30 results on '"Schintu N"'
Search Results
2. Modulation by Trace Amine-Associated Receptor 1 of Experimental Parkinsonism, L-DOPA Responsivity, and Glutamatergic Neurotransmission
- Author
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Alvarsson, A., primary, Zhang, X., additional, Stan, T. L., additional, Schintu, N., additional, Kadkhodaei, B., additional, Millan, M. J., additional, Perlmann, T., additional, and Svenningsson, P., additional
- Published
- 2015
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3. A new ethyladenine antagonist of adenosine A(2A) receptors: behavioral and biochemical characterization as an antiparkinsonian drug
- Author
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Pinna, A, Tronci, E, Schintu, N, Simola, N, Volpini, Rosaria, Pontis, S, Cristalli, Gloria, and Morelli, M.
- Published
- 2010
4. P.1.g.044 Trace amine-associated receptor 1 inhibits a hyperglutamatergic state induced by dopamine deficiency
- Author
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Alvarsson, A., primary, Stan, T.L., additional, Schintu, N., additional, Kadkhodaei, B., additional, Millan, M.J., additional, Perlmann, T., additional, and Svenningsson, P., additional
- Published
- 2014
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5. P.1.005 The trace amine-associated receptor 1 inhibits a hyperglutamatergic state induced by dopamine deficiency
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Alvarsson, A., primary, Stan, T.L., additional, Schintu, N., additional, Kadkhodaei, B., additional, and Perlmann, T., additional
- Published
- 2014
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6. P.2.010 Effects of L-DOPA and sarizotan treatments in a parkinsonian rat model of depression
- Author
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Schintu, N., primary, Zhang, X., additional, Mathé, A.A., additional, and Svenningsson, P., additional
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- 2013
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7. P.1.c.033 Behavioural and biochemical evaluation of the anti-dyskinetic potential of sarizotan, a 5-HT1A agonist, in 6-ODHA lesioned rats
- Author
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Schintu, N., primary, Zhang, X., additional, and Svenningsson, P., additional
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- 2011
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8. P2.106 Assessment of symptomatic and neuroprotective efflcacy of Mucuna pruriens seed extract in rodent model of Parkinson's disease
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Pinna, A., primary, Pontis, S., additional, Schintu, N., additional, Simola, N., additional, Kasture, S., additional, and Morelli, M., additional
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- 2009
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9. Cross-validated Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry Imaging Quantitation Protocol for a Pharmaceutical Drug and Its Drug-Target Effects in the Brain Using Time-of-Flight and Fourier Transform Ion Cyclotron Resonance Analyzers.
- Author
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Källback P, Vallianatou T, Nilsson A, Shariatgorji R, Schintu N, Pereira M, Barré F, Wadensten H, Svenningsson P, and Andrén PE
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- Animals, Brain metabolism, Calibration, Chromatography, Liquid, Citalopram pharmacology, Hippocampus drug effects, Hippocampus metabolism, Male, Mice, Reproducibility of Results, Serotonin metabolism, Brain drug effects, Cyclotrons, Fourier Analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization instrumentation
- Abstract
Matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI-MSI) is an established tool in drug development, which enables visualization of drugs and drug metabolites at spatial localizations in tissue sections from different organs. However, robust and accurate quantitation by MALDI-MSI still remains a challenge. We present a quantitative MALDI-MSI method using two instruments with different types of mass analyzers, i.e., time-of-flight (TOF) and Fourier transform ion cyclotron resonance (FTICR) MS, for mapping levels of the in vivo -administered drug citalopram, a selective serotonin reuptake inhibitor, in mouse brain tissue sections. Six different methods for applying calibration standards and an internal standard were evaluated. The optimized method was validated according to authorities' guidelines and requirements, including selectivity, accuracy, precision, recovery, calibration curve, sensitivity, reproducibility, and stability parameters. We showed that applying a dilution series of calibration standards followed by a homogeneously applied, stable, isotopically labeled standard for normalization and a matrix on top of the tissue section yielded similar results to those from the reference method using liquid chromatography-tandem mass spectrometry (LC-MS/MS). The validation results were within specified limits and the brain concentrations for TOF MS (51.1 ± 4.4 pmol/mg) and FTICR MS (56.9 ± 6.0 pmol/mg) did not significantly differ from those of the cross-validated LC-MS/MS method (55.0 ± 4.9 pmol/mg). The effect of in vivo citalopram administration on the serotonin neurotransmitter system was studied in the hippocampus, a brain region that is the principal target of the serotonergic afferents along with the limbic system, and it was shown that serotonin was significantly increased (2-fold), but its metabolite 5-hydroxyindoleacetic acid was not. This study makes a substantial step toward establishing MALDI-MSI as a fully quantitative validated method.
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- 2020
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10. Non-dopaminergic Alterations in Depression-Like FSL Rats in Experimental Parkinsonism and L-DOPA Responses.
- Author
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Schintu N, Zhang X, Stroth N, Mathé AA, Andrén PE, and Svenningsson P
- Abstract
Depression is a common comorbid condition in Parkinson's disease (PD). Patients with depression have a two-fold increased risk to develop PD. Further, depression symptoms often precede motor symptoms in PD and are frequent at all stages of the disease. However, the influence of a depressive state on the responses to antiparkinson treatments is largely unknown. In this study, the genetically inbred depression-like flinders sensitive line (FSL) rats and control flinders resistant line (FRL) rats were studied in models of experimental parkinsonism. FSL rats showed a potentiated tremorgenic response to tacrine, a cholinesterase inhibitor used experimentally to induce 6 Hz resting tremor reminiscent of parkinsonian tremor. We also studied rats lesioned with 6-OHDA to induce hemiparkinsonism. No baseline differences in dopaminergic response to acute apomorphine or L-DOPA was found. However, following chronic treatment with L-DOPA, FRL rats developed sensitization of turning and abnormal involuntary movements (AIMs); these effects were counteracted by the anti-dyskinetic 5-HT
1 A agonist/D2 partial agonist sarizotan. In contrast, FSL rats did not develop sensitization of turning and only minor AIMs in response to L-DOPA treatment. The roles of several non-dopamine systems underlying this discrepancy were studied. Unexpectedly, no differences of opioid neuropeptides or serotonin markers were found between FRL and FSL rats. The marked behavioral difference between the FRL and FSL rats was paralleled with the striatal expression of the established marker, c-fos, but also the GABAergic transporter (vGAT), and a hitherto unknown marker, tamalin, that is known to regulate mGluR5 receptor function and postsynaptic organization. This study demonstrates that behavioral and transcriptional responses of non-dopaminergic systems to experimental parkinsonism and L-DOPA are modified in a genetic rat model of depression., (Copyright © 2020 Schintu, Zhang, Stroth, Mathé, Andrén and Svenningsson.)- Published
- 2020
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11. Molecular imaging identifies age-related attenuation of acetylcholine in retrosplenial cortex in response to acetylcholinesterase inhibition.
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Vallianatou T, Shariatgorji M, Nilsson A, Fridjonsdottir E, Källback P, Schintu N, Svenningsson P, and Andrén PE
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- Acetylcholine analysis, Animals, Cerebral Cortex chemistry, Cerebral Cortex drug effects, Cholinesterase Inhibitors analysis, Male, Mice, Inbred C57BL, Molecular Imaging, Tacrine analysis, Acetylcholine metabolism, Aging metabolism, Cerebral Cortex metabolism, Cholinesterase Inhibitors administration & dosage, Cholinesterase Inhibitors metabolism, Tacrine administration & dosage
- Abstract
The neurotransmitter of the cholinergic system, acetylcholine plays a major role in the brain's cognitive function and is involved in neurodegenerative disorders. Here, we present age-related alterations of acetylcholine levels after administration of the acetylcholinesterase inhibitor drug tacrine in normal mice. Using a quantitative, robust and molecular-specific mass spectrometry imaging method we found that tacrine administration significantly raised acetylcholine levels in most areas of sectioned mice brains, inter alia the striatum, hippocampus and cortical areas. However, acetylcholine levels in retrosplenial cortex were significantly lower in 14-month-old than in 12-week-old animals following its administration, indicating that normal aging affects the cholinergic system's responsivity. This small brain region is interconnected with an array of brain networks and is involved in numerous cognitive tasks. Simultaneous visualization of distributions of tacrine and its hydroxylated metabolites in the brain revealed a significant decrease in levels of the metabolites in the 14-month-old mice. The results highlight strengths of the imaging technique to simultaneously investigate multiple molecular species and the drug-target effects in specific regions of the brain. The proposed approach has high potential in studies of neuropathological conditions and responses to neuroactive treatments.
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- 2019
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12. Cell- and region-specific expression of depression-related protein p11 (S100a10) in the brain.
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Milosevic A, Liebmann T, Knudsen M, Schintu N, Svenningsson P, and Greengard P
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- Animals, Depression metabolism, Female, Image Processing, Computer-Assisted, Immunohistochemistry, In Situ Hybridization, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Annexin A2 biosynthesis, Brain metabolism, S100 Proteins biosynthesis
- Abstract
P11 (S100a10), a member of the S100 family of proteins, has widespread distribution in the vertebrate body, including in the brain, where it has a key role in membrane trafficking, vesicle secretion, and endocytosis. Recently, our laboratory has shown that a constitutive knockout of p11 (p11-KO) in mice results in a depressive-like phenotype. Furthermore, p11 has been implicated in major depressive disorder (MDD) and in the actions of antidepressants. Since depression affects multiple brain regions, and the role of p11 has only been determined in a few of these areas, a detailed analysis of p11 expression in the brain is warranted. Here we demonstrate that, although widespread in the brain, p11 expression is restricted to distinct regions, and specific neuronal and nonneuronal cell types. Furthermore, we provide comprehensive mapping of p11 expression using in situ hybridization, immunocytochemistry, and whole-tissue volume imaging. Overall, expression spans multiple brain regions, structures, and cell types, suggesting a complex role of p11 in depression. J. Comp. Neurol. 525:955-975, 2017. © 2016 Wiley Periodicals, Inc., Competing Interests: The authors declare no conflict of interest., (© 2016 The Authors The Journal of Comparative Neurology Published by Wiley Periodicals, Inc.)
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- 2017
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13. p11 modulates L-DOPA therapeutic effects and dyskinesia via distinct cell types in experimental Parkinsonism.
- Author
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Schintu N, Zhang X, Alvarsson A, Marongiu R, Kaplitt MG, Greengard P, and Svenningsson P
- Subjects
- Animals, Mice, Mice, Knockout, Annexin A2 physiology, Dyskinesias physiopathology, Levodopa therapeutic use, Parkinsonian Disorders drug therapy, S100 Proteins physiology
- Abstract
The reduced movement repertoire of Parkinson's disease (PD) is mainly due to degeneration of nigrostriatal dopamine neurons. Restoration of dopamine transmission by levodopa (L-DOPA) relieves motor symptoms of PD but often causes disabling dyskinesias. Subchronic L-DOPA increases levels of adaptor protein p11 (S100A10) in dopaminoceptive neurons of the striatum. Using experimental mouse models of Parkinsonism, we report here that global p11 knockout (KO) mice develop fewer jaw tremors in response to tacrine. Following L-DOPA, global p11KO mice show reduced therapeutic responses on rotational motor sensitization, but also develop less dyskinetic side effects. Studies using conditional p11KO mice reveal that distinct cell populations mediate these therapeutic and side effects. Selective deletion of p11 in cholinergic acetyltransferase (ChAT) neurons reduces tacrine-induced tremor. Mice lacking p11 in dopamine D2R-containing neurons have a reduced response to L-DOPA on the therapeutic parameters, but develop dyskinetic side effects. In contrast, mice lacking p11 in dopamine D1R-containing neurons exhibit tremor and rotational responses toward L-DOPA, but develop less dyskinesia. Moreover, coadministration of rapamycin with L-DOPA counteracts L-DOPA-induced dyskinesias in wild-type mice, but not in mice lacking p11 in D1R-containing neurons. 6-OHDA lesioning causes an increase of evoked striatal glutamate release in wild type, but not in global p11KO mice, indicating that altered glutamate neurotransmission could contribute to the reduced L-DOPA responsivity. These data demonstrate that p11 located in ChAT or D2R-containing neurons is involved in regulating therapeutic actions in experimental PD, whereas p11 in D1R-containing neurons underlies the development of L-DOPA-induced dyskinesias.
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- 2016
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14. Dopaminergic control of autophagic-lysosomal function implicates Lmx1b in Parkinson's disease.
- Author
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Laguna A, Schintu N, Nobre A, Alvarsson A, Volakakis N, Jacobsen JK, Gómez-Galán M, Sopova E, Joodmardi E, Yoshitake T, Deng Q, Kehr J, Ericson J, Svenningsson P, Shupliakov O, and Perlmann T
- Subjects
- Animals, Behavior, Animal, Biogenic Monoamines metabolism, Cell Survival drug effects, Dopaminergic Neurons physiology, Humans, LIM-Homeodomain Proteins genetics, Mice, Mice, Knockout, Parkinson Disease genetics, Parkinson Disease psychology, Transcription Factors genetics, Transcription Factors physiology, Autophagy genetics, Dopamine metabolism, LIM-Homeodomain Proteins metabolism, Lysosomes metabolism, Parkinson Disease physiopathology, Transcription Factors metabolism
- Abstract
The role of developmental transcription factors in maintenance of neuronal properties and in disease remains poorly understood. Lmx1a and Lmx1b are key transcription factors required for the early specification of ventral midbrain dopamine (mDA) neurons. Here we show that conditional ablation of Lmx1a and Lmx1b after mDA neuron specification resulted in abnormalities that show striking resemblance to early cellular abnormalities seen in Parkinson's disease. We found that Lmx1b was required for the normal execution of the autophagic-lysosomal pathway and for the integrity of dopaminergic nerve terminals and long-term mDA neuronal survival. Notably, human LMX1B expression was decreased in mDA neurons in brain tissue affected by Parkinson's disease. Thus, these results reveal a sustained and essential requirement of Lmx1b for the function of midbrain mDA neurons and suggest that its dysfunction is associated with Parkinson's disease pathogenesis.
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- 2015
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15. Ropinirole regulates emotionality and neuronal activity markers in the limbic forebrain.
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Mavrikaki M, Schintu N, Nomikos GG, Panagis G, and Svenningsson P
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- Animals, Cytoskeletal Proteins metabolism, Dose-Response Relationship, Drug, Emotions physiology, Exploratory Behavior drug effects, Exploratory Behavior physiology, Limbic System physiopathology, Male, Maze Learning drug effects, Maze Learning physiology, Motor Activity drug effects, Motor Activity physiology, Nerve Tissue Proteins metabolism, Prosencephalon physiopathology, Proto-Oncogene Proteins c-fos metabolism, RNA, Messenger metabolism, Rats, Sprague-Dawley, Receptors, AMPA metabolism, Receptors, Dopamine D2 metabolism, Receptors, Dopamine D3 metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Self Stimulation drug effects, Self Stimulation physiology, Spatial Memory drug effects, Spatial Memory physiology, Stress, Psychological drug therapy, Stress, Psychological physiopathology, Synaptic Transmission physiology, Dopamine Agonists pharmacology, Emotions drug effects, Indoles pharmacology, Limbic System drug effects, Prosencephalon drug effects, Synaptic Transmission drug effects
- Abstract
Restless legs syndrome (RLS) and Parkinson's disease (PD) are movement disorders usually accompanied by emotional and cognitive deficits. Although D3/D2 receptor agonists are effective against motor and non-motor deficits in RLS and PD, the exact behavioral and neurochemical effects of these drugs are not clearly defined. This study aimed to evaluate the effects of acute ropinirole (0, 0.1, 1 or 10 mg/kg, i.p.), a preferential D3/D2 receptor agonist, on intracranial self-stimulation (ICSS), spontaneous motor activity, anxiety- and depression-like behaviors, spatial reference and working memory in rats as well as on certain markers of neuronal activity, i.e. induction of immediate early genes, such as c-fos and arc, and crucial phosphorylations on GluA1 subunit of α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors and NA1, NA2A and NA2B subunits of N-methyl-D-aspartate (NMDA) receptors. Ropinirole decreased ICSS thresholds and induced anxiolytic- and antidepressive-like effects without affecting motor activity or spatial memory. The effects on emotionality were associated with a decrease in p-Ser897-NA1 and an increase in p-Tyr1472-NA2B in the ventral striatum as well as an increased induction of c-fos messenger RNA (mRNA) in the prefrontal cortex (PFC) and decreased expression of arc mRNA in the striatum and the shell of the nucleus accumbens. Our data indicate that ropinirole significantly affects emotionality at doses (1-10 mg/kg, i.p.) that exert no robust effects on locomotion or cognition. The data reinforce the use of D3/D2 receptor agonists in the treatment of RLS and PD patients characterized by emotional deficits and suggest that altered NMDA-mediated neurotransmission in the limbic forebrain may underlie some of ropinirole's therapeutic actions.
- Published
- 2014
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16. Direct targeted quantitative molecular imaging of neurotransmitters in brain tissue sections.
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Shariatgorji M, Nilsson A, Goodwin RJ, Källback P, Schintu N, Zhang X, Crossman AR, Bezard E, Svenningsson P, and Andren PE
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- Animals, Mice, Rats, Brain metabolism, Molecular Imaging methods, Neurotransmitter Agents metabolism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
- Abstract
Current neuroimaging techniques have very limited abilities to directly identify and quantify neurotransmitters from brain sections. We have developed a molecular-specific approach for the simultaneous imaging and quantitation of multiple neurotransmitters, precursors, and metabolites, such as tyrosine, tryptamine, tyramine, phenethylamine, dopamine, 3-methoxytyramine, serotonin, GABA, glutamate, acetylcholine, and L-alpha-glycerylphosphorylcholine, in histological tissue sections at high spatial resolutions. The method is employed to directly measure changes in the absolute and relative levels of neurotransmitters in specific brain structures in animal disease models and in response to drug treatments, demonstrating the power of mass spectrometry imaging in neuroscience., (Copyright © 2014 Elsevier Inc. All rights reserved.)
- Published
- 2014
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17. Effects of lithium and aripiprazole on brain stimulation reward and neuroplasticity markers in the limbic forebrain.
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Mavrikaki M, Schintu N, Kastellakis A, Nomikos GG, Svenningsson P, and Panagis G
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- Animals, Antipsychotic Agents administration & dosage, Aripiprazole administration & dosage, Biomarkers metabolism, Cyclic AMP Response Element-Binding Protein metabolism, Electric Stimulation, Limbic System metabolism, Lithium Chloride administration & dosage, Male, Nerve Tissue Proteins metabolism, Neuronal Plasticity drug effects, Neurons metabolism, Phosphorylation drug effects, Prosencephalon metabolism, Protein Processing, Post-Translational drug effects, Protein Subunits metabolism, Rats, Rats, Sprague-Dawley, Receptors, AMPA metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Reward, Antipsychotic Agents pharmacology, Aripiprazole pharmacology, Drug Tolerance, Limbic System drug effects, Lithium Chloride pharmacology, Neurons drug effects, Prosencephalon drug effects
- Abstract
Bipolar disorder (BD) is a severe pathological condition with impaired reward-related processing. The present study was designed to assess the effects of two commonly used BD medications, the mood stabilizer lithium chloride (LiCl) and the atypical antipsychotic and antimanic agent aripiprazole, in an animal model of reward and motivation and on markers of neuroplasticity in the limbic forebrain in rats. We utilized intracranial self-simulation (ICSS) to assess the effects of acute and chronic administration of LiCl and aripiprazole on brain stimulation reward, and phosphorylation studies to determine their effects on specific cellular neuroplasticity markers, i.e., the phosphorylation of CREB and crucial phosphorylation sites on the GluA1 subunit of AMPA receptors and the NA1 and NA2B subunits of NMDA receptors, in the limbic forebrain. Chronic LiCl induced tolerance to the anhedonic effect of the drug observed after acute administration, while chronic aripiprazole induced a sustained anhedonic effect. These distinct behavioral responses might be related to differences in molecular markers of neuroplasticity. Accordingly, we demonstrated that chronic LiCl, but not aripiprazole, decreased phosphorylation of CREB at the Ser133 site and NA1 at the Ser896 site in the prefrontal cortex and GluA1 at the Ser831 site and NA2B at the Ser1303 site in the ventral striatum. The present study provides evidence for BD medication-evoked changes in reward and motivation processes and in specific markers of neuronal plasticity in the limbic forebrain, promoting the notion that these drugs may blunt dysregulated reward processes in BD by counteracting neuronal plasticity deficits., (© 2013 Published by Elsevier B.V. and ECNP.)
- Published
- 2014
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18. Transcription factor Nurr1 maintains fiber integrity and nuclear-encoded mitochondrial gene expression in dopamine neurons.
- Author
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Kadkhodaei B, Alvarsson A, Schintu N, Ramsköld D, Volakakis N, Joodmardi E, Yoshitake T, Kehr J, Decressac M, Björklund A, Sandberg R, Svenningsson P, and Perlmann T
- Subjects
- Animals, Behavior, Animal, Cell Nucleus genetics, Dopamine metabolism, Dopaminergic Neurons ultrastructure, Gene Expression, Genes, Mitochondrial, Mice, Mice, Knockout, Mice, Transgenic, Nuclear Receptor Subfamily 4, Group A, Member 2 deficiency, Nuclear Receptor Subfamily 4, Group A, Member 2 genetics, Visual Cortex metabolism, Dopaminergic Neurons metabolism, Nuclear Receptor Subfamily 4, Group A, Member 2 metabolism
- Abstract
Developmental transcription factors important in early neuron specification and differentiation often remain expressed in the adult brain. However, how these transcription factors function to mantain appropriate neuronal identities in adult neurons and how transcription factor dysregulation may contribute to disease remain largely unknown. The transcription factor Nurr1 has been associated with Parkinson's disease and is essential for the development of ventral midbrain dopamine (DA) neurons. We used conditional Nurr1 gene-targeted mice in which Nurr1 is ablated selectively in mature DA neurons by treatment with tamoxifen. We show that Nurr1 ablation results in a progressive pathology associated with reduced striatal DA, impaired motor behaviors, and dystrophic axons and dendrites. We used laser-microdissected DA neurons for RNA extraction and next-generation mRNA sequencing to identify Nurr1-regulated genes. This analysis revealed that Nurr1 functions mainly in transcriptional activation to regulate a battery of genes expressed in DA neurons. Importantly, nuclear-encoded mitochondrial genes were identified as the major functional category of Nurr1-regulated target genes. These studies indicate that Nurr1 has a key function in sustaining high respiratory function in these cells, and that Nurr1 ablation in mice recapitulates early features of Parkinson's disease.
- Published
- 2013
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19. Deuterated matrix-assisted laser desorption ionization matrix uncovers masked mass spectrometry imaging signals of small molecules.
- Author
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Shariatgorji M, Nilsson A, Goodwin RJ, Svenningsson P, Schintu N, Banka Z, Kladni L, Hasko T, Szabo A, and Andren PE
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- Acetylcholine metabolism, Animals, Berberine metabolism, Brain metabolism, Lung metabolism, Male, Mice, Molecular Weight, Rats, Coumaric Acids chemistry, Molecular Imaging methods, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods
- Abstract
D(4)-α-Cyano-4-hydroxycinnamic acid (D(4)-CHCA) has been synthesized for use as a matrix for matrix-assisted laser desorption ionization-mass spectrometry (MALDI-MS) and MALDI-MS imaging (MSI) of small molecule drugs and endogenous compounds. MALDI-MS analysis of small molecules has historically been hindered by interference from matrix ion clusters and fragment peaks that mask signals of low molecular weight compounds of interest. By using D(4)-CHCA, the cluster and fragment peaks of CHCA, the most common matrix for analysis of small molecules, are shifted by + 4, + 8 and + 12 Da, which expose signals across areas of the previously concealed low mass range. Here, obscured MALDI-MS signals of a synthetic small molecule pharmaceutical, a naturally occurring isoquinoline alkaloid, and endogenous compounds including the neurotransmitter acetylcholine have been unmasked and imaged directly from biological tissue sections.
- Published
- 2012
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20. Controlled-pH tissue cleanup protocol for signal enhancement of small molecule drugs analyzed by MALDI-MS imaging.
- Author
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Shariatgorji M, Källback P, Gustavsson L, Schintu N, Svenningsson P, Goodwin RJ, and Andren PE
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- Animals, Brain metabolism, Cimetidine analysis, Cimetidine isolation & purification, Hydrogen-Ion Concentration, Imipramine analysis, Imipramine isolation & purification, Male, Mice, Pharmaceutical Preparations isolation & purification, Rats, Rats, Wistar, Pharmaceutical Preparations analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
- Abstract
The limit of detection of low-molecular weight compounds in tissue sections, analyzed by matrix assisted laser desorption ionization mass spectrometry imaging (MALDI-MSI), was significantly improved by employing sample washing using a pH-controlled buffer solution. The pH of the washing solutions were set at values whereby the target analytes would have low solubility. Washing the tissue sections in the buffered solution resulted in removal of endogenous soluble ionization-suppressing compounds and salts, while the target compound remained in situ with minor or no delocalization during the buffered washing procedure. Two pharmaceutical compounds (cimetidine and imipramine) and one new protease inhibitor compound were successfully used to evaluate the feasibility of the pH-controlled tissue washing protocol for MALDI-MSI. Enhancement in signal-to-noise ratio was achieved by a factor of up to 10.
- Published
- 2012
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21. Studies of depression-related states in animal models of Parkinsonism.
- Author
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Schintu N, Zhang X, and Svenningsson P
- Subjects
- Animals, Antiparkinson Agents pharmacology, Antiparkinson Agents therapeutic use, Behavior, Animal drug effects, Behavior, Animal physiology, Brain Chemistry drug effects, Depression diagnosis, Depression metabolism, Humans, Parkinson Disease drug therapy, Depression etiology, Disease Models, Animal, Parkinson Disease complications
- Abstract
The diagnosis of Parkinson's disease (PD) is solely based on movement disorders, but several non-motor deficits are common in PD. Depression often precedes the movement dysfunctions and continues to be a major concern during all stages of the disease. The pathophysiology of parkinsonian depression is largely unknown, but appears to partly differ from depression in patients without PD. Because of the increased awareness of the negative impact of depression on the quality of life of PD patients, there is a growing interest in developing animal models of parkinsonism that also recapitulate the depressive-like symptomatology. This review introduces paradigms for measurement of depression-like behaviors in rodents and summarizes data on behavioral, neurochemical and pharmacological changes in experimental PD models with relevance for depression-related states.
- Published
- 2012
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22. Neuroprotective and anti-inflammatory effects of the adenosine A(2A) receptor antagonist ST1535 in a MPTP mouse model of Parkinson's disease.
- Author
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Frau L, Borsini F, Wardas J, Khairnar AS, Schintu N, and Morelli M
- Subjects
- Adenine therapeutic use, Animals, Brain metabolism, Brain pathology, Immunohistochemistry, Male, Mice, Mice, Inbred C57BL, Microglia drug effects, Nerve Degeneration drug therapy, Nerve Degeneration pathology, Parkinsonian Disorders metabolism, Parkinsonian Disorders pathology, Adenine analogs & derivatives, Adenosine A2 Receptor Antagonists therapeutic use, Anti-Inflammatory Agents therapeutic use, Brain drug effects, Neuroprotective Agents therapeutic use, Parkinsonian Disorders drug therapy, Triazoles therapeutic use
- Abstract
Adenosine A(2A) receptor antagonists are one of the most attractive classes of drug for the treatment of Parkinson's disease (PD) as they are effective in counteracting motor dysfunctions and display neuroprotective and anti-inflammatory effects in animal models of PD. In this study, we evaluated the neuroprotective and anti-inflammatory properties of the adenosine A(2A) receptor antagonist ST1535 in a subchronic 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) mouse model of PD. C57BL/6J mice were repeatedly administered with vehicle, MPTP (20 mg/kg), or MPTP + ST1535 (2 mg/kg). Mice were sacrificed three days after the last administration of MPTP. Immunohistochemistry for tyrosine hydroxylase (TH) and cresyl violet staining were employed to evaluate dopaminergic neuron degeneration in the substantia nigra pars compacta (SNc) and caudate-putamen (CPu). CD11b and glial fibrillary acidic protein (GFAP) immunoreactivity were, respectively, evaluated as markers of microglial and astroglial response in the SNc and CPu. Stereological analysis for TH revealed a 32% loss of dopaminergic neurons in the SNc after repeated MPTP administration, which was completely prevented by ST1535 coadministration. Similarly, CPu decrease in TH (25%) was prevented by ST1535. MPTP treatment induced an intense gliosis in both the SNc and CPu. ST1535 totally prevented CD11b immunoreactivity in both analyzed areas, but only partially blocked GFAP increase in the SNc and CPu. A(2A) receptor antagonism is a new opportunity for improving symptomatic PD treatment. With its neuroprotective effect on dopaminergic neuron toxicity induced by MPTP and its antagonism on glial activation, ST1535 represents a new prospect for a disease-modifying drug., (2010 Wiley-Liss, Inc.)
- Published
- 2011
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23. Caffeine enhances astroglia and microglia reactivity induced by 3,4-methylenedioxymethamphetamine ('ecstasy') in mouse brain.
- Author
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Khairnar A, Plumitallo A, Frau L, Schintu N, and Morelli M
- Subjects
- Animals, CD11b Antigen metabolism, Drug Interactions, Gene Expression Regulation drug effects, Glial Fibrillary Acidic Protein metabolism, Male, Mice, Mice, Inbred C57BL, Astrocytes drug effects, Brain cytology, Brain drug effects, Caffeine pharmacology, Microglia drug effects, N-Methyl-3,4-methylenedioxyamphetamine toxicity, Phosphodiesterase Inhibitors pharmacology
- Abstract
Several reports suggest that 3,4-methylenedioxymethamphetamine (MDMA) induces neurotoxic effects and gliosis. Since recreational use of MDMA is often associated with caffeinated beverages, we investigated whether caffeine interferes with MDMA-induced astroglia and microglia activation, thus facilitating its neurotoxicity. MDMA (4 x 20 mg/kg) was acutely administered to mice alone or in combination with caffeine (10 mg/kg). CD11b and GFAP immunoreactivity were evaluated as markers of microglia and astroglia activation in the substantia nigra pars-compacta (SNc) and striatum. MDMA was associated with significantly higher CD11b and GFAP immunoreactivity in striatum, whereas only CD11b was significantly higher than vehicle in SNc. Caffeine potentiated the increase in CD11b and GFAP in the striatum but not in the SNc of MDMA-treated mice. The abuse of MDMA is a growing worldwide problem; the results of this study suggest that combination of MDMA plus caffeine by increasing glial activation might have harmful health consequences.
- Published
- 2010
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24. A new ethyladenine antagonist of adenosine A(2A) receptors: behavioral and biochemical characterization as an antiparkinsonian drug.
- Author
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Pinna A, Tronci E, Schintu N, Simola N, Volpini R, Pontis S, Cristalli G, and Morelli M
- Subjects
- 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine adverse effects, Adenine pharmacology, Adenine therapeutic use, Animals, Autoradiography methods, Brain Chemistry physiology, CD11b Antigen metabolism, Corpus Striatum drug effects, Corpus Striatum pathology, Disease Models, Animal, Dose-Response Relationship, Drug, Early Growth Response Protein 1 genetics, Early Growth Response Protein 1 metabolism, Gene Expression Regulation drug effects, Jaw physiopathology, Levodopa pharmacology, Levodopa therapeutic use, Male, Mice, Mice, Inbred C57BL, Motor Activity drug effects, Movement drug effects, Nerve Degeneration drug therapy, Nerve Degeneration etiology, Nerve Degeneration pathology, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neuroprotective Agents pharmacology, Neuroprotective Agents therapeutic use, Oxidopamine toxicity, Psychomotor Performance drug effects, Pyrimidines pharmacology, Pyrimidines therapeutic use, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Rotarod Performance Test methods, Time Factors, Triazoles pharmacology, Triazoles therapeutic use, Vibrissae innervation, Vibrissae physiology, Adenine analogs & derivatives, Antiparkinson Agents pharmacology, Antiparkinson Agents therapeutic use, Behavior, Animal drug effects, Brain Chemistry drug effects, Parkinson Disease drug therapy, Parkinson Disease etiology, Parkinson Disease metabolism, Parkinson Disease physiopathology
- Abstract
Adenosine A(2A) receptor antagonists have emerged as an attractive non-dopaminergic target in clinical trials aimed at evaluating improvement in motor deficits in Parkinson's disease (PD). Moreover, preclinical studies suggest that A(2A) receptor antagonists may slow the course of the underlying neurodegeneration of dopaminergic neurons. In this study, we evaluated the efficacy of the new adenosine A(2A) receptor antagonist 8-ethoxy-9-ethyladenine (ANR 94) in parkinsonian models of akinesia and tremor. In addition, induction of the immediate early gene zif-268, and neuroprotective and anti-inflammatory effects of ANR 94 were evaluated. ANR 94 was effective in reversing parkinsonian tremor induced by the administration of tacrine. ANR 94 also counteracted akinesia (stepping test) and sensorimotor deficits (vibrissae-elicited forelimb-placing test), as well as potentiating l-dopa-induced contralateral turning behavior in 6-hydroxydopamine (6-OHDA) lesion model of PD. Potentiation of motor behavior in 6-OHDA-lesioned rats was not associated with increased induction of the immediate early gene zif-268 in the striatum, suggesting that ANR 94 does not induce long-term plastic changes in this structure. Finally, in a subchronic 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) mouse model of PD, ANR 94 protected nigrostriatal dopaminergic neurons from degeneration and counteracted neuroinflammatory processes by contrasting astroglial (glial fibrillary acidic protein, GFAP) and microglial (CD11b) activation. A(2A) receptor antagonism represents a uniquely realistic opportunity for improving PD treatment, since A(2A) receptor antagonists offer substantial symptomatic benefits and possibly disease-modifying activity. The characterization of ANR 94 may represent a further therapeutic opportunity for the treatment of PD with this new class of drugs., (Copyright 2009 Elsevier Ltd. All rights reserved.)
- Published
- 2010
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25. Inactivation of neuronal forebrain A receptors protects dopaminergic neurons in a mouse model of Parkinson's disease.
- Author
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Carta AR, Kachroo A, Schintu N, Xu K, Schwarzschild MA, Wardas J, and Morelli M
- Subjects
- Adenosine A2 Receptor Antagonists, Animals, CD11b Antigen metabolism, Corpus Striatum pathology, Disease Models, Animal, Glial Fibrillary Acidic Protein, MPTP Poisoning chemically induced, MPTP Poisoning drug therapy, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Nerve Tissue Proteins metabolism, Neuroglia metabolism, Neuroglia pathology, Neurons drug effects, Neuroprotective Agents pharmacology, Neuroprotective Agents therapeutic use, Pyrimidines pharmacology, Pyrimidines therapeutic use, Receptors, Adenosine A2 deficiency, Substantia Nigra pathology, Triazoles pharmacology, Triazoles therapeutic use, Tyrosine 3-Monooxygenase metabolism, Dopamine metabolism, MPTP Poisoning pathology, Neurons metabolism, Prosencephalon pathology, Receptors, Adenosine A2 metabolism
- Abstract
Adenosine A(2A) receptors antagonists produce neuroprotective effects in animal models of Parkinson's disease (PD). As neuroinflammation is involved in PD pathogenesis, both neuronal and glial A(2A) receptors might participate to neuroprotection. We employed complementary pharmacologic and genetic approaches to A(2A) receptor inactivation, in a multiple MPTP mouse model of PD, to investigate the cellular basis of neuroprotection by A(2A) antagonism. MPTP.HCl (20 mg/kg daily for 4 days) was administered in mice treated with the A(2A) antagonist SCH58261, or in conditional knockout mice lacking A(2A) receptors on forebrain neurons (fbnA(2A)KO mice). MPTP-induced partial loss of dopamine neurons in substantia nigra pars compacta (SNc) and striatum (Str), associated with increased astroglial and microglial immunoreactivity in these areas. Astroglia was similarly activated 1, 3, and 7 days after MPTP administration, whereas maximal microglial reactivity was detected on day 1, returning to baseline 7 days after MPTP administration. SCH58261 attenuated dopamine cell loss and gliosis in SNc and Str. Selective depletion of A(2A) receptors in fbnA(2A)KO mice completely prevented MPTP-induced dopamine neuron degeneration and gliosis in SNc, and partially counteracted gliosis in Str. Results provide evidence of a primary role played by neuronal A(2A) receptors in neuroprotective effects of A(2A) antagonists in a multiple MPTP injections model of PD. With the symptomatic antiparkinsonian potential of several A(2A) receptor antagonists being pursued in clinical trials, this study adds to the rationale for broader clinical benefit and use of these drugs early in the treatment of PD.
- Published
- 2009
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26. Progressive dopaminergic degeneration in the chronic MPTPp mouse model of Parkinson's disease.
- Author
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Schintu N, Frau L, Ibba M, Garau A, Carboni E, and Carta AR
- Subjects
- Analysis of Variance, Animals, Brain drug effects, Brain metabolism, Brain pathology, CD11b Antigen metabolism, Cell Count, Chromatography, High Pressure Liquid methods, Disease Models, Animal, Disease Progression, Electrochemistry methods, Enkephalins genetics, Enkephalins metabolism, Gene Expression Regulation drug effects, Glial Fibrillary Acidic Protein metabolism, Locomotion drug effects, Locomotion physiology, Male, Mice, Mice, Inbred C57BL, Microglia drug effects, Microglia metabolism, Olfactory Bulb physiopathology, Time Factors, Tyrosine 3-Monooxygenase metabolism, Dopamine metabolism, Nerve Degeneration etiology, Parkinsonian Disorders complications, Parkinsonian Disorders pathology
- Abstract
Parkinson's disease (PD) is characterized by a progressive degeneration of dopamine (DA) neurons and gradual worsening of motor symptoms. The investigation of progressive degenerative mechanisms and potential neuroprotective strategies relies on experimental models of the chronic neuropathology observed in human. The present study investigated the progressive nature of neurodegeneration in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid (MPTPp) chronic mouse model of PD. MPTP (25 mg/kg) plus probenecid (250 mg/kg) were administered twice a week for 5 weeks. We evaluated behavioral deficits (olfactory and motor impairment), neurodegeneration (loss of tyrosine hydroxylase (TH)-positive cells in the substantia nigra pars compacta, SNc), biochemical markers of functional impairment in the caudate-putamen (CPu) (striatal enkephalin mRNA, DA and DOPAC levels), and glial reactivity (CD11b and GFAP immunoreactivity in the SNc and CPu) at progressive time-points (after 1, 3, 7, and 10 administrations of MPTPp). Olfactory dysfunction already appeared after the 1st MPTPp injection, whereas motor dysfunction appeared after the 3rd and worsened upon subsequent administrations. Moreover, starting after three MPTPp injections, we observed a gradual decline of TH-positive cells in the SNc, and a gradual raise of enkephalin mRNA in the CPu. Striatal DA levels reduction was not different among all time-points evaluated, whereas DOPAC levels were similarly reduced after 1-7 MPTP injections, but were further decreased after the 10th injection. Reactive microglia and astroglia were observed in both the SNc and CPu from the 1st MPTPp administration. In the SNc, gliosis displayed a gradual increase over the treatment. After 2 months, TH, DA, DOPAC, and reactive glia in the SNc were still altered in MPTPp-treated mice as compared to controls. By showing a progressive development of behavioral deficits and nigral neurodegeneration, together with impairment of biochemical parameters and gradual increase of glial response, results suggest that the chronic MPTPp protocol is a model of progressive PD, which may be suitable to investigate chronic pathological processes and neuroprotective strategies in PD.
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- 2009
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27. PPAR-gamma-mediated neuroprotection in a chronic mouse model of Parkinson's disease.
- Author
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Schintu N, Frau L, Ibba M, Caboni P, Garau A, Carboni E, and Carta AR
- Subjects
- 3,4-Dihydroxyphenylacetic Acid metabolism, Animals, CD11b Antigen metabolism, Catalepsy, Chromatography, High Pressure Liquid methods, Chronic Disease, Disease Models, Animal, Dopamine metabolism, Drug Interactions, Dynorphins genetics, Dynorphins metabolism, Gene Expression Regulation drug effects, Glial Fibrillary Acidic Protein metabolism, Globus Pallidus drug effects, Globus Pallidus metabolism, Locomotion drug effects, MPTP Poisoning chemically induced, MPTP Poisoning pathology, Male, Mice, Mice, Inbred C57BL, Motor Activity drug effects, PPAR gamma metabolism, Psychomotor Performance drug effects, RNA, Messenger metabolism, Rosiglitazone, Smell drug effects, Tandem Mass Spectrometry methods, Tyrosine 3-Monooxygenase metabolism, MPTP Poisoning metabolism, MPTP Poisoning prevention & control, PPAR gamma agonists, Thiazolidinediones therapeutic use
- Abstract
Rosiglitazone is a commonly prescribed insulin-sensitizing drug with a selective agonistic activity on the peroxisome proliferator-activated receptor-gamma (PPAR-gamma). PPAR-gamma can modulate inflammatory responses in the brain, and agonists might be beneficial in neurodegenerative diseases. In the present study we used a chronic 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine plus probenecid (MPTPp) mouse model of progressive Parkinson's disease (PD) to assess the therapeutic efficacy of rosiglitazone on behavioural impairment, neurodegeneration and inflammation. Mice chronically treated with MPTPp displayed typical features of PD, including impairment of motor and olfactory functions associated with partial loss of tyrosine hydroxylase (TH)-positive neurons in the substantia nigra pars compacta (SNc), decrease of dopamine (DA) and 3,4-dihydroxyphenylacetic acid (DOPAC) content and dynorphin (Dyn) mRNA levels in the caudate-putamen (CPu), intense microglial and astroglial response in the SNc and CPu. Chronic rosiglitazone, administered in association with MPTPp, completely prevented motor and olfactory dysfunctions and loss of TH-positive cells in the SNc. In the CPu, loss of striatal DA was partially prevented, whereas decreases in DOPAC content and Dyn were fully counteracted. Moreover, rosiglitazone completely inhibited microglia reactivity in SNc and CPu, as measured by CD11b immunostaining, and partially inhibited astroglial response assessed by glial fibrillary acidic protein immunoreactivity. Measurement of striatal MPP+ levels 2, 4, 6 h and 3 days after chronic treatment indicated that MPTP metabolism was not altered by rosiglitazone. The results support the use of PPAR-gamma agonists as a putative anti-inflammatory therapy aimed at arresting PD progression, and suggest that assessment in PD clinical trials is warranted.
- Published
- 2009
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28. Assessment of symptomatic and neuroprotective efficacy of Mucuna pruriens seed extract in rodent model of Parkinson's disease.
- Author
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Kasture S, Pontis S, Pinna A, Schintu N, Spina L, Longoni R, Simola N, Ballero M, and Morelli M
- Subjects
- 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine adverse effects, Analysis of Variance, Animals, Antiparkinson Agents pharmacology, Antiparkinson Agents therapeutic use, CD11b Antigen metabolism, Conditioning, Operant drug effects, Disease Models, Animal, Dose-Response Relationship, Drug, Glial Fibrillary Acidic Protein metabolism, Jaw physiopathology, Levodopa therapeutic use, Locomotion drug effects, Locomotion physiology, Male, Mice, Mice, Inbred C57BL, Movement drug effects, Neuroprotective Agents therapeutic use, Oxidopamine toxicity, Parasympathomimetics adverse effects, Parkinson Disease etiology, Rats, Rats, Sprague-Dawley, Seeds chemistry, Sympatholytics toxicity, Tacrine adverse effects, Time Factors, Vibrissae physiology, Mucuna chemistry, Neuroprotective Agents pharmacology, Parkinson Disease physiopathology, Parkinson Disease prevention & control, Phytotherapy methods
- Abstract
Mucuna pruriens (MP) has long been used in Indian traditional medicine as support in the treatment of Parkinson's disease. However, no systematic preclinical studies that aimed at evaluating the efficacy of this substance are available to date. This study undertook an extensive evaluation of the antiparkinsonian effects of an extract of MP seeds known to contain, among other components, 12.5% L: -dihydroxyphenylalanine (L: -DOPA), as compared to equivalent doses of L: -DOPA. Moreover, the neuroprotective efficacy of MP and its potential rewarding effects were evaluated. The results obtained reveal how an acute administration of MP extract at a dose of 16 mg/kg (containing 2 mg/kg of L: -DOPA) consistently antagonized the deficit in latency of step initiation and adjusting step induced by a unilateral 6-hydroxydopamine lesion, whereas L: -DOPA was equally effective only at the doses of 6 mg/kg. At the same dosage, MP significantly improved the placement of the forelimb in vibrissae-evoked forelimb placing, suggesting a significant antagonistic activity on both motor and sensory-motor deficits. The effects of MP extract were moreover investigated by means of the turning behavior test and in the induction of abnormal involuntary movements (AIMs) after either acute or subchronic administration. MP extract acutely induced a significantly higher contralateral turning behavior than L: -DOPA (6 mg/kg) when administered at a dose of 48 mg/kg containing 6 mg/kg of L: -DOPA. On subchronic administration, both MP extract (48 mg/kg) and L: -DOPA (6 mg/kg) induced sensitization of contralateral turning behavior; however, L: -DOPA alone induced a concomitant sensitization in AIMs suggesting that the dyskinetic potential of MP is lower than that of L: -DOPA. MP (48 mg/kg) was also effective in antagonizing tremulous jaw movements induced by tacrine, a validated test reproducing parkinsonian tremor. Furthermore, MP induced no compartment preference in the place preference test, indicating the lack of components characterized by rewarding effects in the extract. Finally, in a subchronic mice model of 1-methyl-4-phenyl-1,2,3,6 tetrahydropyridine hydrochloride (MPTP)-induced dopamine neuron degeneration, MP extract did not prove capable of preventing either tyrosine hydroxylase decrease induced by MPTP or astroglial or microglial activation as assessed by means of GFAP and CD11b immunohistochemistry, supporting the absence of neuroprotective effects by MP. Characterization MP extract strongly supports its antiparkinsonian activity.
- Published
- 2009
- Full Text
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29. Behavioral and biochemical correlates of the dyskinetic potential of dopaminergic agonists in the 6-OHDA lesioned rat.
- Author
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Carta AR, Frau L, Pinna A, Pontis S, Simola N, Schintu N, and Morelli M
- Subjects
- 2,3,4,5-Tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine pharmacology, Animals, Antiparkinson Agents therapeutic use, Corpus Striatum metabolism, Corpus Striatum physiopathology, Dopamine Agonists therapeutic use, Dynorphins metabolism, Dyskinesia, Drug-Induced metabolism, Enkephalins metabolism, Glutamate Decarboxylase drug effects, Glutamate Decarboxylase metabolism, Indoles pharmacology, Male, Motor Activity drug effects, Motor Activity physiology, Neural Pathways drug effects, Neural Pathways metabolism, Neural Pathways physiopathology, Opioid Peptides genetics, Oxidopamine, Parkinsonian Disorders chemically induced, Parkinsonian Disorders physiopathology, RNA, Messenger drug effects, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Receptors, Dopamine drug effects, Receptors, Dopamine metabolism, Receptors, Dopamine D1 agonists, Receptors, Dopamine D1 metabolism, Receptors, Dopamine D2 agonists, Receptors, Dopamine D2 metabolism, gamma-Aminobutyric Acid biosynthesis, Antiparkinson Agents pharmacology, Corpus Striatum drug effects, Dopamine metabolism, Dopamine Agonists pharmacology, Dyskinesia, Drug-Induced physiopathology, Parkinsonian Disorders drug therapy
- Abstract
Prolonged treatment with L-DOPA induces highly disabling dyskinesia in Parkinson's disease (PD) patients. In contrast, dopaminergic agonists display variably dyskinetic outcome, depending on pharmacokinetic/pharmacodynamic profile. The present study was aimed at assessing behavioral and biochemical correlates of intense or mild dyskinesia displayed by the different dopamine (DA) receptors stimulation in a rat model of PD. The effect of subchronic stimulation of the D(1) receptor by SKF38393, and the D(2)/D(3) receptor by ropinirole was evaluated in unilaterally 6-hydroxyDA-lesioned rats. Sensitization of contralateral turning (SCT) behavior and abnormal involuntary movements (AIMs) were assessed as behavioral correlates of dyskinetic responses. Opioid peptides mRNA in the dorsolateral striatum (dlStr) and glutamic acid decarboxylase (GAD67) mRNA content in globus pallidus (GP), were evaluated as an index of neuroadaptive changes occurring in the direct and indirect basal ganglia pathways. Subchronic SKF38393 caused AIMs and SCT whereas ropinirole elicited SCT only, indicating that both drugs induced some dyskinetic response, albeit of different type. Peptides mRNA evaluation in dlStr, showed that SKF38393 subchronic treatment was associated to an overexpression of both dynorphin (DYN) and enkephalin (ENK) mRNAs, in the direct and indirect striatal pathway respectively. In contrast, a decrease in DYN mRNA levels only was observed after treatment with ropinirole. Analysis of GAD67 mRNA levels in the GP showed an increase after both D(1) and D(2)/D(3) agonist treatments. Results suggest that presence of SCT alone or SCT plus AIMs might represent correlates of the differential severity of dyskinetic movements induced by treatment with low (ropinirole) or high (SKF38393) dyskinetic potential. Neuroadaptive increases in opioid peptide expression in both direct and indirect striatal pathways were associated to the appearance of AIMs alone. In contrast, increase of GAD67 mRNA in the GP was associated to both behavioral responses (SCT and AIMs), suggesting that neuroadaptive changes in this area were unrelated to the difference in dyskinetic potential of drugs.
- Published
- 2008
- Full Text
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30. Characterization of the antiparkinsonian effects of the new adenosine A2A receptor antagonist ST1535: acute and subchronic studies in rats.
- Author
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Tronci E, Simola N, Borsini F, Schintu N, Frau L, Carminati P, and Morelli M
- Subjects
- Adenine pharmacology, Adrenergic Agents, Animals, Behavior, Animal drug effects, Corpus Striatum metabolism, Dynorphins genetics, Enkephalins genetics, Glutamate Decarboxylase genetics, Isoenzymes genetics, Levodopa pharmacology, Male, Oxidopamine, Parkinson Disease, Secondary chemically induced, Parkinson Disease, Secondary physiopathology, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Tacrine, Tremor chemically induced, Tremor drug therapy, Adenine analogs & derivatives, Adenosine A2 Receptor Antagonists, Antiparkinson Agents pharmacology, Parkinson Disease, Secondary drug therapy, Triazoles pharmacology
- Abstract
Antagonism of adenosine A2A receptor function has been proposed as an effective therapy in the treatment of Parkinson's disease. Thus, the study of new adenosine receptor antagonists is of great importance for the potential use of these drugs in clinical practice. The present study evaluated effects of the new preferential adenosine A2A receptor antagonist 2-butyl-9-methyl-8-(2H-1,2,3-triazol-2-yl)-9H-purin-6-ylamine (ST1535) in unilaterally 6-hydroxydopamine lesioned rats. Acute ST1535 dose-dependently potentiated contralateral turning behaviour induced by a threshold dose of l-3,4-dihydroxyphenylalanine (L-DOPA) (3 mg/kg i.p.), a classical test for antiparkinson drug screening. Subchronic (18 days, twice a day) ST1535 (20 mg/kg i.p.)+L-DOPA (3 mg/kg i.p.) did not induce sensitization to turning behaviour or abnormal involuntary movements during the course of treatment, indicating a low dyskinetic potential of the drug. Moreover, while subchronic administration of a fully effective dose of L-DOPA (6 mg/kg i.p.) significantly increased GABA synthesizing enzyme glutamic acid decardoxylase (GAD67), dynorphin and enkephalin mRNA levels in the lesioned striatum, subchronic ST1535 (20 mg/kg i.p.)+L-DOPA (3 mg/kg i.p.) did not modify any of these markers, although it induced a similar number of contralateral rotations at the beginning of treatment. Finally, acute administration of ST1535 (20 mg/kg i.p.) proved capable of reducing jaw tremors in tacrine model of Parkinson's disease tremor. Results showed that ST1535, in association with a low dose of L-DOPA, displayed antiparkinsonian activity similar to that produced by a full dose of L-DOPA without exacerbating abnormal motor side effects. Moreover, in agreement to other well characterized adenosine A2A receptor antagonists, ST1535 features antitremorigenic effects.
- Published
- 2007
- Full Text
- View/download PDF
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