T. J. Feuerstein scite author profile

Anticonvulsant, analgesic, and anxiolytic effects have been observed both in preclinical and clinical studies with gabapentin (GBP) and pregabalin (PGB). These drugs appear to act by binding to the alpha(2)delta subunit of voltage-sensitive Ca(2+) channels (VSCC), resulting in the inhibition of neurotransmitter release. In this study, we examined the effects of GBP and PGB (mostly 100 microM, corresponding to relatively high preclinical/clinical plasma levels) on the release of neurotransmitters in human neocortical slices. These slices were prelabeled with (3)H-dopamine ((3)H-DA), (3)H-choline (to release (3)H-acetylcholine ((3)H-ACh)), (3)H-noradrenaline ((3)H-NA), and (3)H-serotonin ((3)H-5-HT), and stimulated twice in superfusion experiments by elevation of extracellular K(+) in the presence and absence of GBP and PGB. The alpha(2)delta ligands produced significant inhibitions of K(+)-evoked (3)H-ACh, (3)H-NA, and (3)H-5-HT release between 22% and 56% without affecting (3)H-DA release. Neither drug reduced (3)H-NA release in the presence of L: -isoleucine, a putative alpha(2)delta antagonist. Interestingly, this antagonism did not occur using the enantiomer, D: -isoleucine. These results suggest that GBP and PGB are not general inhibitors of VSCC and neurotransmitter release. Such alpha(2)delta ligands appear to be selective modulators of the release of certain, but not all, neurotransmitters. This differential modulation of neurotransmission presumably contributes to their clinical profile.

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Theophylline relieves headache following lumbar puncture

Feuerstein

Zeides

1986

Klin Wochenschr

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In a study of 11 patients with typical headache following diagnostic lumbar puncture the effect of peroral treatment with theophylline (Euphyllin retard) was compared with that of placebo. When the headache was provoked by orthostatic strain, the six patients in the verum group showed significantly less pain (mean pain score: 16 +/- 3.91) than the five patients in the placebo group (mean pain score: 28 +/- 4.73). This beneficial effect of theophylline on post-puncture headache was subsequently confirmed by open observations of ten additional patients. In view of the small sample size our results should be considered preliminary. Nevertheless, they suggest that additional trials on the benefit of methylxanthines in the treatment of post-puncture headache are called for.

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Differential inhibitory effects of drugs acting at the noradrenaline and 5‐hydroxytryptamine transporters in rat and human neocortical synaptosomes*

Mantovani

Dooley²,

Weyerbrock

et al. 2009

British J Pharmacology

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Background and purpose:Although the amino acid sequences of rat and human 5-hydroxytryptamine (5-HT) and noradrenaline (NA) transporters (i.e. SERT and NET) are highly homologous, species differences exist in the inhibitory effects of drugs acting at these transporters. Therefore, comparison of the potencies of drugs acting at SERT and NET in native human and rat neocortex may serve to more accurately predict their clinical profile. Experimental approach: Synaptosomes prepared from fresh human and rat neocortical tissues were used for [ ]-NA uptake, the dissociation constants did not indicate species differences although a smaller density of both SERT and NET was observed in human tissues. In competition experiments with the various drugs, marked species differences in their potencies were observed, especially at SERT. The rank order of selectivity ratios (SERT/NET) in human neocortex was as follows: citalopram Ն duloxetine = fluvoxamine Ն fluoxetine > milnacipran > desipramine = atomoxetine > (S,S)-reboxetine. Significant species differences in these ratios were observed for duloxetine, atomoxetine and desipramine. Conclusions and implications:This study provides the first compilation of drug potency at native human neocortical SERT and NET. The significant species differences (viz., human vs. rat) in drug potency suggest that the general use of rodent data should be limited to predict clinical efficacy or profile.

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Partial agonism at the human α2A-autoreceptor: role of binding duration

Hoeren

Brawek

Mantovani

et al. 2008

Naunyn-Schmied Arch Pharmacol

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Temperature-induced changes of affinity and efficacy of the alpha2-adrenoceptor full agonist UK14,304 and the partial agonists clonidine and guanfacine were investigated to elucidate the mechanism of partial agonism at the terminal alpha2-autoreceptor. The effect of temperature on the efficacy of the substances was tested in 3H-noradrenaline release experiments at 37 degrees C and at room temperature. Human neocortical slices were prelabeled with 3H-noradrenaline, superfused, and stimulated electrically under autoinhibition-free conditions. Furthermore, saturation binding experiments with human neocortical synaptosomes were performed at 37 degrees C and 17 degrees C to evaluate the influence of temperature on the affinity of 3H-clonidine and 3H-UK14,304. Temperature-induced changes of the association and dissociation rate constants of 3H-UK14,304 and 3H-clonidine were assessed in corresponding kinetic binding experiments. Our experiments reveal that clonidine and guanfacine lose efficacy when the temperature is lowered, whereas no change was noted for the full agonist UK14,304. Moreover, the affinity of clonidine and guanfacine was shown to decrease at lower temperature. Kinetic experiments indicated that the loss of affinity observed for 3H-clonidine at 17 degrees C is due to a marked reduction of the association rate. The loss of efficacy of the partial agonists is most likely related to the short binding duration; partial agonists do not bind long enough to the receptor to mediate a maximum response. The discrepancy between the time required to elicit a maximum response and the actual binding time may be greater for partial agonists at lower temperatures, thus, causing the intrinsic activity to decline.

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T. J. Feuerstein

Cannabinoid CB₁ receptor‐mediated modulation of evoked dopamine release and of adenylyl cyclase activity in the human neocortex

Differential modulation of K+-evoked 3H-neurotransmitter release from human neocortex by gabapentin and pregabalin

Theophylline relieves headache following lumbar puncture

Differential inhibitory effects of drugs acting at the noradrenaline and 5‐hydroxytryptamine transporters in rat and human neocortical synaptosomes*

Partial agonism at the human α2A-autoreceptor: role of binding duration

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T. J. Feuerstein

Cannabinoid CB1 receptor‐mediated modulation of evoked dopamine release and of adenylyl cyclase activity in the human neocortex

Differential modulation of K+-evoked 3H-neurotransmitter release from human neocortex by gabapentin and pregabalin

Theophylline relieves headache following lumbar puncture

Differential inhibitory effects of drugs acting at the noradrenaline and 5‐hydroxytryptamine transporters in rat and human neocortical synaptosomes*

Partial agonism at the human α2A-autoreceptor: role of binding duration

Contact Info

Product

Resources

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Cannabinoid CB₁ receptor‐mediated modulation of evoked dopamine release and of adenylyl cyclase activity in the human neocortex