Sept 2007
Externally published	Yes

Keywords

Ca influx
IP
Luzindole
Melatonin analogues
Pertussis toxin

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10.1111/j.1600-079X.2007.00455.x

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title = "Melatonin antagonizes apoptosis via receptor interaction in U937 monocytic cells",

abstract = "Among the non-neurological functions of melatonin, much attention is being directed to the ability of melatonin to modulate the immune system, whose cells possess melatonin-specific receptors and biosynthetic enzymes. Melatonin controls cell behaviour by eliciting specific signal transduction actions after its interaction with plasma membrane receptors (MT1, MT2); additionally, melatonin potently neutralizes free radicals. Melatonin regulates immune cell loss by antagonizing apoptosis. A major unsolved question is whether this is due to receptor involvement, or to radical scavenging considering that apoptosis is often dependent on oxidative alterations. Here, we provide evidence that on U937 monocytic cells, apoptosis is antagonized by melatonin by receptor interaction rather than by radical scavenging. First, melatonin and a set of synthetic analogues prevented apoptosis in a manner that is proportional to their affinity for plasma membrane receptors but not to their antioxidant ability. Secondly, melatonin's antiapoptotic effect required key signal transduction events including G protein, phospholipase C and Ca 2+ influx and, more important, it is sensitive to the specific melatonin receptor antagonist luzindole.",

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author = "Flavia Radogna and Laura Paternoster and Albertini, {Maria Cristina} and Claudia Cerella and Augusto Accorsi and Anahi Bucchini and Gilberto Spadoni and Giuseppe Diamantini and Giorgio Tarzia and Nicola, {Milena De} and Maria D'Alessio and Lina Ghibelli",

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AU - Paternoster, Laura

AU - Albertini, Maria Cristina

AU - Cerella, Claudia

AU - Accorsi, Augusto

AU - Bucchini, Anahi

AU - Spadoni, Gilberto

AU - Diamantini, Giuseppe

AU - Tarzia, Giorgio

AU - Nicola, Milena De

AU - D'Alessio, Maria

AU - Ghibelli, Lina

PY - 2007/9

Y1 - 2007/9

N2 - Among the non-neurological functions of melatonin, much attention is being directed to the ability of melatonin to modulate the immune system, whose cells possess melatonin-specific receptors and biosynthetic enzymes. Melatonin controls cell behaviour by eliciting specific signal transduction actions after its interaction with plasma membrane receptors (MT1, MT2); additionally, melatonin potently neutralizes free radicals. Melatonin regulates immune cell loss by antagonizing apoptosis. A major unsolved question is whether this is due to receptor involvement, or to radical scavenging considering that apoptosis is often dependent on oxidative alterations. Here, we provide evidence that on U937 monocytic cells, apoptosis is antagonized by melatonin by receptor interaction rather than by radical scavenging. First, melatonin and a set of synthetic analogues prevented apoptosis in a manner that is proportional to their affinity for plasma membrane receptors but not to their antioxidant ability. Secondly, melatonin's antiapoptotic effect required key signal transduction events including G protein, phospholipase C and Ca 2+ influx and, more important, it is sensitive to the specific melatonin receptor antagonist luzindole.

AB - Among the non-neurological functions of melatonin, much attention is being directed to the ability of melatonin to modulate the immune system, whose cells possess melatonin-specific receptors and biosynthetic enzymes. Melatonin controls cell behaviour by eliciting specific signal transduction actions after its interaction with plasma membrane receptors (MT1, MT2); additionally, melatonin potently neutralizes free radicals. Melatonin regulates immune cell loss by antagonizing apoptosis. A major unsolved question is whether this is due to receptor involvement, or to radical scavenging considering that apoptosis is often dependent on oxidative alterations. Here, we provide evidence that on U937 monocytic cells, apoptosis is antagonized by melatonin by receptor interaction rather than by radical scavenging. First, melatonin and a set of synthetic analogues prevented apoptosis in a manner that is proportional to their affinity for plasma membrane receptors but not to their antioxidant ability. Secondly, melatonin's antiapoptotic effect required key signal transduction events including G protein, phospholipase C and Ca 2+ influx and, more important, it is sensitive to the specific melatonin receptor antagonist luzindole.

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KW - Pertussis toxin

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Melatonin antagonizes apoptosis via receptor interaction in U937 monocytic cells

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