Effect of Fenfluramine on 5‐hydroxytryptamine Uptake and Release by Rat Blood Platelets

Buczko, Włodzimierz; Gaetano, Giovanni de; Garattini, Silvio

doi:10.1111/j.1476-5381.1975.tb07395.x

Cited by 61 publications

(20 citation statements)

References 16 publications

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“…10 The potent 5HT-releasing action of fenfluramines noted in the hypothalamus (Gundlah et al 5 and present data), the striatum 16 and in the nucleus accumbens 13,15 has also been demonstrated using blood platelets. 22,23 This could provide a peripheral source of 5HT that is sufficient to play a role in the genesis of valvulopathy. Alternatively, the cellular accumulation of fenfluramine with or without phentermine 14 or direct 5HT receptor stimulation by a fenfluramine metabolite 11 or otherwise could trigger events that lead to valvulopathy.…”

Section: Discussionmentioning

confidence: 99%

Additive effects on rat brain 5HT release of combining phentermine with dexfenfluramine

et al. 2001

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OBJECTIVE AND DESIGN:This study examined the effects of the anti-obesity agents, phentermine and dexfenfluramine given alone or in combination, on in vitro and in vivo 5HT release from rat brain tissue. RESULTS: In vitro, phentermine was without effect on basal [ 3 H]5HT efflux from hypothalamic slices whereas dexfenfluramine (10 mM) evoked a 131% increase in [ 3 H]5HT release. In combination, the two drugs did not alter [ 3 H]5HT release beyond that caused by dexfenfluramine alone. At pharmacologically equivalent doses, phentermine (5.7 mg=kg, i.p.) caused a rapid, modest elevation, and dexfenfluramine (3 mg=kg, i.p.) a larger but equally rapid elevation of extracellular 5HT in the microdialysates from the rat anterior hypothalamus. In combination, the increase in extracellular 5HT evoked by these drugs was not significantly greater than the sum of their individual effects. CONCLUSIONS: This study provides evidence that phentermine's actions are not restricted to catecholamine systems and indicates that combining phentermine with dexfenfluramine results in an additive increase in neuronal 5HT release.

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Section: Discussionmentioning

confidence: 99%

Additive effects on rat brain 5HT release of combining phentermine with dexfenfluramine

et al. 2001

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“…Both drugs bind to the sero tonin transporter, with a similar affinity (Poblete et al 1989). MDMA and FEN both release serotonin (E.C.so = 2.92 and 7.90 IlmollL, respectively, Berger et al 1992;Borroni et al 1983;Buczko et al 1975;Johnson et al 1986;Kannengiesser et al 1976;Schmidt et al 1987), with FEN being more potent. In contrast, MDMA ap pears to be slightly more potent than FEN at inhibition of reuptake (0.42 IlmollL, Steele et al 1987 and0.876 IlmollL, Borroni et al 1983, respectively).…”

Section: Discussionmentioning

confidence: 99%

MDMA (Ecstasy) Inhibition of MAO Type A and Type B: Comparisons with Fenfluramine and Fluoxetine (Prozac)

Leonardi

Azmitia

1994

Neuropsychopharmacol

146

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“…The acute ability of S( þ )-fenfluramine and its active metabolite to release 5HT from blood platelets 25,26 could provide a peripheral source of 5HT that is relevant to the pathobiology. However, plasma 5HT changes after drug treatment are difficult to interpret since it is very likely that repeated fenfluramine treatment will deplete platelets of their 5HT stores 27 and may even cause plasma 5HT levels to fall, as demonstrated both in rats given S( þ )-fenfluramine for 14 days 27 and in patients treated with fenfluramine and phentermine for at least 2 months.…”

Section: Phentermine and Fenfluramines As Putative Mao Inhibitorsmentioning

confidence: 99%

Monoamine oxidase inhibition is unlikely to be relevant to the risks associated with phentermine and fenfluramine: a comparison with their abilities to evoke monoamine release

Kilpatrick

Traut²,

Heal

2001

Int J Obes

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OBJECTIVE AND DESIGN:It has been proposed that the anti-obesity agent, phentermine, may act in part via inhibition of monoamine oxidase (MAO). The ability of phentermine to inhibit both MAO A and MAO B in vitro has been examined along with that of the fenfluramine isomers, a range of selective serotonin reuptake inhibitors and sibutramine and its active metabolites. RESULTS: In rat brain, harmaline and lazabemide showed potent and selective inhibition of MAO A and MAO B , their respective target enzymes, with IC 50 values of 2.3 and 18 nM. In contrast, all other drugs examined were only weak inhibitors of MAO A and MAO B with IC 50 values for each enzyme in the moderate to high micromolar range. For MAO A , the IC 50 for phentermine was estimated to be 143 mM, that for S( þ )-fenfluramine, 265 mM and that for sertraline, 31 mM. For MAO B , example IC 50 s were as follows: phentermine (285 mM), S( þ )-fenfluramine (800 mM) and paroxetine (16 mM). Sibutramine was unable to inhibit either enzyme, even at its limit of solubility. CONCLUSION: We therefore suggest that MAO inhibition is unlikely to play a role in the pharmacodynamic properties of any of the tested drugs, including phentermine. Instead, the lack of potency of these drugs as MAO inhibitors is contrasted with their powerful ability either to inhibit the uptake of one or more monoamines (fluoxetine, paroxetine, sertraline, sibutramine's active metabolites) or to evoke the release of one or more monoamines (S( þ )-fenfluramine, S( þ )-norfenfluramine, phentermine). These differences in mode of action may be linked to the adverse cardiovascular events experienced with some of the releasing agents.

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Effect of Fenfluramine on 5‐hydroxytryptamine Uptake and Release by Rat Blood Platelets

Cited by 61 publications

References 16 publications

Additive effects on rat brain 5HT release of combining phentermine with dexfenfluramine

Additive effects on rat brain 5HT release of combining phentermine with dexfenfluramine

MDMA (Ecstasy) Inhibition of MAO Type A and Type B: Comparisons with Fenfluramine and Fluoxetine (Prozac)

Monoamine oxidase inhibition is unlikely to be relevant to the risks associated with phentermine and fenfluramine: a comparison with their abilities to evoke monoamine release

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