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Effect of Ketanserin and Amphetamine on Nigrostriatal Neurotransmission and Reactive Oxygen Species in Parkinsonian Rats. In Vivo Microdialysis StudyNowak, P., Szczerbak, G., Biedka, I., Drosik, M., Kostrzewa, R. M., Brus, R. 01 December 2006 (has links) (PDF)
5-HT2A/2C receptors are one of the most important in controlling basal ganglia outputs. In rodent models of Parkinson's disease (PD) blockade of these receptors increases locomotion and enhances the actions of dopamine (DA) replacement therapy. Moreover, previously we established that 5-HT 2A/2C antagonist attenuate DA D1 agonist mediated vacuous chewing movements (VCMs) which are considered as an animal representation of human dyskinesia. These findings implicate 5-HT neuronal phenotypes in basal ganglia pathology, and promote 5-HT2 antagonists as a rational treatment approach for dyskinesia that is prominent in most instances of PD replacement therapy. In the current study we determined whether ketanserin (KET) and/or amphetamine (AMPH) affected dopaminergic neurotranssmision in intact and fully DA-denervated rats. Moreover, we looked into extraneuronal content of HO. of the neostriatum after AMPH and/or KET injection, assessed by HPLC analysis of dihydroxybenzoic acids (2,3- and 2, 5-DHBA) - spin trap products of salicylate. Findings from the present study demonstrated that there are no substantial differences in extraneuronal HO. generation in the neostriatum between control and parkinsonian rats. KET did not affect DA release in the fully DA-denervated rat's neostriatum and also did not enhance HO. production. As 5-HT2A/2C receptor-mediated transmission might prove usefulness not only in addressing motor complications of PD patients (dyskinesia) but also in addressing non-motor problems such depression and/or L-DOPA evoked psychosis, the findings from the current study showed that the use of 5-HT2A/2C receptor antagonists in Parkinson's disease does not impend the neostriatal neuropil to be damaged by these drugs. We concluded that 5-HT2A/2C receptor antagonists may provide an attractive non-dopaminergic target for improving therapies for some basal ganglia disorders.
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Neurotoxic Action of 6-Hydroxydopamine on the Nigrostriatal Dopaminergic Pathway in Rats Sensitized With D-AmphetamineNowak, Przemysław, Kostrzewa, R. M., Kwieciński, A., Bortel, A., Labus,, Brus, R. 01 June 2005 (has links) (PDF)
To determine whether behavioral sensitization produced by prolonged D-amphetamine administration affects susceptibility of nigrostriatal dopaminergic neurons to the neurotoxic actions of 6-hydroxydopamine (6-OHDA), rats were treated daily from the 23 rd day after birth for 11 consecutive days with D-amphetamine (1.0 mg/kg s.c.) or saline. On the last day of treatment, one group primed with D-amphetamine and one control group of rats were tested to confirm behavioral sensitization development. The remaining animals were additionally treated on the 34 th day (one day after the last D-amphetamine injection) with 6-OHDA HBr (300 μg in 10 μl i.c.v., salt form, half in each lateral ventricle) or its vehicle. Four weeks later the levels of dopamine (DA) and its metabolites 3,4-dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), 3-metoxytyramine (3-MT), as well as 5-hydroxytrypatmine (5-HT) and its metabolite 5-hydroxyindoleacteic acid (5-HIAA) were assayed in the striatum, by HPLC/ED. In rats with behavioral sensitization, 6-OHDA reduced endogenous dopamine and its metabolites content to a comparable degree in comparison to controls. This finding indicates that presumed up-regulation of the dopamine transporter in the behaviorially sensitized rats did not increase the neurotoxicity of a high dose of 6-OHDA.
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Nitro-1-Arginine Attenuates SKF 38393 - Induced Oral Activity in Neonatal 6-Hydroxydopamine-Lesioned RatsBrus, Ryszard, Szkilnik, Ryszard, Nowak, Przemyslaw, Kostrzewa, Richard M. 01 December 1997 (has links)
Nitric oxide (NO) in brain has been implicated in neuronal regulatory processes and in neuropathologies. Previously we showed that NO modified quinpirole-induced yawning, a behavioral measure of dopamine (DA) Da receptor activation in rats. The aim of this study was to characterize the effect of nitro-L-arginine methyl ester HC1 (NAME) and L-arginine HC1 on reactivity of rats to the DA DI receptor agonist SKF 38393 and DA DI antagonist SCH 23390 in intact and neonatal 6-hydroxydopamine (o-OHDA)-lesioned rats (134 ng of base ICV at 3rd day after birth). L-arginine HC1 (300 mg/kg IP) increased the oral activity response in 6-OHDA-lesioned rats, like SKF 38393, and induced catalepsy in intact control rats, like SCH 23390. In contrast, NAME had no effect on oral activity or catalepsy, but fully attenuated SKF 38393-induced oral activity. These findings indicate that L-arginine HC1 has no apparent effect at the DA DI receptor, but that NAME is effective in attenuating a DA DI agonist induced effect. Consequently NO may be an intracellular second messenger for supersensitized receptors associated with DA DI agonist - induced oral activity.
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MIF-1 Attenuates Apomorphine Stereotypies in Adult Rats After Neonatal 6-HydroxydopamineKostrzewa, Richard M., White, Teresa G., Zadina, James E., Kastin, Abba J. 12 April 1989 (has links)
Since prolyl-leucyl-glycinamide (MIF-1) modifies the behavior of adult rats after treatment with neuroleptics, we examined whether MIF-1 would also modify adult behavior after treatment of neonatal rats with 6-hydroxydopamine (6-OHDA). Rats received 6-OHDA (100 μg i.c.v.) or diluent at 3 days after birth and either MIF-1 (2.0 mg/kg per day s.c. × 10 days) or diluent beginning at 28 or 29 days after birth. At 5 weeks, a low dose (0.1 mg/kg s.c.) of apomorphine increased the distance traveled, time in ambulation, number of stereotypic movements, and number of movements per time in stereotypy, but decreased the time in stereotypy in the 6-OHDA group. MIF-1 (× 7 or 8 days) showed a tendency to attenuate the increased number of movements and significantly (P < 0.05) reduced all of the other effects of neonatal 6-OHDA. Behavior induced by higher doses of apomorphine in the 6-OHDA group (reduced licking and head nodding; increased paw treading, taffy pulling and self-biting) were not attenuated by MIF-1. At 38 or 39 days, total in vitro binding of [3H]SCH-23390 and [3H]spiroperidol to striatal homogenates was not altered in any of the groups. The findings demonstrate that specific early developmental alterations in apomorphine-induced behaviors can be modified by treatment of adult rats with MIF-1, even in the absence of overt changes in the binding of striatal dopamine D-1 and D-2 receptors.
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Doença de Parkinson: possível envolvimento de receptores de cininas, purinas e de potencial transiente. / Parkinson\'s disease: possible involvement of kinin, purine and transient potential receptors.Dati, Livia Mendonça Munhóz 22 May 2017 (has links)
A Doença de Parkinson (DP) é a segunda doença neurodegenerativa mais comum na população, sendo seus mecanismos estudados em modelos animais. Há evidências de que alguns sistemas de comunicação celular podem modular o desenvolvimento da DP. Os canais de potencial transiente (TRPs) e receptores purinérgicos parecem envolvidos com a neurodegeneração e podem contribuir no desenvolvimento da DP, por outro lado, as cininas parecem estar relacionadas com a neuroproteção. O objetivo deste estudo foi avaliar a expressão e o envolvimento destes receptores de membrana no modelo da DP induzida por 6-OHDA em camundongos (C57Bl/6) injetados com agonista (BK) e antagonista (HOE-140) do receptor B2, e antagonista de TRPM7 (Carvacrol); e em nocautes do receptores B2, pelas técnicas de imuno-histoquímica e Western blotting. Os dados revelaram modulação destes receptores no modelo, e neuroproteção após o bloqueio do TRPM7. Assim, podemos sugerir que todos os receptores avaliados podem estar envolvidos na indução do modelo por 6-OHDA, sendo possíveis alvos terapêuticos para a DP. / Parkinson\'s disease (PD) is a second most common neurodegenerative disease in the population, and the mechanisms involved in these are studied in animal models. There is evidence that some systems can modulate the development of PD. Transient potential channels (TRPs) and purinergic receptors seem to be involved in neurodegeneration and may contribute to the development of PD; on the other hand, kininas appear to be related to neuroprotection. The aim of this study was to evaluate the expression and the involvement of these membrane receptors in the 6-OHDA-induced PD model in mice (C57Bl / 6) injected with agonist (BK) and antagonist (HOE-140) of B2 receptor; antagonist of TRPM7 (Carvacrol); and in B2 knockout knockouts, by immunohistochemistry and Western blotting techniques. The data revealed modulation of these receptors in the model, and neuroprotection after TRPM7 blockade. Thus, we can suggest that all the receptors evaluated may be involved in the induction of the 6-OHDA model, and can be possible therapeutic targets for PD.
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HIGH-FREQUENCY OSCILLATIONS IN A MOUSE MODEL OF PARKINSON’S DISEASEZachrisson, Love January 2020 (has links)
Dopamine replacement therapy is the main method of treating Parkinson’s Disease (PD), however over time this treatment causes increasingly abnormal, involuntary movements. This symptom, known as Levodopa-Induced-Dyskinesia (LID) is associated with aberrant, high frequency oscillations (HFOs) in the motor cortex and basal ganglia, as demonstrated with implanted electrodes in human Parkinson’s patients as well as in a rat model of Parkinson’s Disease. However, despite efforts to determine if the same high frequency oscillations are also present during dyskinesia in the widespread 6-OHDA mouse model of Parkinson’s Disease, studies have been unable to do so. By building and implanting a 64-channel multi-electrode array into a unilateral 6-OHDA lesioned mouse, we were able to record HFOs at 80Hz and >100Hz in the motor cortex, basal ganglia and thalamus in the lesioned hemisphere during LID. We also recorded bilateral HFOs at >100Hz in the intact hemisphere. With this work we show that the same HFOs that are present in the motor cortex and basal ganglia of rats and humans are also present in mice during dyskinesia. This work will act to further validate the 6-OHDA PD-model in mice and provide opportunities to investigate new treatments for Parkinson’s Disease, dyskinesia and other neurological conditions. It will also serve as a model to study a purposed mechanism underlying the information processing in populations of neurons. / Dopaminbehandling är den mest förekommande metoden för att behandla Parkinsons sjukdom men detta orsakar dessvärre en bieffekt i form av gradvis förvärrande ofrivilliga rörelser. Detta beteendemönster kallas för Levodopa-Inducerad-Dyskinesi (LID) och med hjälp av elektrodimplantat i hjärnan, på parkinsonpatienter och djurmodeller av parkinsons, har man kunnat se att beteendet är förknippat med högfrekventa oscilleringar (HFO) av hjärnaktivitet i motorcortex och basala ganglierna. Trots försök att kartlägga om dessa högfrekventa oscilleringar också är närvarande i den populära 6-OHDA musmodellen av Parkinsons sjukdom, så har man hittills inte lyckats demonstrera detta. Genom att bygga och implantera ett elektrodimplantat med 64 kanaler i en ensidigt-leisonerad 6-OHDA musmodell av Parkinsons sjukdom så kunde vi åskådliggöra HFO i motor cortex, basala ganglierna och thalamus i den lesionerade hjärnhalvan under LID. Vi kunde också påvisa HFO som sträckte sig över till den intakta hjärnhalvan, med frekvenser över 100 Hz. Denna forskning ger stöd att 6-OHDA modellen för Parkinsons i möss är valid och ger möjlighet till nya metoder att utforska och behandla Parkinsons, dyskinesi och andra neurologiska åkommor. Studien lägger också grunden för framtida studier som ämnar att undersöka föreslagna mekanismer bakom sättet populationer av neuroner bearbetar information. / ingår i ett projekt finansierat av Vetenskapsrådet #2018-02717
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Phase Validation Of Neurotoxic Animal Models Of ParkinsonTelkes, Ilknur 01 December 2012 (has links) (PDF)
Parkinson&rsquo / s disease (PD) is characterized by the progressive loss of dopaminergic nigral neurons and striatal dopamine resulting in serious motor deficits but also some non-motor
anomalies. Animal models of human neurodegenerative diseases are essential for better understanding their pathogenesis and developing efficient therapeutic tools. There are many different PD models, however, none of them is fully reproducing all the symptoms of the disease. In addition, different investigators use different behavioral measures which makes even more difficult to compare and evaluate the results. The aim of the present study was to compare motor and cognitive deficits in two most common models of PD: the Rotenone and 6-OHDA model, using a large battery of neurological tests and a probabilistic learning task. To the best of our knowledge, this is the first study to examine the effects of bilaterally induced Rotenone and 6-OHDA through behavioral test batteries assessing the cardinal motor symptoms and the cognitive abnormality of Parkinson&rsquo / s Disease in the same rat
population. Also, the present study is unique on the basis of providing both longitudinal observations of behaviour in the same treatment group and the cross-sectional comparisons
of the behavioural responses between different groups. In the current study, the neurotoxins were applied at relatively low doses of 3-4 &mu / g, bilaterally to the substantia nigra pars
compacta (SNpc). Experiments were conducted on 50 young-adult male Sprague&ndash / Dawley rats randomly assigned to five experimental groups: Rotenone, 6-OHDA, vehicle (DMSO/Saline), and the intact control. The neurological tests included locomotor activity,catalepsy, rearing, stepping, and rotarod/accelerod tests. They were applied prior to, and on
days 4-7-10-20-40-150 while the learning task was applied 49 days after drug infusion.During the first 2 postoperational months, both neurotoxins produced progressive deterioration in motor performance but showing no effect on cognitive functions. Five months after the surgery, regression of bradykinesia but persistence of sensorimotor deficits was noted. The tests&rsquo / results suggest different susceptibility of different motor functions to the degeneration of nigro-striatal (N-S) pathway. So, different tests were demonstrated to
have different power in detecting similar motor deficits.
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Mechanisms of Deep Brain Stimulation for the Treatment of Parkinson's Disease: Evidence from Experimental and Computational StudiesSo, Rosa Qi Yue January 2012 (has links)
<p>Deep brain stimulation (DBS) is used to treat the motor symptoms of advanced Parkinson's disease (PD). Although this therapy has been widely applied, the mechanisms of action underlying its effectiveness remain unclear. The goal of this dissertation was to investigate the mechanisms underlying the effectiveness of subthalamic nucleus (STN) DBS by quantifying changes in neuronal activity in the basal ganglia during both effective and ineffective DBS.</p><p>Two different approaches were adopted in this study. The first approach was the unilateral 6-hydroxydopamine (6-OHDA) lesioned rat model. Using this animal model, we developed behavioral tests that were used to quantify the effectiveness of DBS with various frequencies and temporal patterns. These changes in behavior were correlated with changes in the activity of multiple single neurons recorded from the globus pallidus externa (GPe) and substantia nigra reticulata (SNr). The second approach was a computational model of the basal ganglia-thalamic network. The output of the model was quantified using an error index that measured the fidelity of transmission of information in model thalamic neurons. We quantified changes in error index as well as neural activity within the model GPe and globus pallidus interna (GPi, equivalent to the SNr in rats).</p><p>Using these two approaches, we first quantified the effects of different frequencies of STN DBS. High frequency stimulation was more effective than low frequency stimulation at reducing motor symptoms in the rat, as well as improving the error index of the computational model. In both the GPe and SNr/GPi from the rat and computational model, pathological low frequency oscillations were present. These low frequency oscillations were suppressed during effective high frequency DBS but not low frequency DBS. Furthermore, effective high frequency DBS generated oscillations in neural firing at the same frequency of stimulation. Such changes in neuronal firing patterns were independent of changes in firing rates.</p><p>Next, we investigated the effects of different temporal patterns of high frequency stimulation. Stimulus trains with the same number of pulses per second but different coefficients of variation (CVs) were delivered to the PD rat as well as PD model. 130 Hz regular DBS was more effective than irregular DBS at alleviating motor symptoms of the PD rat and improving error index in the computational model. However, the most irregular stimulation pattern was still more effective than low frequency stimulation. All patterns of DBS were able to suppress the pathological low frequency oscillations present in the GPe and SNr/GPi, but only 130 Hz stimulation increased high frequency 130 Hz oscillations. Therefore, the suppression of pathological low frequency neural oscillations was necessary but not sufficient to produce the maximum benefits of DBS.</p><p>The effectiveness of regular high frequency STN DBS was associated with a decrease in pathological low frequency oscillations and an increase in high frequency oscillations. These observations indicate that the effects of DBS are not only mediated by changes in firing rate, but also involve changes in neuronal firing patterns within the basal ganglia. The shift in neural oscillations from low to high frequency during effective STN DBS suggests that high frequency regular DBS suppresses pathological firing by entraining neurons to the stimulus pulses. </p><p>Therefore, results from this dissertation support the hypothesis that the underlying mechanism of effective DBS is its ability to entrain and regularize neuronal firing, therefore disrupting pathological patterns of activity within the basal ganglia.</p> / Dissertation
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Histamine H<sub>3</sub> Receptor Ligands Modulate L-Dopa-Evoked Behavioral Responses and L-Dopa-Derived Extracellular Dopamine in Dopamine-Denervated Rat StriatumNowak, Przemyslaw, Bortel, Aleksandra, Dabrowska, Joanna, Biedka, Izabela, Slomian, Grzegorz, Roczniak, Wojciech, Kostrzewa, Richard M., Brus, Ryszard 01 September 2008 (has links)
To explore a recently established association between histaminergic and dopaminergic neuronal phenotypic systems in brain, we determined the effect of the respective histaminergic H3 receptor agonist and antagonist/inverse agonist, imetit and thioperamide, on L-DOPA - derived tissue and extracellular dopamine (DA) and metabolite levels in the striatum of 6-hydroxydopamine (6-OHDA) - lesioned rats (i.e., parkinsonian rats). We also examined the influence of histamine H3 ligands on L-DOPA evoked behavioral responses (locomotor activity, number of rearings, stereotyped behavior and motor coordination). Using HPLC/ED and in vivo microdialysis technique, imetit (5 mg/kg, i.p.) but not thioperamide (5 mg/kg, i.p.) was shown to attenuate an L-DOPA-evoked (15 mg/ kg, i.p.; carbidopa, 30 min pretreatment) increase in extracellular DA in the neostriatum of 6-OHDA-lesioned rats. However, both imetit and thioperamide increased microdialysate levels of DOPAC and HVA, probably by enhancing intraneuronal DA utilization. As indicated by neurochemical analysis of the striatum imetit produced a decrease in tissue DA content. These findings support the hypothesis that central H3 histaminergic receptors have a modulatory role in the storage, metabolism and release of DA derived from exogenous L-DOPA challenge. Furthermore, evidence from behavioral studies indicate that histamine H3 receptor block markedly improved motor coordination. Conversely, histamine H3 receptor stimulation, being without effect on motor coordination, enhanced vertical activity in rats. From the above we conclude that histamine H3 agonism may augment motor dyskinesia in Parkinson's disease (PD) patients and presumably worsen L-DOPA therapy. Consequently, the histaminergic system represents a viable target for modulating the effectiveness of L-DOPA therapy in Parkinson's disease.
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Ontogenic Homologous Supersensitization of Dopamino D<sub>1</sub> ReceptorsHamdi, Anwar, Kostrzewa, Richard M. 02 October 1991 (has links)
To determine whether prolonged supersensitization of dopamine D-1 receptors could be produced during ontogeny, rats were treated daily, from birth, for 33 consecutive days with the D-1 receptor agonist, SKF 38393 HC1 (3.0 mg/kg per day i.p.). These rats were additionally treated at 3 days after birth with the neurotoxin, 6-hydroxydopamine HBr (6-OHDA; 200 μg, i.c.v., half in each lateral ventricle) or its vehicle. At 6 to 7 weeks from birth a challenge dose of SKF 38393 HCl (3.0 mg/kg i.p.) increased stereotypy scores for a number of behaviors in 6-OHDA-lesioned rats that were treated repeatedly during ontogeny with SKF 38393. These accentuated behaviors included licking, grooming, taffy pulling, jumping, paw treading and locomotion. Although the findings demonstrate an increased sensitivity of D-1 receptors to an agonist, there was no change in the Bmax or Kd for D-1 receptors in the striatum. In rats that were treated during postnatal development with SKF 38393, but not lesioned with 6-OHDA, SKF 38393-induced stereotyped behaviors were not substantially different from control. The neonatally primed rat model may be useful for probing mechanisms of receptor supersensitivity.
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