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In vitro and in vivo effects of the anorectic agent dexfenfluramine on the central serotoninergic neuronal systems of non-human primates. A comparison with the rat (1996)

Mennini, Tiziana ; Fracasso, Claudia ; Cagnotto, Alfredo ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 353 (1996), S. 641-647

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ISSN: 1432-1912

Keywords: Dexfenfluramine ; Dexnorfenfluramine ; Primates ; Brain uptake and distribution ; Brain indoles ; 5-HT uptake and release ; 5HT2c receptor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The effects of repeated subcutaneous (s.c) injections of dexfenfluramine (d-F; 10 mg/kg, twice daily, for 4 days) on the contents of serotonin (5-HT) and its metabolite 5-hydroxyindoleacetic acid (5-HIAA) in the brain were assessed in primates (cynomolgus and rhesus monkeys) and compared with the regional brain concentrations of unchanged drug and its active metabolite, dexnorfenfluramine (d-NF). This four-day, high-dose, regimen caused a large depletion of 5-HT (more than 95%) and of 5-HIAA (80–90%) in all brain areas studied (cortex, hippocampus, putamen, caudate nucleus and hypothalamus) 2 h after the last injection of d-F. Analysis of the plasma and brain contents of d-F and d-NF confirmed that both compounds were concentrated as in other species, in regions of the primate brain. However, d-NF was concentrated to a greater extent than d-F, and there were differences between the two primate species. Unlike in the rat brain, concentrations of d-NF greatly exceeded those of d-F in the primate brain suggesting that in these primates the d-NF may play a major role in the overall neurochemical response. The effects of d-F and d-NF on different in vitro parameters of serotoninergic neuronal function did not show appreciable differences between cynomolgus or rhesus monkeys when compared to rats, the ability of the two compounds to inhibit 5-HT reuptake, to enhance its release, and to affect the binding of [3H] -d-F or of [3H] -mesulergine (a ligand for 5-HT2c receptors) being similar. Kinetic differences in the disposition of d-F appear to have more relevance than biochemical effects in providing an explanation for the more marked brain depletion induced by d-F in primates than in rodents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00167183

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2

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The modulation of [3H]noradrenaline and [3H]serotonin release from rat brain synaptosomes is not mediated by the α2B-adrenoceptor subtype (1990)

Gobbi, Marco ; Frittoli, Emanuela ; Mennini, Tiziana

Springer

Naunyn-Schmiedeberg's archives of pharmacology 342 (1990), S. 382-386

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ISSN: 1432-1912

Keywords: α2-Adrenoceptor subtypes ; [3H]Yohimbine binding ; [3H]Noradrenaline release ; [3H]Serotonin release ; Synaptosomes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The present study aimed at relating the presynaptic α2-adrenoceptors, known to modulate noradrenaline and serotonin release, with the recently described α2A- and α2B-adrenoceptor subtypes. The effects of the agonist oxymetazoline (selective for α2A subtype) and of three adrenoceptor antagonists (idazoxan, 1-(2-pyrimidinyl)piperazine (PmP) and prazosin, the last one known to be α2B selective) were evaluated on [3H]noradrenaline and [H]serotonin release in superfused synaptosomes from rat brain cortex. These drugs were also tested in [3H]yohimbine binding to human platelet membranes (containing only α2A receptors) and to neonatal rat lung membranes (containing only α2B receptors). The affinity pattern of these compounds at α2A-adrenoceptors in binding studies was oxymetazoline 〉 = idazoxan 〉 PmP 〉 prazosin; at α2B-adrenoceptors it was idazoxan 〉 = prazosin 〉 PmP = oxymetazoline. Oxymetazoline inhibited with high and similar potencies the K+-evoked [3H]noradrenaline and [3H]serotonin release, IC50 18 and 7 nM, respectively; in the same conditions, the IC50 values of noradrenaline were 42 and 168 nM, respectively. The antagonist affinity pattern (antagonism against noradrenaline) was idazoxan 〉 PmP 〉 prazosin, either on [3H]serotonin release. These results indicate that presynaptic α2 auto- or heteroreceptors do not belong to the α2B subtype and suggest that the modulation of noradrenaline and serotonin release may be mediated by the α2A-adrenoceptor subtype.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00169453

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3

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Comparative studies on the anorectic activity of d-fenfluramine in mice, rats, and guinea pigs (1991)

Mennini, Tiziana ; Bizzi, Adalgisa ; Caccia, Silvio ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 343 (1991), S. 483-490

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ISSN: 1432-1912

Keywords: d-Fenfluramine ; Anorectics ; Rats ; Mice ; Guinea pigs ; Serotonin ; Serotonin receptors ; Serotonin uptake ; Serotonin release

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The present study compares the anorectic activity of d-fenfluramine and its metabolite d-norfenfluramine in three animal species. d-Fenfluramine and d-norfenfluramine show anorectic activity at increasing doses (ED50) in rats, guinea pigs, and mice, d-norfenfluramine being more active than d-fenfluramine in all three species. Equiactive anorectic activities are reached with different brain levels of d-fenfluramine and d-norfenfluramine, guinea pigs being the most sensitive species, followed by rats then mice. The metabolite most probably plays a major role in the anorectic effect of d-fenfluramine in guinea pigs, contributes to the anorectic activity in rats, but adds little to the action of the parent drug in mice. The different sensitivity to d-fenfluramine and d-norfenfluramine in these three species does not appear to be explained by a number of biochemical parameters, including serotonin uptake or release, receptor subtypes, or 3H-d-fenfluramine binding and uptake.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00169550

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Releasing activities of d-fenfluramine and fluoxetine and fluoxetine on rat hippocampal synaptosomes preloaded with [3H]serotonin (1992)

Gobbi, Marco ; Frittoli, Emanuela ; Mennini, Tiziana ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 345 (1992), S. 1-6

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ISSN: 1432-1912

Keywords: d-Fenfluramine ; Fluoxetine ; [3H]serotonin release ; Synaptosomes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Rat hippocampal synaptosomes preloaded with [3H]serotonin and maintained in a superfusion apparatus were exposed for 3 min to d-fenfluramine or fluoxetine. Both drugs evoked a tritium overflow which was reserpine-sensitive requiring the presence of intact synaptic vesicles. However the two drugs displayed different characteristics: 1) the overflow was immediate with dfenfluramine whereas the releasing activity of fluoxetine showed a delay of about 2 min; 2) d-fenfluramine-induced overflow was already apparent at 0.15 μmol/l whereas the minimal effective concentration of fluoxetine was 2.5 μmol/l. Their concentration-effect curves were differently shaped, the effect of d-fenfluramine being saturable at 5–20 μmol/l (EC50 about 1 gmol/l) while no saturation was observed with fluoxetine up to 10 μmol/l; 3) only 1907o of the tritium overflow evoked by fluoxetine (2.5–10 μmol/l) consisted of true [3H]serotonin, compared with 7001o when 0.5 μmol/l d-fenfluramine was used; 4) the releasing action of 0.5 μmol/l d-fenfluramine was completely Ca++-dependent, while at higher dfenfluramine concentrations the Ca++-independent overflow became more important. The fluoxetine induced overflow was mainly. (70010) Ca++-independent; 5) the releasing acitvity of d-fenfluramine was mainly (80%) blocked by the serotonin uptake blockers indalpine, midalcipram and also fluoxetine whereas fluoxetine-induced overflow was insensitive to inhibition of the serotonin carrier. In conclusion, the releasing activity of d-fenfluramine is already present at a very low concentration (0.5 μmol/l) and at this concentration its mechanism of action was Ca++-dependent, together with the requirement of a functional serotonin carrier. These data therefore do not support the hypothesis of a simple. “displacement” of 5-HT from its storage vesicles but suggest an exocytotic release possibly triggered by interaction of d-fenfluramine with intracellular receptors. A direct releasing activity is also shown for fluoxetine, very marked at 5–10 μmol/l; such effect is different from that of d-fenfluramine and is probably due to the overflow of 5-hydroxyindoleacetic acid, formed in the synaptosomes after the fluoxetine-induced “displacement” of serotonin from its storage vesicles. The active concentrations of fluoxetine on serotonin release are compatible with those found in rat brain at doses inducing an anorectic activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00175461

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5

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In vitro and in vivo effects of the anorectic agent dexfenfluramine on the central serotoninergic neuronal systems of non-human primates. A comparison with the rat (1996)

Mennini, T. ; Fracasso, Claudia ; Cagnotto, Alfredo ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 353 (1996), S. 641-647

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ISSN: 1432-1912

Keywords: Key words Dexfenfluramine ; Dexnorfenfluramine ; Primates ; Brain uptake and distribution ; Brain indoles ; 5-HT uptake and release ; 5HT2C receptor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The effects of repeated subcutaneous (s.c) injections of dexfenfluramine (d-F; 10 mg/kg, twice daily, for 4 days) on the contents of serotonin (5-HT) and its metabolite 5-hydroxyindoleacetic acid (5-HIAA) in the brain were assessed in primates (cynomolgus and rhesus monkeys) and compared with the regional brain concentrations of unchanged drug and its active metabolite, dexnorfenfluramine (d-NF). This four-day, high-dose, regimen caused a large depletion of 5-HT (more than 95%) and of 5-HIAA (80–90%) in all brain areas studied (cortex, hippocampus, putamen, caudate nucleus and hypothalamus) 2 h after the last injection of d-F. Analysis of the plasma and brain contents of d-F and d-NF confirmed that both compounds were concentrated as in other species, in regions of the primate brain. However, d-NF was concentrated to a greater extent than d-F, and there were differences between the two primate species. Unlike in the rat brain, concentrations of d-NF greatly exceeded those of d-F in the primate brain suggesting that in these primates the d-NF may play a major role in the overall neurochemical response. The effects of d-F and d-NF on different in vitro parameters of serotoninergic neuro- nal function did not show appreciable differences between cynomolgus or rhesus monkeys when compared to rats, the ability of the two compounds to inhibit 5-HT reuptake, to enhance its release, and to affect the binding of [3H] -d-F or of [3H] -mesulergine (a ligand for 5-HT2C receptors) being similar. Kinetic differences in the disposition of d-F appear to have more relevance than biochemical effects in providing an explanation for the more marked brain depletion induced by d-F in primates than in rodents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00167183

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6

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Anorectic effect and brain concentrations of D-fenfluramine in the marmoset: relationship to the in vivo and in vitro effects on serotonergic mechanisms (1993)

Caccia, Silvio ; Anelli, Marina ; Fracasso, Claudia ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 347 (1993), S. 306-312

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ISSN: 1432-1912

Keywords: d-Fenfluramine ; d-Norfenfluramine ; Marmoset ; Anorectic ED50 ; Effects on serotoninergic mechanisms

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The present study investigated the anorectic activity of d-fenfluramine (d-F) and the relationship with brain levels of unchanged drug and its metabolite d-norfenfluramine (d-NF) in marmosets, relating them to neurochemical effects on the serotoninergic system. d-F and d-NF were equally active in reducing food intake (ED50 about 3 mg/kg, p.o.). However, the brain concentrations of the metabolite required to reduce food intake after synthetic d-NF were more than twice those after d-F, indicating that d-NF contributes to but does not completely explain the anorectic effect of d-F. At this dose d-F did not appreciably modify the serotonin (5-HT) and 5-hydroxyindoleacetic (5-HIAA) contents of the brain regions examined, except for a slight enhancement of 5-HIAA in hippocampus. In vitro in brain cortical synaptosomes d-F inhibited [3H]5-HT uptake more potently than d-NF, as in other species. d-F and d-NF showed similar potency in stimulating [3H]5-HT release, in a Ca++ dependent manner. The tritium released by d-F and d-NF appeared to be mainly unmetabolized [3H]5-HT. Like in other species the marmoset too has saturable and specific [3H]d-F binding sites, for which d-NF has lower affinity. d-F and d-NF have low affinities for 5-HT receptor subtypes, except that d-NF has appreciable affinity for 5-HT1Cand 5-HT1Dreceptors. Unlike in rodents but similarly to primates in the striatum the pharmacology of 5-HT receptors seems to correspond to the 5-HT1D subtype. Brain concentrations of d-F and d-NF at anorectic doses exceeded the concentrations required in vitro to influence the serotoninergic system. Therefore the effect of d-F on food intake might possibly be explained by an interaction with the 5-HT system, particularly uptake and release mechanisms, and that of d-NF by an action on 5-HT1C and 5-HT1D receptor subtypes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00167450

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7

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Suppression of the p53- or pRB-mediated G1 checkpoint is required for E2F-induced S-phase entry (2002)

Lomazzi, Marina ; Moroni, M. Cristina ; Jensen, Michael R. ; [et al.]

[s.l.] : Nature Publishing Group

Nature genetics 31 (2002), S. 190-194

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ISSN: 1546-1718

Source: Nature Archives 1869 - 2009

Topics: Biology , Medicine

Notes: [Auszug] Deregulation of the retinoblastoma protein (pRB) pathway is a hallmark of cancer. In the absence of other genetic alterations, this deregulation results in lack of differentiation, hyperproliferation and apoptosis. The pRB protein acts as a transcriptional repressor by targeting the E2F ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/ng891

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