A novel role of melatonin was unveiled, using immortalized human keratinocyte cells (HaCaT) as a model system. Within a time window compatible with its circadian rhythm, melatonin at nanomolar concentration raised both the expression level of the neuronal nitric oxide synthase mRNA and the nitric oxide oxidation products, nitrite and nitrate. On the same time scale, a depression of the mitochondrial membrane potential was detected together with a decrease of the oxidative phosphorylation efficiency, compensated by glycolysis as testified by an increased production of lactate. The melatonin concentration, similar to nmolar, inducing the bioenergetic effects and their time dependence, both suggest that the observed nitric oxide-induced mitochondrial changes might play a role in the metabolic pathways characterizing the circadian melatonin chemistry. (c) 2012 IUBMB IUBMB Life, 2012
Nanomolar melatonin enhances nNOS expression and controls HaCaT-cells bioenergetics / Arese, Marzia; Magnifico, MARIA CHIARA; Mastronicola, Daniela; Altieri, Fabio; Grillo, Caterina; Thomas J. J., Blanck; Sarti, Paolo. - In: IUBMB LIFE. - ISSN 1521-6543. - 64:3(2012), pp. 251-258. [10.1002/iub.603]
Nanomolar melatonin enhances nNOS expression and controls HaCaT-cells bioenergetics
ARESE, Marzia;MAGNIFICO, MARIA CHIARA;MASTRONICOLA, Daniela;ALTIERI, Fabio;GRILLO, CATERINA;SARTI, Paolo
2012
Abstract
A novel role of melatonin was unveiled, using immortalized human keratinocyte cells (HaCaT) as a model system. Within a time window compatible with its circadian rhythm, melatonin at nanomolar concentration raised both the expression level of the neuronal nitric oxide synthase mRNA and the nitric oxide oxidation products, nitrite and nitrate. On the same time scale, a depression of the mitochondrial membrane potential was detected together with a decrease of the oxidative phosphorylation efficiency, compensated by glycolysis as testified by an increased production of lactate. The melatonin concentration, similar to nmolar, inducing the bioenergetic effects and their time dependence, both suggest that the observed nitric oxide-induced mitochondrial changes might play a role in the metabolic pathways characterizing the circadian melatonin chemistry. (c) 2012 IUBMB IUBMB Life, 2012I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
