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ABSTRACT: L-dopa is still the gold standard in the symptomatic treatment of Parkinson's disease (PD), and thus, it is the most commonly used drug in the non-clinical assessment of new drug therapies to PD, including those intended to improve the effect of L-dopa. In unilaterally 6-hydroxydopamine (6-OHDA)-lesioned rat model of PD, the results from L-dopa-induced rotation tests are often unpredictable. While repeated administration of L-dopa improves the rotation, the exact mechanisms underlying the extensive variability in rotation responses between rats and testing times are unclear. In the present study, we aimed to assess whether the route of administration (oral or intraperitoneal) or the form of L-dopa (base or methyl ester) is associated with the extensive variation in rotation responses to L-dopa in 6-OHDA rats. We also wanted to examine the dependence between L-dopa (base or methyl ester)-induced rotational behaviour and the extent of dopamine and dopa decarboxylase enzyme loss in the lesioned striatum. It was found that variation in plasma levels of L-dopa as well as the administration route explains a part of the variability in rotation. There were small but significant differences in striatal dopamine depletion (indicative of degree of lesion) between the groups, which may partially account for the various patterns in L-dopa-induced rotational behaviour. While apomorphine-induced rotation test is a useful tool for primary screening of the success of 6-OHDA lesion, it is not useful at predicting the rotational performance of 6-OHDA rats to L-dopa. The exact mechanisms and causes of the variability in the rotation responses to L-dopa in 6-OHDA rats still remain to be clarified.
Basic & Clinical Pharmacology & Toxicology 08/2011; · 2.18 Impact Factor
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ABSTRACT: Prolyl oligopeptidase (PREP) inhibitors are potential drug candidates for the treatment of neurological disorders, but little is known about their ability to cross the blood–brain barrier and to reach the target site. This study characterizes brain pharmacokinetics of two potent PREP inhibitors, JTP-4819 and KYP-2047. Firstly, the in vitro permeability (Papp) of JTP-4819 and KYP-2047 through a bovine brain microvessel endothelial cell monolayer was assessed. Then, the in vivo brain/blood ratio was determined for the total brain and plasma concentrations and also for the unbound extracellular drug concentrations after a single dose (50 μmol/kg i.p.). KYP-2047 had a significantly higher Papp than JTP-4819. In vivo, KYP-2047 had higher total and unbound brain/blood ratios. KYP-2047 was equally distributed between the cortex, hippocampus and striatum. In the case of JTP-4819, the unbound brain extracellular concentrations could not be readily predicted from the unbound blood levels, probably because of its poor membrane penetration properties. KYP-2047 displayed a better ability to reach the intracellularly located brain PREP, and it inhibited this enzyme more effectively than JTP-4819 after an equimolar single dose. In conclusion, KYP-2047 showed better brain penetration characteristics than JTP-4819 both in vitro and in vivo. KYP-2047 is a brain-penetrating, potent and long-acting PREP inhibitor; thus, it represents a convenient pharmacological tool for assessing the potential of PREP as a drug target.
Basic & Clinical Pharmacology & Toxicology 07/2011; 109(6):443 - 451. · 2.18 Impact Factor
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ABSTRACT: Prolyl oligopeptidase (PREP) inhibitors are potential drug candidates for the treatment of neurological disorders, but little is known about their ability to cross the blood-brain barrier and to reach the target site. This study characterizes brain pharmacokinetics of two potent PREP inhibitors, JTP-4819 and KYP-2047. Firstly, the in vitro permeability (P(app) ) of JTP-4819 and KYP-2047 through a bovine brain microvessel endothelial cell monolayer was assessed. Then, the in vivo brain/blood ratio was determined for the total brain and plasma concentrations and also for the unbound extracellular drug concentrations after a single dose (50 μmol/kg i.p.). KYP-2047 had a significantly higher P(app) than JTP-4819. In vivo, KYP-2047 had higher total and unbound brain/blood ratios. KYP-2047 was equally distributed between the cortex, hippocampus and striatum. In the case of JTP-4819, the unbound brain extracellular concentrations could not be readily predicted from the unbound blood levels, probably because of its poor membrane penetration properties. KYP-2047 displayed a better ability to reach the intracellularly located brain PREP, and it inhibited this enzyme more effectively than JTP-4819 after an equimolar single dose. In conclusion, KYP-2047 showed better brain penetration characteristics than JTP-4819 both in vitro and in vivo. KYP-2047 is a brain-penetrating, potent and long-acting PREP inhibitor; thus, it represents a convenient pharmacological tool for assessing the potential of PREP as a drug target.
Basic & Clinical Pharmacology & Toxicology 06/2011; 109(6):443-51. · 2.18 Impact Factor
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ABSTRACT: Although several in vitro models have been reported to predict the ability of drug candidates to cross the blood-brain barrier, their real in vivo relevance has rarely been evaluated. The present study demonstrates the in vivo relevance of simple unidirectional permeability coefficient (P(app)) determined in three in vitro cell models (BBMEC, Caco-2 and MDCKII-MDR1) for nine model drugs (alprenolol, atenolol, metoprolol, pindolol, entacapone, tolcapone, baclofen, midazolam and ondansetron) by using dual probe microdialysis in the rat brain and blood as an in vivo measure. There was a clear correlation between the P(app) and the unbound brain/blood ratios determined by in vivo microdialysis (BBMEC r=0.99, Caco-2 r=0.91 and MDCKII-MDR1 r=0.85). Despite of the substantial differences in the absolute in vitro P(app) values and regardless of the method used (side-by-side vs. filter insert system), the capability of the in vitro models to rank order drugs was similar. By this approach, thus, the additional value offered by the true endothelial cell model (BBMEC) remains obscure. The present results also highlight the need of both in vitro as well as in vivo methods in characterization of blood-brain barrier passage of new drug candidates.
International journal of pharmaceutics 10/2010; 402(1-2):27-36. · 2.96 Impact Factor
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ABSTRACT: This review discusses the most recent data on the potential of quercetin to confer neuroprotection. Unfortunately, most of the in vitro studies have used quercetin aglycone, which is not detectable in the plasma or in the brain after oral intake. Moreover, quercetin metabolites and glycosides seem to be less neuroprotective and penetrate the BBB less efficiently than aglycone. Surprisingly, quercetin has beneficial effects on various in vivo models of neural disorders, particularly in cerebrovascular insults; contrasting data also do exist. This may be due to an increase of BBB permeability, described in many of these animal models, which would facilitate quercetin brain penetration. Although quercetin causes no significant toxicity in several animal studies, the risk for neurotoxicity is not negligible because of its narrow therapeutic dose-range in vitro. Notably, this risk may be even higher in the case of increased quercetin access to the brain, which may occur pathologically or artificially (e.g., by liposomal preparations). Based on the referred literature, we doubt that quercetin possesses any significant efficacy in neurodegenerative disorders. Instead, therapeutic trials should focus more on the quercetin efficacy in cerebrovascular insults rather than neurodegeneration.
Expert Opinion on Drug Safety 08/2009; 8(4):397-409. · 3.02 Impact Factor
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ABSTRACT: In the present study, we examined the ability of a flavonoid quercetin to prevent 6-hydroxydopamine (6-OHDA)-induced oxygen radical formation and cytotoxicity in vitro and neurotoxicity in vivo. Quercetin (10-100 microM) had an acute significant antioxidant effect against the 6-OHDA-induced (30 microM) oxygen radical formation in catecholaminergic SH-SY5Y neuroblastoma cells. Moreover, in these cells, quercetin at 10-50 microM had a significant protective effect against 6-OHDA though at 100 microM it was itself harmful to the cells. The possible effect of quercetin in preventing neurotoxicity in unilateral medial forebrain bundle (full nigral lesion) or striatal (partial lesion) 6-OHDA rat lesion models of Parkinson's disease was studied in three treatment schedules: a 7-day pre- or post-treatment or their combination. Rotational responses to apomorphine (0.1 mg/kg, subcutaneously) and d-amphetamine (2.5 mg/kg, intraperitoneally) were assessed at weeks 1 and 2 post-lesion. Quercetin had no consistent neuroprotective effect in either model at 50-200 mg/kg once a day or 100 mg/kg twice a day. Furthermore, no protection was observed in tyrosine hydroxylase positive nigral cell numbers, striatal fiber density or in striatal levels of dopamine. These in vitro and in vivo results cast doubt on the theory that quercetin exerts reliable neuroprotective effects against 6-OHDA-induced toxicity. In vitro, quercetin seems to be protective at low doses but damaging at high doses.
Brain Research 05/2008; 1203:149-59. · 2.73 Impact Factor
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ABSTRACT: A unilateral 6-hydroxydopamine (6-OHDA)-lesioned rat model of Parkinson's disease was used to determine an effective dose to abolish circling behaviour of the continuous intrastriatal infusions of L-dopa via osmotic minipumps into the lesioned striatum. This 2-week L-dopa treatment evoked a dose-dependent decrease in the contralateral rotations induced by acute intraperitoneal L-dopa and carbidopa that was sustained at least for 10 weeks. The minimum effective dose of intrastriatal L-dopa was 3 microg/hr. Striatal [3H]-spiperone binding was significantly increased by the 6-OHDA lesion, reflecting a permanent, lesion-induced, up-regulation of dopamine D2 receptors. Furthermore, striatal dopamine and its metabolites as well as the level of tyrosine hydroxylase were significantly reduced by 6-OHDA. None of these parameters were restored by the 2-week L-dopa infusions but, unexpectedly, the rotational response did not become normalized after discontinuation of L-dopa infusions. Nigral 6-OHDA lesions suppressed ipsilateral striatal 5-hydroxytryptamine (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) concentrations, and 5-HT uptake sites while tryptophan hydroxylase was not changed in the striatum. When studying the cause of the sustained circling behaviour, we found that intrastriatal L-dopa infusion dose-dependently elevated striatal tryptophan hydroxylase much above the levels of intact side and 5-HT uptake sites to the level of intact side, but the striatal 5-HT levels exhibited no significant recovery while 5-HIAA levels were partially restored. These data support the view that a long-term ipsilateral activation of the serotonergic innervation occurs after L-dopa infusions into the lesioned striata.
Basic & Clinical Pharmacology & Toxicology 04/2008; 102(3):300-7. · 2.18 Impact Factor
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ABSTRACT: In the present study, we assessed the effect of single graded doses of a putative anxiolytic compound, the 5-HT(2A/C )antagonist, deramciclane fumarate (EGIS-3886), on the dopamine efflux and metabolism in nucleus accumbens and striatum and thus evaluated the dose window for deramciclane to cause adverse effects related to the brain dopaminergic system. Dual probe in vivo microdialysis in freely moving rats was used to compare the effects of graded doses of deramciclane fumarate (3, 10 and 30 mg/kg), 5-HT(2A/C )antagonist ritanserin (1 mg/kg) and a partial 5-HT(1A) agonist buspirone hydrochloride (5 mg/kg) on the extracellular levels of dopamine, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) in nucleus accumbens and striatum assayed by high performance liquid chromatography with electrochemical detection. The indirect dopamine agonist, D-amphetamine sulfate (2 mg/kg), was used as a positive control. Ritanserin, buspirone and deramciclane 3 and 10 mg/kg had no significant effects on the extracellular dopamine levels in either brain area but deramciclane 30 mg/kg significantly increased accumbal dopamine as well as DOPAC and HVA in both brain areas. As expected, the positive control D-amphetamine significantly increased both striatal and accumbal dopamine levels. The effects of buspirone or the highest deramciclane dose and D-amphetamine on DOPAC and HVA levels were opposite; buspirone and deramciclane increased while D-amphetamine decreased the metabolite levels in both brain areas. The results indicate that a single high dose of deramciclane has the neuroleptic- or buspirone-like effect, particularly in mesolimbic regions. There is at least a 5-fold margin between the anxiolytic and neuroleptic doses of deramciclane in the rat.
Basic & Clinical Pharmacology & Toxicology 02/2008; 102(1):50-8. · 2.18 Impact Factor
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ABSTRACT: Prolyl oligopeptidase (POP) is a serine endopeptidase which hydrolyses proline-containing peptides shorter than 30-mer. POP is believed to be associated with cognitive functions via neuropeptide cleavage. POP has been also connected to the inositol 1,4,5-triphosphate (IP3) signalling but the effects of POP-inhibition to the IP3 accumulation in vivo are still unclear. However, little is known about the physiological role of POP in the brain. We have previously found that in the rat brain POP was specifically expressed in the pyramidal neurons of the cerebral cortex, particularly in the primary motor and somatosensory cortices, and corresponding projection areas in thalamus. Using a retrograde neurotracer we have now visualized the localization of POP in thalamocortical and corticothalamic projection neurons in ventrobasal complex and medial geniculate nucleus of thalamus and somatosensory/motor and auditory cortices. We observed that both in thalamus and cortex over 50% of projection neurons contained POP. These results support the hypothesis that POP is involved in thalamocortical and corticothalamic signal processing. We also propose, based on our neuroanatomical findings and literature, that POP may take part in the thalamocortical oscillations by interacting with IP3 signalling in cells.
Neuroscience Letters.
