Your search keyword '"drug effects [Corpus Striatum]"' showing total 5 results

1. l-DOPA-induced dyskinesia is associated with a deficient numerical downregulation of striatal tyrosine hydroxylase mRNA-expressing neurons

Author

Wei-Hua Chiu, Thomas Carlsson, Eberhard Weihe, Martin Klietz, Günter U. Höglinger, Candan Depboylu, Ursula Keber, and Martin K.-H. Schäfer

Subjects

Male, 0301 basic medicine, Dyskinesia, Drug-Induced, drug effects [Corpus Striatum], metabolism [Enkephalins], adverse effects [Levodopa], Striatum, Antiparkinson Agents, Levodopa, chemistry.chemical_compound, 0302 clinical medicine, pathology [Neurons], metabolism [Dyskinesia, Drug-Induced], Medial forebrain bundle, Neurons, Neuronal Plasticity, General Neuroscience, Enkephalins, preproenkephalin, metabolism [Neurons], medicine.symptom, Oxidopamine, medicine.drug, pathology [Corpus Striatum], medicine.medical_specialty, Tyrosine 3-Monooxygenase, Down-Regulation, Nucleus accumbens, Biology, metabolism [RNA, Messenger], 03 medical and health sciences, Dopamine, Internal medicine, adverse effects [Antiparkinson Agents], medicine, Animals, drug effects [Neurons], ddc:610, RNA, Messenger, Protein Precursors, metabolism [Protein Precursors], pathology [Dyskinesia, Drug-Induced], Tyrosine hydroxylase, metabolism [Corpus Striatum], Medial Forebrain Bundle, Corpus Striatum, Abnormal involuntary movement, metabolism [Tyrosine 3-Monooxygenase], Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Endocrinology, chemistry, Dyskinesia, drug effects [Down-Regulation], Neuroscience, proenkephalin, 030217 neurology & neurosurgery

Abstract

l-3,4-Dihydroxyphenylalanine (l-DOPA) is the therapeutic gold standard in Parkinson's disease. However, most patients develop debilitating abnormal involuntary movements termed l-DOPA-induced dyskinesia (LID) as therapy-complicating side effects. The underlying mechanisms of LID pathogenesis are still not fully understood. Recent evidence suggests an involvement of striatal tyrosine hydroxylase (TH) protein-expressing neurons, as they are capable of endogenously producing l-DOPA and possibly dopamine. The aim of this study was to elucidate changes of TH transcription in the striatum and nucleus accumbens that occur under experimental conditions of LID. Mice with a unilateral 6-hydroxydopamine-induced lesion of the medial forebrain bundle were treated daily with l-DOPA for 15days to provoke dyskinesia. In situ hybridization analysis revealed a significant numerical decrease of TH mRNA-positive neurons in the striatum and nucleus accumbens of mice not exhibiting LID, whereas dyskinetic animals failed to show this reduction of TH transcription. Interestingly, similar changes were observed in intact non-deafferentiated striata, demonstrating an l-DOPA-responsive transcriptional TH regulation independently from nigrostriatal lesion severity. Consolidation with our previous study on TH protein level (Keber et al., 2015) impressively highlights that LID is associated with both a deficient downregulation of TH transcription and an excessive translation of TH protein in intrastriatal neurons. As TH protein levels in comparison to mRNA levels showed a stronger correlation with development and severity of LID, antidyskinetic treatment strategies should focus on translational and posttranslational modulations of TH as a promising target.

Published

2016

2. A positron emission tomography study of nigro-striatal dopaminergic mechanisms underlying attention: implications for ADHD and its treatment

Author

Del Campo, Natalia, Fryer, Tim D, Hong, Young T, Smith, Rob, Brichard, Laurent, Acosta-Cabronero, Julio, Chamberlain, Samuel R, Tait, Roger, Izquierdo, David, Regenthal, Ralf, Dowson, Jonathan, Suckling, John, Baron, Jean-Claude, Aigbirhio, Franklin I, Robbins, Trevor W, Sahakian, Barbara J, Müller, Ulrich, Chamberlain, Samuel [0000-0001-7014-8121], Suckling, John [0000-0002-5098-1527], Aigbirhio, Franklin [0000-0001-9453-5257], Robbins, Trevor [0000-0003-0642-5977], Sahakian, Barbara [0000-0001-7352-1745], and Apollo - University of Cambridge Repository

Subjects

Adult, Male, pathology [Corpus Striatum], physiopathology [Mesencephalon], drug effects [Corpus Striatum], physiopathology [Corpus Striatum], administration & dosage [Dopamine Uptake Inhibitors], attention deficit/hyperactivity disorder, methylphenidate, pharmacology [Dopamine Uptake Inhibitors], drug effects [Mesencephalon], Multimodal Imaging, Young Adult, methods [Magnetic Resonance Imaging], 18F-fallypride PET, Dopamine Uptake Inhibitors, Double-Blind Method, Fluorodeoxyglucose F18, Mesencephalon, physiopathology [Attention Deficit Disorder with Hyperactivity], Humans, ddc:610, Psychiatric Status Rating Scales, metabolism [Mesencephalon], Cross-Over Studies, instrumentation [Multimodal Imaging], methods [Multimodal Imaging], metabolism [Corpus Striatum], pharmacology [Methylphenidate], methods [Positron-Emission Tomography], Original Articles, pathology [Attention Deficit Disorder with Hyperactivity], instrumentation [Magnetic Resonance Imaging], Magnetic Resonance Imaging, Corpus Striatum, metabolism [Attention Deficit Disorder with Hyperactivity], instrumentation [Positron-Emission Tomography], sustained attention, administration & dosage [Methylphenidate], Attention Deficit Disorder with Hyperactivity, fallypride, Positron-Emission Tomography, Benzamides, Methylphenidate, pathology [Mesencephalon], dopamine, Radiopharmaceuticals, drug therapy [Attention Deficit Disorder with Hyperactivity]

Abstract

Through the combined use of (18)F-fallypride positron emission tomography and magnetic resonance imaging this study examined the neural mechanisms underlying the attentional deficits associated with attention deficit/hyperactivity disorder and their potential reversal with a single therapeutic dose of methylphenidate. Sixteen adult patients with attention deficit/hyperactivity disorder and 16 matched healthy control subjects were positron emission tomography and magnetic resonance imaging scanned and tested on a computerized sustained attention task after oral methylphenidate (0.5 mg/kg) and placebo administration in a within-subject, double-blind, cross-over design. Although patients with attention deficit/hyperactivity disorder as a group showed significant attentional deficits and reduced grey matter volume in fronto-striato-cerebellar and limbic networks, they had equivalent D2/D3 receptor availability and equivalent increases in endogenous dopamine after methylphenidate treatment to that observed in healthy control subjects. However, poor attentional performers drawn from both the attention deficit/hyperactivity disorder and the control groups had significantly reduced left caudate dopamine activity. Methylphenidate significantly increased dopamine levels in all nigro-striatal regions, thereby normalizing dopamine levels in the left caudate in low performers. Behaviourally, methylphenidate improved sustained attention in a baseline performance-dependent manner, irrespective of diagnosis. This finding was accompanied by an equally performance-dependent effect of the drug on dopamine release in the midbrain, whereby low performers showed reduced dopamine release in this region. Collectively, these findings support a dimensional model of attentional deficits and underlying nigro-striatal dopaminergic mechanisms of attention deficit/hyperactivity disorder that extends into the healthy population. Moreover, they confer midbrain dopamine autoreceptors a hitherto neglected role in the therapeutic effects of oral methylphenidate in attention deficit/hyperactivity disorder. The absence of significant case-control differences in D2/D3 receptor availability (despite the observed relationships between dopamine activity and attention) suggests that dopamine dysregulation per se is unlikely to be the primary cause underlying attention deficit/hyperactivity disorder pathology in adults. This conclusion is reinforced by evidence of neuroanatomical changes in the same set of patients with attention deficit/hyperactivity disorder.

Published

2013

3. 6-Hydroxydopamine leads to T2 hyperintensity, decreased claudin-3 immunoreactivity and altered aquaporin 4 expression in the striatum

Author

Adriane Gröger, Eva Küppers, Britta Wachter, Bernd J. Pichler, Andreas von Ameln-Mayerhofer, Rüdiger Sadler, Sonja Schürger, Hans-Joachim Wagner, Anna Speidel, Andreas Schmid, Jens Rolinger, and Daniela Berg

Subjects

Male, blood supply [Corpus Striatum], Pathology, drug effects [Corpus Striatum], pharmacology [Oxidopamine], Striatum, Rats, Sprague-Dawley, Behavioral Neuroscience, Catecholamines, drug effects [Cerebrovascular Circulation], pathology [Brain], Image Processing, Computer-Assisted, Claudin-3, Neurotoxin, Gliosis, Perivascular space, pharmacology [Sympatholytics], Chemistry, Brain, pathology [Gliosis], Immunohistochemistry, Magnetic Resonance Imaging, metabolism [Catecholamines], chemically induced [Gliosis], metabolism [Claudins], medicine.anatomical_structure, Aquaporin 4, drug effects [Space Perception], Blood-Brain Barrier, Cerebrovascular Circulation, drug effects [Psychomotor Performance], medicine.medical_specialty, animal structures, Microinjections, drug effects [Blood-Brain Barrier], Blotting, Western, drug effects [Brain Chemistry], Motor Activity, Real-Time Polymerase Chain Reaction, Blood–brain barrier, genetics [RNA, Messenger], medicine, Animals, ddc:610, RNA, Messenger, Oxidopamine, Brain Chemistry, Hydroxydopamine, metabolism [Aquaporin 4], biosynthesis [RNA, Messenger], metabolism [Corpus Striatum], drug effects [Motor Activity], Corpus Striatum, Hyperintensity, Rats, Cldn3 protein, rat, nervous system, Space Perception, Claudins, Sympatholytics, Catecholaminergic cell groups, Neuroscience, Psychomotor Performance

Abstract

The neurotoxin 6-hydroxydopamine (6-OHDA) is frequently used in animal models to mimic Parkinson's disease. Imaging studies describe hyperintense signalling in regions close to the site of the 6-OHDA injection in T2-weighted (T2w) magnetic resonance imaging (MRI). The nature of this hyperintense signal remains elusive and still is matter of discussion. Here we demonstrate hyperintense signalling in T2w MRI and decreased apparent diffusion coefficient (ADC) values following intraventricular injection of 6-OHDA. Moreover, we show decreased GFAP immunoreactivity in brain regions corresponding to the region revealing the hyperintense signalling, probably indicating a loss of astrocytes due to a toxic effect of 6-OHDA. In the striatum, where no hyperintense signalling in MRI was observed following intraventricular 6-OHDA injection, immunohistochemical and molecular analyses revealed an altered expression of the water channel aquaporin 4 and the emergence of vasogenic edema, indicated by an increased perivascular space. Moreover, a significant decrease of claudin-3 immunoreactivity was observed, implying alterations in the blood brain barrier. These findings indicate that intraventricular injection of 6-OHDA results (1) in effects close to the ventricles that can be detected as hyperintense signalling in T2w MRI accompanied by reduced ADC values and (2) in effects on brain regions not adjacent to the ventricles, where a disturbance of water homeostasis occurs. We clearly demonstrate that 6-OHDA leads to brain edema that in turn may affect the overall results of experiments (e.g. behavioral alterations). Therefore, when using 6-OHDA in Parkinson's models effects that are not mediated by degeneration of catecholaminergic neurons have to be considered.

Published

2012

4. Oxytocin enhances attractiveness of unfamiliar female faces independent of the dopamine reward system

Author

Markus Lang, René Hurlemann, Andreas Bauer, Heinz H. Coenen, Keith M. Kendrick, Benjamin Becker, Yoan Mihov, Andreas Matusch, David Elmenhorst, Nadine Striepens, and Wolfgang Maier

Subjects

Adult, Male, diagnostic imaging [Corpus Striatum], drug effects [Corpus Striatum], Endocrinology, Diabetes and Metabolism, Dopamine, Neuropeptide, Striatum, Oxytocin, Reward system, Endocrinology, Double-Blind Method, Dopamine receptor D2, medicine, Humans, ddc:610, metabolism [Dopamine], Radionuclide Imaging, Biological Psychiatry, Raclopride, Endocrine and Autonomic Systems, metabolism [Corpus Striatum], Corpus Striatum, Psychiatry and Mental health, pharmacology [Oxytocin], Face, Brain stimulation reward, Female, Psychology, pharmacology [Raclopride], Neuroscience, medicine.drug

Abstract

Evidence from animal studies suggests that the social attraction and bonding effects of the neuropeptide oxytocin (OXT) are mediated by its modulation of dopamine (DA) release in brain reward centers, but this has not yet been demonstrated in humans. DA release can be measured by positron emission tomography (PET) using the radioligand [11C]raclopride. Its binding to DA D2 receptors (D2R) is sensitive and reciprocally related to endogenous DA, especially in the striatum. In a randomized double-blind placebo-controlled within-subjects trial on 18 adult male volunteers we combined [11C]raclopride PET and a facial attractiveness rating task to establish whether intranasal OXT (24 IU) increased both the perceived attractiveness of unfamiliar female faces and striatal DA release compared with placebo administration. While our behavioral data confirmed that subjects rated unfamiliar female faces as more attractive following OXT treatment, and this correlated with an increased perfusion rate in the striatum, there was no evidence for altered [11C]raclopride binding in the striatum or pallidum. Instead under OXT we rather observed an increased [11C]raclopride binding and reduced perfusion rate in subregions of the right dorsomedial prefrontal gyrus and superior parietal gyrus. The absence of OXT effects on dopamine release and D2 receptors in brain reward centers, despite increased striatal activity, implies that the peptide may facilitate perceived attraction via non-dopaminergic actions.

Published

2014

5. Effects of dopaminergic treatment on striatal dopamine turnover in de novo Parkinson disease

Author

Heinz Reichmann, B. Herting, Liane Oehme, Martin Wolz, Jörg Kotzerke, Xina Grählert, Uta Schwanebeck, Bettina Beuthien-Baumann, Maria Perick, Alexander Storch, Matthias Löhle, and Jörg van den Hoff

Subjects

Male, drug effects [Corpus Striatum], Dopamine, therapeutic use [Dopamine Agonists], law.invention, Antiparkinson Agents, Levodopa, Randomized controlled trial, law, Medicine, Single-Blind Method, metabolism [Dopamine], Prospective Studies, pharmacology [Levodopa], Prospective cohort study, Aged, 80 and over, Dopaminergic, Parkinson Disease, Middle Aged, pharmacology [Ergolines], pharmacology [Dopamine Agonists], Treatment Outcome, Dopamine Agonists, Female, diagnosis [Parkinson Disease], medicine.drug, Agonist, Adult, medicine.medical_specialty, Cabergoline, medicine.drug_class, Urology, metabolism [Parkinson Disease], therapeutic use [Levodopa], Dopamine receptor D2, Humans, ddc:610, Ergolines, therapeutic use [Antiparkinson Agents], Aged, pharmacology [Antiparkinson Agents], business.industry, metabolism [Corpus Striatum], drug therapy [Parkinson Disease], Corpus Striatum, therapeutic use [Ergolines], Neurology (clinical), business

Abstract

Objective: To evaluate the effects of levodopa and the dopamine D2 agonist cabergoline on striatal dopamine turnover estimated as the inverse of the effective dopamine distribution volume ratio (EDVR) measured by 18 F-dopa PET in de novo Parkinson disease (PD). Methods: Single-center, parallel-group, randomized, observer-blinded study of cabergoline (3 mg/day) and levodopa (300 mg/day) over 12 weeks in patients with de novo PD. Primary efficacy measure was the change of the side-to-side averaged putaminal EDVR comparing baseline and end-of-maintenance period. Results: Thirty-five out of 39 randomized patients were assigned to the primary efficacy analysis (cabergoline, n = 17; levodopa, n = 18). At the end of treatment period, mean EDVRs were significantly lower compared to baseline solely in the levodopa group (relative change −1.0 ± 13.0% in cabergoline [ p = 0.525 when compared to baseline], −8.3 ± 11.8% in levodopa group [ p = 0.006]) with a nonsignificant trend between groups (mean relative difference: 7.3% (95% confidence interval −1.2% to 15.8%; p = 0.091). There was significant clinical improvement in both groups at 12 weeks compared to baseline, but no significant differences between groups in clinical and PET secondary outcome measures. Both pharmacologic treatments and PET scanning were well-tolerated and safe. Conclusion: Putaminal dopamine turnover is increased by levodopa treatment in de novo PD. The nonsignificant trend toward a larger influence by levodopa compared to cabergoline is supported by ancillary statistical analyses. This augmentation of early compensatory events by levodopa might contribute not only to its symptomatic effects, but also to its induction of motor complications.

Published

2013