Understanding the molecular pharmacology of the serotonergic system: using fluoxetine as a model

Sghendo, Lino; Mifsud, Janet

doi:10.1111/j.2042-7158.2011.01384.x

Cited by 45 publications

(33 citation statements)

References 45 publications

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“…It blocks serotonin transporter protein by high-affinity mechanism and increases the concentration of this mediator in the central nervous system (CNS) and peripheral tissues. 3 Experimental data showed that along with its main pharmacological effect -antidepressivefluoxetine has ant-inflammatory activity. 4 Studies on the anti-inflammatory activity of antidepressants are of interest in several areas.…”

Section: Introductionmentioning

confidence: 99%

Study on anti-inflammatory and immunomodulatory effects of fluoxetine in rat models of inflammation

et al. 2015

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The aim of the present study was to evaluate the anti-inflammatory effect of fluoxetine in carrageenan-and lipoplysaccharideinduced models of inflammation by investigating the changes in serum levels of pro-inflammatory cytokine TNF-α and anti-inflammatory cytokines IL-10 and TGF-β after single and repeated administration of the drug. To study the effect of a single and repeated dose fluoxetine on carrageenan-induced paw edema male Wistar rats were divided into five groups (n = 8): control group; positive control group; and three experimental groups treated with 5, 10, and 20 mg/kg bodyweight (bw) fluoxetine, respectively. To study the effect of a single and repeated dose of fluoxetine on serum cytokine levels, the animals were divided in four groups (n = 8): two control groups treated with saline and two experimental groups treated with fluoxetine 20 mg/kg bw. Carrageenan and LPS were injected immediately after fluoxetine or saline injection. Serum cytokine concentrations were tested by enzyme immunoassay. In single administration only the highest dose used inhibited carrageenan-induced inflammation. Edema inhibition was seen with 10 and 20 mg/kg bw fluoxetine after repeated administration. At 24 h a statistically significant effect on inhibition of carrageenan edema was found only in rats treated with 20 mg/kg bw fluoxetine In carrageenan-induced inflammation, fluoxetine significantly increased Il-10 and decreased TNF-α after repeated administration. Surprisingly, in single-dose treated animals an increase in TNF-α values upon fluoxetine administration was observed in this model of inflammation. In LPS-induced inflammation, fluoxetine significantly decreased TNF-α after single and repeated treatment. Fluoxetine has anti-inflammatory and immunomodulatory effect in the carrageenan-induced model of exudative inflammation. In LPS-induced inflammation it showed an immunomodulatory effect manifested with a decrease in pro-inflammatory cytokine TNF-α.

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Section: Introductionmentioning

confidence: 99%

Study on anti-inflammatory and immunomodulatory effects of fluoxetine in rat models of inflammation

et al. 2015

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“…Since its discovery in 1974 (Wong et al, 1974), the beneficial psychotropic effects of fluoxetine have led to its being used to treat disorders other than depression, including obsessive compulsive disorders and bulimia nervosa (Wong et al, 1995). The multiple side effects of fluoxetine (Sghendo and Mifsud, 2012) have raised questions about its supposed selective serotonin-mediated effect. Fluoxetine inhibits the serotonin transporter (SERT) in the low nanomolar range (Torres et al, 2003), but its therapeutic effect appears only at much higher plasma and brain concentrations (Muscettola et al, 1978;Bolo et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

Fluoxetine Blocks Nav1.5 Channels via a Mechanism Similar to That of Class 1 Antiarrhythmics

Poulin

Bruhova

Timour

et al. 2014

Molecular Pharmacology

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The voltage-gated Na v 1.5 channel is essential for the propagation of action potentials in the heart. Malfunctions of this channel are known to cause hereditary diseases. It is a prime target for class 1 antiarrhythmic drugs and a number of antidepressants. Our study investigated the Na v 1.5 blocking properties of fluoxetine, a selective serotonin reuptake inhibitor. Na v 1.5 channels were expressed in HEK-293 cells, and Na 1 currents were recorded using the patch-clamp technique. Dose-response curves of racemic fluoxetine (IC 50 5 39 mM) and its optical isomers had a similar IC 50 [40 and 47 mM for the (1) and (2) isomers, respectively]. Norfluoxetine, a fluoxetine metabolite, had a higher affinity than fluoxetine, with an IC 50 of 29 mM. Fluoxetine inhibited currents in a frequency-dependent manner, shifted steady-state inactivation to more hyperpolarized potentials, and slowed the recovery of Na v 1.5 from inactivation. Mutating a phenylalanine (F1760) and a tyrosine (Y1767) in the S6 segment of domain (D) IV (DIVS6) significantly reduced the affinity of fluoxetine and its frequency-dependent inhibition. We used a noninactivating Na v 1.5 mutant to show that fluoxetine displays open-channel block behavior. The molecular model of fluoxetine in Na v 1.5 was in agreement with mutational experiments in which F1760 and Y1767 were found to be the key residues in binding fluoxetine. We concluded that fluoxetine blocks Na v 1.5 by binding to the class 1 antiarrhythmic site. The blocking of cardiac Na 1 channels should be taken into consideration when prescribing fluoxetine alone or in association with other drugs that may be cardiotoxic or for patients with conduction disorders.

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“…One of the degradation pathways of serotonin is performed by the enzymes monoamine oxidase A and B, breaking down serotonin into 5-hydroxyindoleacetic acid [21]. A second mechanism of serotonin degradation regards its reuptake by its transporter, located in the pre-synaptic membrane [22]. SERT is the main agent responsible for the regulation of 5-HT levels in the synaptic gap.…”

Section: Serotoninergic System and Developmentmentioning

confidence: 99%

“…The function of this cell membrane protein is to reuptake 5-HT that has not been broken down by monoamine oxidase in the synaptic gap and transfer it to the inside of the pre-synaptic neurons [22]. Active removal increases the speed in which the levels of neurotransmitter in the synaptic gap decrease, restricting the effects of 5-HT to smaller areas, and recycles some of the neurotransmitter relased in the synapse for later use [22]. By changing its conformation, SERT moves one or more serotonin molecules per cycle, unlike transmembrane channels, which remain open or closed.…”

Section: Serotoninergic System and Developmentmentioning

confidence: 99%

“…This mechanism may be responsible for the quick development of serotonergic neurons and for the transitory presence of 5-HT in some neurons during development [15]. The synthesis of 5-HT from tryptophan increases in response to the frequency of electrical stimulation of the serotonergic cell body [16,22]. Short-term requirements for higher 5-HT synthesis may occur by changing the kinetic properties of TPH without the need to increase TPH level [28].…”

Section: Serotoninergic System and Developmentmentioning

confidence: 99%

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Perinatal serotonergic activity: A decisive factor in the control of food intake

et al. 2017

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The serotoninergic system controls key events related to proper nervous system development. The neurotransmitter serotonin and the serotonin transporter are critical for this control. Availability of these components is minutely regulated during the development period, and the environment may affect their action on the nervous system. Environmental factors such as undernutrition and selective serotonin reuptake inhibitors may increase the availability of serotonin in the synaptic cleft and change its anorectic action. The physiological responses promoted by serotonin on intake control decrease when requested by acute stimuli or stress, demonstrating that animals or individuals develop adaptations in response to the environmental insults they experience during the development period. Diseases, such as anxiety and obesity, appear to be associated with the body’s response to stress or stimulus, and require greater serotonergic system action. These findings demonstrate the importance of the level of serotonin in the perinatal period to the development of molecular and morphological aspects of food intake control, and its decisive role in understanding the possible environmental factors that cause diseases in adulthood.

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Understanding the molecular pharmacology of the serotonergic system: using fluoxetine as a model

Cited by 45 publications

References 45 publications

Study on anti-inflammatory and immunomodulatory effects of fluoxetine in rat models of inflammation

Study on anti-inflammatory and immunomodulatory effects of fluoxetine in rat models of inflammation

Fluoxetine Blocks Nav1.5 Channels via a Mechanism Similar to That of Class 1 Antiarrhythmics

Perinatal serotonergic activity: A decisive factor in the control of food intake

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