Adenosine A2A antagonism reverses levodopa-induced motor alterations in hemiparkinsonian rats

To evaluate the possible involvement of adenosine A(2A) receptor-mediated mechanisms in levodopa-induced motor fluctuations, we investigated the effects of CSC (8-(3-chlorostryryl) caffeine), a selective adenosine A(2A) receptor antagonist, on levodopa-induced motor alterations in rats with unilateral 6-OHDA lesion. Acute and chronic administration of CSC was studied to evaluate the possible reversion or prevention of these levodopa effects. In a first set of experiments, rats were treated with levodopa (25 mg/kg with benserazide, twice daily, i.p.) for 22 days and on day 23 CSC (5 mg/kg, i.p.) was administered immediately before levodopa. In a second set of experiments, rats were treated daily for 22 days with levodopa and CSC (5 mg/kg/day, i.p.). The duration of the rotational behavior induced by chronic levodopa decreased after 22 days (P < 0.05). Acute administration of CSC on day 23 reversed levodopa-induced shortening in motor response duration (P < 0.01). Chronic CSC administration did not prevent the shortening in response duration induced by levodopa. Our results demonstrate that the adenosine A(2A) receptor antagonist CSC reverses but does not prevent levodopa-induced motor alterations in parkinsonian rats. These results suggest a role for adenosine A(2A) receptor-mediated mechanisms in the pathophysiology of levodopa-induced motor response complications. These findings suggest that the antagonism of adenosine A(2A) receptors might confer clinical benefit to parkinsonian patients under levodopa therapy suffering from motor complication syndrome.     

LY293558, an AMPA glutamate receptor antagonist, prevents and reverses levodopa-induced motor alterations in Parkinsonian rats.

To evaluate the possible involvement of glutamate AMPA receptor-mediated mechanisms in levodopa-induced motor fluctuations, we investigated the effects of LY293558, a competitive AMPA receptor antagonist, on levodopa-induced motor alterations in rats with unilateral 6-OHDA lesion. Acute and chronic administration of LY293558 was studied to evaluate the possible reversion or prevention of these levodopa effects. In the first set of experiments, rats were treated with levodopa (25 mg/kg with benserazide, twice daily, i.p.) for 22 days and on day 23 LY293558 (5 mg/kg, i.p.) was administered immediately before levodopa. In the second set of experiments, rats were treated daily for 22 days with levodopa and LY293558 (5 mg/kg, twice daily, i.p.). In the third set of experiments, the effect of LY293558 (5 mg/kg, i.p.) administration on selective dopamine D-1 (SKF38393, 1.5 mg/kg, s.c.) and D-2 agonist (quinpirole, 0.1 mg/kg, i.p.)-induced rotational behavior after daily levodopa treatment was studied. The duration of the rotational behavior induced by chronic levodopa decreased by 30% after 22 days. Acute administration of LY293558 on day 23 reversed this effect. The group of animals that were chronically treated with levodopa and LY293558 did not show the decrease in this motor response duration. Chronic levodopa treatment attenuated the rotational response to the D-1 agonist SKF38393 and increased the response to the D-2 agonist quinpirole. LY293558 did not reverse the effect of levodopa on rotational behavior induced by the D-1 agonist but significantly reduced the rotational response to the D-2 agonist in levodopa-treated animals by 40%. Our results demonstrate that an AMPA receptor antagonist reverses and prevents levodopa-induced motor alterations in parkinsonian rats and that this effect on motor fluctuations induced by chronic levodopa is probably due to a modulation of the indirect output pathway of the basal ganglia.     

The metabotropic glutamate receptor antagonist 2-methyl-6-(phenylethynyl) pyridine decreases striatal VGlut2 expression in association with an attenuation of L-DOPA-induced dyskinesias

The striatal glutamatergic hyperactivity is considered critical in the development of levodopa-induced dyskinesias (LID) in Parkinson's disease (PD). Pharmacological antagonism of the metabotropic glutamate receptors (mGluRs), in particular, the subtype mGluR5, can inhibit the expression of dyskinesia in both rodent and nonhuman primate models of PD. However, the exact mechanisms underlying the mGluR5 antagonism effects are not completely known. The vesicular glutamate transporters (VGluts) are localized in the synaptic vesicles of the striatal glutamatergic axonal terminals. The effects of mGluR5 antagonism modulating VGlut1 and VGlut2, as selective markers for the corticostriatal and thalamostriatal pathways, respectively, are still unknown. We investigated the effects of the mGluR5 antagonist, 2-methyl-6-(phenylethynyl) pyridine (MPEP) on the striatal expression of VGlut1 and VGlut2 in levodopa-treated hemiparkinsonian rats. Male Sprague-Dawley rats received a unilateral 6-hydroxydopamine (6-OHDA) administration in the nigrostriatal pathway. Rats were treated with: (a) levodopa (12 mg/kg/day with benserazide 15 mg/kg, ip) + vehicle; (b) MPEP (1.5 mg/kg/day, ip) + vehicle; (c) levodopa + MPEP, or (d) saline for 10 days. Levodopa treatment induced dyskinesias and did not modify the striatal expression of either VGlut1 or VGlut2. The administration of MPEP significantly attenuated LID and decreased the levels of VGlut2, but not the VGlut1, in the striatum ipsilateral to the lesion (P < 0.05). Our results suggest that the effects of MPEP on LID might be mediated by a modulating effect on VGlut 2 expression.     

Bilateral subthalamic nucleus lesion reverses L-dopa-induced motor fluctuations and facilitates dyskinetic movements in hemiparkinsonian rats

Glutamatergic overactivity might be involved in L-dopa-induced motor complications since glutamate antagonists reverse and prevent L-dopa-induced shortening in motor response duration in 6-hydroxydopamine-lesioned (6-OHDA) rats and improve L-dopa-induced dyskinesias in parkinsonian monkeys and in patients with Parkinson's disease (PD). An increase in the subthalamic nucleus (STN) glutamatergic activity is believed to contribute to the pathophysiology of PD. However, the role of STN activity in L-dopa-induced motor complications is not so clear. In this study, the effect of STN lesions on L-dopa-induced motor response complications was investigated in rats with a nigrostriatal pathway lesion induced by 6-OHDA. Animals were injected with 6-OHDA in the medial forebrain bundle and treated with L-dopa or saline for 22 days. On day 16, animals were randomly distributed in groups that underwent surgery in the STN ipsilateral or contralateral to 6-OHDA lesion, or bilateral. Rotational behavior was measured on days 1, 15, and 22. Attenuation of STN activity by contralateral and bilateral, but not ipsilateral, STN lesion reversed the shortening in motor response duration induced by L-dopa. L-dopa administration, but not saline, induced prominent dyskinesias in 6-OHDA-lesioned rats with additional bilateral STN lesions. The results indicate that bilateral lesions of STN potentiate the duration of L-dopa-induced motor response and facilitate chronic L-dopa-induced abnormal involuntary movements in 6-OHDA-lesioned rats. The characteristics of the abnormal involuntary movements observed in these animals are similar to L-dopa-induced dyskinesias in parkinsonian patients and might be useful as an experimental model for the study of L-dopa-induced dyskinesia.     

Characterisation of striatal NMDA receptors involved in the generation of parkinsonian symptoms: intrastriatal microinjection studies in the 6-OHDA-lesioned rat.

Treatments for Parkinson's disease based on replacement of lost dopamine have several problems. Following loss of dopamine, enhanced N-methyl-D-aspartate (NMDA) receptor-mediated transmission in the striatum is thought to be part of the cascade of events leading to the generation of parkinsonian symptoms. We determined the localisation and pharmacological characteristics of NMDA receptors that play a role in generating parkinsonian symptoms within the striatum. Rats were lesioned unilaterally with 6-hydroxydopamine (6-OHDA), and cannulae implanted bilaterally to allow injection of a range of NMDA receptor antagonists at different striatal sites. When injected rostrally into the dopamine-depleted striatum, the glycine site partial agonist, (+)-HA-966 (44-400 nmol) caused a dose-dependent contraversive rotational response consistent with an antiparkinsonian action. (+)-HA-966 (400 nmol) had no effect when infused into more caudal regions of the dopamine-depleted striatum, or following injection into any striatal region on the dopamine-intact side. To determine the pharmacological profile of NMDA receptors involved in inducing parkinsonism in 6-OHDA-lesioned rats, a range of NMDA receptor antagonists was infused directly into the rostral striatum. Ifenprodil (100 nmol) and 7-chlorokynurenate (37 nmol), but not MK-801 (15 nmol) or D-APV (25 nmol) elicited a dramatic rotational response when injected into the dopamine-depleted striatum. This pharmacological profile is not consistent with an effect mediated via blocking NR2B-containing NMDA receptors. The effect of intrastriatal injection of ifenprodil was increased in animals previously treated with levodopa (L-dopa) methyl ester. This was seen as an increase in on-time and in peak rotational response. We propose that stimulation of NR2B-containing NMDA receptors in the rostral striatum underlies the generation of parkinsonian symptoms. These studies are in line with previous findings suggesting that administration of NR2B-selective NMDA receptor antagonists may be therapeutically beneficial for parkinsonian patients, when given de novo and following L-dopa treatment.     

腺苷A2A受体拮抗剂对左旋多巴诱发异动症大鼠行为、纹状体A2A受体和代谢型谷氨酸受体5亚型蛋白表达的影响

目的 评价腺苷A2A受体拮抗剂(CSC)对左旋多巴(L-DOPA)诱发异动症大鼠行为、纹状体A2A受体和代谢型谷氨酸受体5亚型(mGluR5)蛋白表达的影响.方法 6-羟多巴胺(6-OHDA)立体定向损毁大鼠右内侧前脑束,建立单侧损毁帕金森病(PD)大鼠模型.采用随机数字表法将40只成功PD大鼠随机分为4组(每组10只):生理盐水组;L-DOPA 25 mg/kg+苄丝肼6.25 mg/kg组;CSC 2.5 mg/kg组;L-DOPA 25 mg/kg+苄丝肼6.25 mg/kg联合CSC 2.5 mg/kg组.给予大鼠每日2次腹腔注射,持续21 d.在治疗第2、9、11、18、21天观察大鼠行为学变化,Western blot检测纹状体区腺苷A2A受体和mGluR5的蛋白表达水平.结果 L-DOPA联合CSC组PD大鼠损毁对侧前肢跨步数显著增加,与治疗前比较差异有统计学意义,与L-DOPA组相比,前肢功能改善程度不随时间延长而减弱.单独CSC组治疗后对侧前肢跨步数明显增加,与治疗前比较差异有统计学意义,有疗效逐渐增加至稳定趋势.L-DOPA联合CSC组[(11±5)分]部分口颌及肢体异常不自主运动评分较L-DOPA组[(17±4)分]显著减少,差异有统计学意义(t=2.44,P＜0.05).L-DOPA联合CSC治疗逆转了L-DOPA诱导的对侧旋转反应时间缩短和腺苷A2A受体、mGluR5蛋白表达的上调,差异均有统计学意义.结论 腺苷A2A受体与mGluR5均参与了L-DOPA诱发的异动症的发生发展,A2A受体拮抗剂能够改善PD运动症状,增强L-DOPA的抗PD效应且部分减轻异常不自主运动,对L-DOPA诱发的异动症的治疗有着较好的应用前景.

Abstract：

Objective To study the behavioural changes and biological effects of selective adenosine A2A receptor antagonist (CSC) in a rat model of levodopa(L-DOPA) -induced dyskinesia (LID).Methods The hemi-parkinsonian rat model was produced by stereotaxically injecting 6-OHDA to the right medial forebrain bundle. Rats were randomly divided into 4 treatment groups with a random number generating program to receive intraperitoneal injections twice daily for 21 days (n = 10): saline, L-DOPA at 25 mg/kg with benserazide at 6. 25 mg/kg, CSC at 2. 5 mg/kg alone and CSC at 2.5 mg/kg with L-DOPA at 25 mg/kg plus benserazide at 6. 25 mg/kg. Forepaw adjusting steps, abnormal involuntary movements (AIM) and rotational response duration were observed on 2, 9, 11,18 and 21 d. After sacrifice, the expression of adenosine A2A R and mGluR5 was observed by Western blot. Results Co-administration of LDOPA with CSC significantly increased the forelimb adjusting steps of parkinsonian rats during 21 days of treatment when compared to L-DOPA alone. CSC treatment alone increased the forelimb adjusting steps significantly. Co-administration of L-DOPA with CSC ( ( 11 ± 5 ) score) significantly decreased the AIM scores of limb and orolingual muscles when compared to L-DOPA alone (( 17 ± 4) score; t = 2. 44, P ＜0. 05). The subchronic L-DOPA treatment upregulated the striatal expression of adenosine A2A R and mGluR5. However, co-administration of L-DOPA with CSC reversed the shortening of the rotational motor response duration induced by L-DOPA administration during the period of the treatment and attenuated the LDOPA-induced upregulation of adenosine A2A R and mGluR5 expressions. Conclusions CSC improves motor function in a hemi-parkinson rat model, potentiates the antiparkinsonian effects with L-DOPA and partly attenuates LID. Co-administration of L-DOPA with CSC reverses the L-DOPA-induced upregulated expression of A2A R and mGluR5, indicating the involvement of both A2A R and mGluR5 in the onset and progression of LID. Adenosine A2AR antagonists may be promising drugs for treatment of LID.     

Levodopa/DDCI and entacapone is the preferred treatment for Parkinson's disease patients with motor fluctuations in routine practice: a retrospective, observational analysis of a large French cohort

Levodopa is the gold standard drug for the symptomatic control of Parkinson's disease (PD). However, long-term treatment with conventional formulations [levodopa and a dopa decarboxylase inhibitor (DDCI)], is associated with re-emergence of symptoms because of wearing-off and dyskinesia. Treatment with levodopa/DDCI and entacapone extends the half-life of levodopa, avoiding deep troughs in levodopa plasma levels and providing more continuous delivery of levodopa to the brain. In this open-label, retrospective, observational study we investigated the effects of levodopa/DDCI and entacapone therapy in 800 PD patients with motor fluctuations. Levodopa/DDCI and entacapone treatment was assessed as good/very good in improving motor fluctuations (64%) and activities of daily living (ADL; 62%). The therapeutic utility was considered to be good/very good in 70% of cases. Moreover, there was a reduction in levodopa dose in 20% of patients. Neurologists preferred levodopa/DDCI and entacapone compared with increasing levodopa dosage, dose-fractionation or addition of a dopamine agonist (63%, 29% and 23% of patients respectively). Reasons included achieving more continuous dopaminergic stimulation (40%), reducing motor fluctuations (54%) and improving ADL (41%). This analysis reveals the preference of neurologists for levodopa/DDCI and entacapone over conventional levodopa-modification strategies for the effective treatment of PD motor fluctuations in clinical practice.     

L-DOPA-induced dyskinesia in the rat is associated with striatal overexpression of prodynorphin- and glutamic acid decarboxylase mRNA

Rats sustaining unilateral near-complete 6-hydroxydopamine lesions of the mesostriatal dopamine pathway received daily injections of 3,4 dihydroxyphenyl-l -alanine (L-DOPA, 8 mg/kg plus 15 mg/kg benserazide) for 3 weeks. During this period, about 50% of the rats gradually developed abnormal involuntary movements, lasting for 2–3 h following each L-DOPA dose. Rats were killed 3 days after the last L-DOPA injection, and sections through the striatum were processed for in situ hybridization histochemistry. Within the L-DOPA-treated group, levels of preproenkephalin (PPE) mRNA, glutamic acid decarboxylase (GAD67) mRNA, and prodynorphin (PDyn) mRNA in the dopamine-denervated caudate-putamen, as well as GAD67 mRNA expression in the globus pallidus ipsilateral to the 6-hydroxydopamine (6-OHDA) lesion, were higher in dyskinetic than non-dyskinetic animals, and positively correlated with the rats' dyskinesia scores. By contrast, striatal preprotachykinin mRNA expression and D2 receptor-radioligand binding were not significantly associated with dyskinesia. Among all these markers, PDyn mRNA levels showed the most pronounced treatment-dependence (three times higher in the L-DOPA-treated group than in saline-injected lesion-only controls), and the strongest correlation with the rats' dyskinesia scores (r² = 0.82). However, a multiple regression equation including the three factors, GAD67 mRNA levels in the GP, GAD67 mRNA in the lateral CPu, and striatal PDyn mRNA, gave a better fit for dyskinesia scores than PDyn mRNA alone (r² = 0.92). The results show that L-DOPA-induced dyskinesia is associated with overexpression of PDyn and GAD67 mRNA in the striatal projection neurons, and GAD67 mRNA levels in the globus pallidus. Due to its treatment-dependent expression, and strong correlation with the associated dyskinetic symptoms, striatal PDyn mRNA, in particular, may play a role in the mechanisms of behavioural sensitization brought about by the drug.     

Long-term D1-dopamine receptor sensitization in neonatal 6-OHDA-lesioned rats is blocked by an NMDA antagonist

Repeated administration of the D₁-dopamine agonist SKF-38393 to adult rats having had dopaminergic neurons destroyed early in development results in an increasing enhancement of the behavioral response to SKF-38393 with each dose until a maximum is reached. This increased sensitivity lasts for at least 6 months. In the present study, this long-lasting change in behavioral responsiveness to repeated treatment with SKF-38393, referred to as D₁-dopamine receptor priming, was shown to be dose dependent with smaller doses requiring an increased number of administrations to produce a maximal response when compared to higher doses. In addition, priming occurred equally well when treatment intervals ranged from 1 day to 14 days. These latter data reinforced the view that activation of D₁-dopamine receptors results in a prolonged change in neural function. In subsequent experiments D₁-dopamine receptor priming was blocked by pretreatment with the NMDA-receptor antagonist MK-801. This antagonism of priming could not be attributed to a blockade of D₁-dopamine receptors by MK-801 or to the induction of interfering behaviors. Because an NMDA antagonist interfered with D₁-dopamine priming as it does with other long-term neural messages, a common requirement for these diverse forms of neuronal plasticity appears to involve activation of the NMDA receptor. This functional link between NMDA receptors and dopaminergic function and its relationship to neuronal palsticity could have relevance to the biochemical mechanism involved in learning and to symptons in central disorders during development that worsen over time, particularly those proposed to involved malfunctioning dopaminergic mechanisms.     

Cyclic AMP responsive element binding protein phosphorylation and persistent expression of levodopa-induced response alterations in unilateral nigrostriatal 6-OHDA lesioned rats

Activation of cAMP responsive element binding protein (CREB) has been increasingly implicated in the formation and maintenance of long-term memory. To elucidate molecular mechanisms that underlie the persisting alterations in motor response occurring with levodopa (L-dopa) treatment of parkinsonian patients, we evaluated the time course of these changes in relation to the activation of striatal CREB in 6-hydroxydopamine (6-OHDA) lesioned animals. Three weeks of twice-daily L-dopa treatment reduced the duration of the rotational response to acute L-dopa challenge in hemiparkinsonian rats, which lasted about 5 weeks after withdrawal of chronic L-dopa therapy. This shortened response duration, resembling human wearing-off fluctuations, was associated with a marked increase in Ser-133 phosphorylated CREB (pCREB) immunoreactivity in medium spiny neurons in dorsolateral striatum in response to acute dopaminomimetic challenge. Intermittent treatment with the D1 receptor-preferring agonist SKF 38393, but not the D2 receptor-preferring agonist quinpirole, produced a similar rise in CREB phosphorylation. The time course of changes in CREB phosphorylation correlated with the time course of changes in motor behavior after cessation of chronic L-dopa therapy. Both the altered motor response duration and the degree of CREB phosphorylation were attenuated by the intrastriatal administration of CREB antisense or protein kinase A inhibitor Rp-cAMPS. The results suggest that region-specific Ser-133 CREB phosphorylation in D1 receptor containing spiny neurons contributes to the persistence of the motor response alterations produced by intermittent stimulation of striatal dopaminergic receptors.     

Combined ipsilateral limb use score as an index of motor deficits and neurorestoration in parkinsonian rats

Our aim was to apply a robust non‐drug induced sensorimotor test battery to assess the efficacy of neurorestorative therapies on the motor deficits caused by partial unilateral 6‐OHDA lesion mimicking early stage PD. Since the 6‐OHDA lesion protocols to induce partial DA depletion in striatum vary extensively between laboratories, we evaluated the associations between different intrastriatal 6‐OHDA doses (1 X 0‐20 and 2 X 0‐30 µg), striatal DA depletion (HPLC‐ECD) and D‐amphetamine induced rotation to identify a lesion protocol that would produce 40‐60% striatal DA depletion. Doses ≥ 6 µg produced a significant DA depletion (ANOVA, P < 0.0001). 6‐OHDA dose range (6‐14 µg) causing 40‐60% DA depletion induced very variable rotational responses. Next, intrastriatal 1 × 10 and 1 × 14 µg doses were compared with a full lesion (10 µg into the medial forebrain bundle) with regard to their effects on adjusting step, cylinder, and vibrissae test performance. A combined ipsilateral score (average of each test) was found more sensitive in distinguishing between different lesions than any test alone. Finally, five‐week treadmill exercise starting two weeks post‐lesion was able to restore impaired limb use (combined score; mixed model, P < 0.05) and striatal DA depletion (ANOVA, P < 0.05) in rats with partial lesion (1 × 10 µg). Notably, D‐amphetamine induced rotation significantly decreased between weeks one to seven post‐lesion (t‐test, P < 0.01). In conclusion, intrastriatal 1 × 10 µg of 6‐OHDA produces 40‐60% striatal DA depletion robustly, and the combined ipsilateral score provides an efficient means for testing of the efficacy of neurorestorative or neuroprotective treatments for PD. © 2017 Wiley Periodicals, Inc.     

Dopaminergic mRNA expression in the intact sebstantia nigra of unilaterally 6-OHDA-lesioned and grafted rats: an in situ hybridization study

Summary. The present study was performed to investigate the influence of intrastriatal fetal mesencephalic grafts on dopaminergic mRNA expression in the non-lesioned substantia nigra pars compacta of unilaterally 6- hydroxydopamine-lesioned rats. The expression of dopamine transporter mRNA, synaptic vesicular monoamine transporter mRNA and tyrosine hydroxylase mRNA was assessed in adjacent cryostat sections using in situ hybridization. Rotational behavior induced by apomorphine and amphetamine as well as hybridization of striatal sections cut at the grafting coordinates were used to prove the functional recovery and the presence of grafted cells, respectively. After grafting, the number of rotations was decreased and hybridization signals overlying cells in the grafted striatum were detected. Mean grain densities overlying labeled neurons in the substantia nigra pars compacta of grafted rats were compared to those of shamgrafted rats and revealed differential expression of dopamine transporter mRNA, whereas synaptic vesicular monoamine transporter mRNA and tyrosine hydroxylase mRNA expression showed no difference. The results will be discussed in relation to previous in vitro and in vivo studies suggesting a reduction of functional dopamine transporter molecules in the contralateral striatum. Received April 25, 2000; accepted August 17, 2000     

L-DOPA-induced dyskinesia in adult rats with a unilateral 6-OHDA lesion of dopamine neurons is paralleled by increased c-fos gene expression in the subthalamic nucleus

Levodopa (L-DOPA), the metabolic precursor of dopamine, is widely used as a pharmacological agent for the symptomatic treatment of Parkinson's disease. However, long-term L-DOPA use results in abnormal involuntary movements such as dyskinesias. There is evidence that abnormal cell signaling in the basal ganglia is involved in L-DOPA-induced dyskinesia. The subthalamic nucleus (STN) plays a key role in the circuitry of the basal ganglia and in the pathophysiology of Parkinson's disease. However, the contribution of the STN to L-DOPA-induced dyskinesias remains unclear. The objective of this work was to study the effects of acute or chronic systemic administration of L-DOPA to adult rats with a unilateral 6-hydroxydopamine (6-OHDA) lesion of dopamine neurons on c-fos expression in the STN and test the hypothesis that these effects correlate with L-DOPA-induced dyskinesias. c-fos mRNA expression was measured in the STN by in situ hybridization histochemistry at the single cell level. Our results confirm earlier evidence that the chronic administration of L-DOPA to rats with a unilateral 6-OHDA lesion increases c-fos expression in the STN. We also report that c-fos expression can be increased following an acute injection of L-DOPA to 6-OHDA-lesioned rats but not following a chronic injection of L-DOPA to sham-operated, unlesioned rats. Finally, we provide evidence that the occurrence and severity of dyskinesia is correlated with c-fos mRNA levels in the ipsilateral STN. These results suggest that altered cell signaling in the STN is involved in some of the behavioral effects induced by systemic L-DOPA administration.     

Effect of the acute and chronic administration of the selective 5-HT6 receptor antagonist SB-271046 on the activity of midbrain dopamine neurons in rats: an in vivo electrophysiological study

This study examined the effect of the acute and repeated per os (p.o.) administration of the selective 5-HT(6) receptor antagonist SB-271046, on the number, as well as the firing pattern of spontaneously active dopamine (DA) neurons in the rat substantia nigra pars compacta (SNC) and ventral tegmental area (VTA) in anesthetized male Sprague-Dawley rats. This was accomplished using the technique of extracellular in vivo electrophysiology. A single p.o. administration of either 1, 3, or 10 mg/kg of SB-271046 did not significantly alter the number of spontaneously active SNC DA neurons per stereotaxic electrode tract compared to vehicle-treated animals. The acute administration of either 1 or 3 mg/kg of SB-271046 did not significantly alter the number of spontaneously active VTA DA neurons. In contrast, a significant decrease in the number of spontaneously active VTA DA neurons was observed after a single administration of 10 mg/kg of SB-271046 compared to vehicle-treated animals. The acute p.o. administration of SB-271046 significantly altered the firing pattern parameters of all (bursting + nonbursting DA neurons) DA neurons, particularly those in the VTA, compared to vehicle-treated animals. The repeated p.o. administration (once per day for 21 days) of 1, 3, or 10 mg/kg of SB-271046 did not significantly alter the number of spontaneously active VTA DA neurons compared to vehicle-treated animals. The repeated administration of 3 or 10 mg/kg of SB-271046 significantly increased the number of spontaneously active SNC DA neurons compared to vehicle controls. Overall, the repeated administration of SB-271046 had relatively little effect on the firing pattern of midbrain DA neurons. The results obtained following the chronic administration of SB-271046 show that this compound has a profile different from that of typical or atypical antipsychotic drugs in this model. Clinical studies are required to understand what role 5-HT(6) receptor blockade might eventually play in the treatment of schizophrenia.     

MK-801 alters the effects of priming with L-DOPA on dopamine D1 receptor-induced changes in neuropeptide mRNA levels in the rat striatal output neurons.

In a previous study, we have shown in unilaterally dopamine-depleted rats that increased behavioral responsiveness to the dopamine D1-receptor agonist SKF-38393, which was induced by pretreatment with L-DOPA, is paralleled by specific alterations in striatal neuropeptide mRNA levels. The behavioral 'priming' effect of L-DOPA is prevented if L-DOPA is preceded by the NMDA-receptor antagonist MK-801. In the present study, the question is addressed whether blockade of the increased behavioral responsiveness with MK-801 also prevents the observed changes in striatal neuropeptide mRNA levels. After a challenge with SKF-38393 (3 mg/kg, s.c.), the striatal levels of preprodynorphin, preprotachykinin, and preproenkephalin mRNA were compared between unilaterally dopamine-depleted rats that were either primed with a single administration of L-DOPA (50 mg/kg, i.p.) or with L-DOPA preceded by MK-801 (0.1 mg/kg, i.p.). Priming with L-DOPA enhanced the increase in dynorphin mRNA levels in the dorsolateral part of the dopamine-depleted striatum that occurred after SKF-38393. On the other hand, it had no significant effect on substance P or enkephalin mRNA levels. MK-801 prior to L-DOPA prevented the increased responsiveness of dynorphin regulation. However, it induced a decreased response to dopamine D1-receptor stimulation in the substance P mRNA levels in dorsal regions of the dopamine-depleted striatum. The levels of enkephalin mRNA after challenge with SKF-38393 were not affected by the MK-801 administration. These results demonstrate that the increased behavioral responsiveness to the D1-receptor agonist SKF-38393 after priming with L-DOPA is primarily related to the upregulation of dynorphin mRNA levels in the dopamine-depleted striatum.     

GCs对慢性低灌注大鼠海马脑组织IL-2及KRT6A蛋白表达影响的实验研究

目的采用免疫组化及蛋白质组学技术观察慢性脑缺血大鼠海马脑组织IL-2及蛋白表达产物变化。方法 BCAO建立慢性脑缺血大鼠模型,随机分为假手术组、模型组,GCs低中高剂量组及阳性药物(奥拉西坦)对照组。免疫组化ABC法检测海马脑组织IL-2表达改变;蛋白质组学技术分析鉴定慢性脑缺血大鼠模型及GCs干预后差异蛋白表达改变。结果 (1)模型组大鼠海马脑区IL-2表达量显著上升(2.15±0.45),与假手术组相比差异显著,差异有统计学意义(P0.05),GCs低中高剂量干预后IL-2表达水平出现显著上升,分别是(2.01±0.54、1.76±0.61、1.56±0.31)(P0.01,P0.05);(2)研究发现,慢性脑缺血大鼠海马脑组织Ⅱ型细胞骨架蛋白(typeⅡcytoskeletal 6A,KRT 6A)表达发生显著下降。结论慢性脑缺血病理过程中存在炎性相关蛋白的活化,推测其病理生理机制与炎症反应及细胞活化密切相关。     

Induction and expression of abnormal involuntary movements is related to the duration of dopaminergic stimulation in 6-OHDA-lesioned rats

Dyskinesia induction in Parkinson's disease (PD) appears less marked with long-acting dopamine agonists than with short-acting L-Dopa, but the relationship to duration of drug action is unknown. It is also unclear whether the duration of drug action affects the expression of established dyskinesia. This study compared the ability of L-Dopa and four dopamine agonists of different duration of action to induce abnormal involuntary movements (AIMs) in 6-hydroxydopamine (6-OHDA)-lesioned rats, and their ability to express established AIMs following prior exposure to L-Dopa. 6-OHDA-lesioned rats were treated with saline, L-Dopa/benserazide, apomorphine, ropinirole, pramipexole or pergolide once daily for 15 days. Repeated administration of the short-acting dopamine agonists, apomorphine (duration 80 min) and ropinirole (duration 90 min) induced marked axial, limb and orolingual AIMs at peak effect. L-Dopa (duration 100 min) produced moderate AIMs at peak effect, while administration of the long-acting dopamine agonists, pramipexole (duration 150 min) and pergolide (duration 240 min) resulted in mild AIMs. In rats primed to exhibit severe AIMs following repeated L-Dopa administration, acute administration of apomorphine, ropinirole and L-Dopa induced severe AIMs. By contrast, pramipexole and pergolide evoked only mild-moderate AIMs. Again, there was a negative correlation between duration of effect and the severity of AIMs expressed. These studies show that both the induction and expression of AIMs in 6-OHDA-lesioned rats are related to the duration of action of dopaminergic drugs. These findings suggest that continuous dopaminergic stimulation could be used both to avoid dyskinesia induction and to improve motor function in late-stage PD when troublesome dyskinesia is evident.     

Upregulation of striatal adenosine A2A receptor mRNA in 6-hydroxydopamine-lesioned rats intermittently treated with L-DOPA

To determine whether the adenosine A2A receptor might play a role in L-DOPA-induced dyskinesia in Parkinson's disease, we analyzed changes in the expression of A2A receptor mRNA in response to intermittent treatment with L-DOPA in rats with dopaminergic denervation by 6-hydroxydopamine (OHDA) infusion into the medial forebrain bundle. Intermittent treatment with L-DOPA increased A2A receptor mRNA levels in the dopamine-depleted striatum of 6-OHDA-lesioned rats exhibiting behavioral sensitization to L-DOPA. These results suggest that A2A receptor activation is associated with the development of motor complications induced by L-DOPA treatment.     

Behavioral and subthalamic effects of combining a fetal ventral mesencephalic transplant in striatum with an electrolytic lesion of the entopeduncular nucleus in the rat with a unilateral 6-OHDA lesion of substantia nigra

Behavioral and electrophysiological methods were used to determine whether a transplant of dopamine-rich fetal tissue in striatum combined with an electrolytic lesion of the entopeduncular nucleus have additive effects in the unilaterally lesioned rat model for Parkinson's disease. The subjects were rats with the left substantia nigra lesioned with 6-hydroxydopamine (6-OHDA) and responding to systemic amphetamine with rotation toward the side of the lesion (ipsilateral rotation). The motor response to amphetamine was fractionated into six aspects, half reflecting the unilateral deafferentation in striatum and half representing those aspects of the response evoked in normal rats. After collection of baseline values, 25 rotators received a transplant of fetal ventral mesencephalic tissue in the left striatum and 20 received a transplant and, at the same time, an electrolytic lesion of the left entopeduncular nucleus. Testing for the motor response to amphetamine resumed after 4 weeks of recovery and continued at weekly intervals for 5 weeks. Upon completion of these tests, each rotator was implanted with multiple electrodes in the subthalamic nucleus. After recovery, multiunit responses to amphetamine and apomorphine were recorded from several electrodes in parallel during the motor response to the drugs. In rotators with transplant only, treatment with amphetamine evoked oral stereotypy and an attenuated ipsilateral rotation response. In rotators with combined transplant and entopeduncular lesion, ipsilateral rotation did not change or increased. Subthalamic responses to amphetamine and apomorphine were larger in rotators with combined transplant and entopeduncular lesion than in rotators with transplant alone. These findings indicate that the combination of transplant and pallidotomy in the 6-OHDA rat model for parkinsonism does not lead to additive benefits, an effect that may have been due to the nonselectivity of the electrolytic damage and/or of the lesion extending beyond the entopeduncular nucleus into the lateral hypothalamus.