Project description:This study addresses the molecular mechanisms underlying the action of subthalamic nucleus high frequency stimulation (STN-HFS) in the treatment of ParkinsonM-bM-^@M-^Ys disease and its interaction with levoDOPA (L-DOPA), focusing on the striatum. The objectives were 1) to identify the molecular signature of STN-HFS action at striatal level, associated with its efficient antiparkinsonian action, and 2) to investigate the molecular substrates of the interaction between the two treatments in order to evidence possible genes involved in dyskinesia. Striatal gene expression profile was assessed in rats with nigral DOPAmine neuron lesion, either treated or not, using agilent microarrays and qPCR verification. The treatments consisted in anti-akinetic STN-HFS (5 days), chronic L-DOPA treatment inducing dyskinesia (LIDs) or the combination of the two treatments that exacerbated LIDs. STN-HFS modulated 71 genes with functional or biochemical annotation, including genes sharing the GO terms regulation of growth, regulation of apoptosis, extracellular region. Ttr, Igf2, Sostdc1 and Nr4A3 (Nor-1), are among the 5 genes showing the highest specific upregulation. Down-regulated genes include Prkcd, Sirt5 and Bbc3. These results show that genes involved in neuroprotection and/or neurogenesis are key components of STN-HFS action in the striatum. STN-HFS and LDOPA treatment share very few common gene regulation features suggesting that the molecular substrates underlying their striatal action are mostly different. In addition to genes already reported to be associated with LIDs (Pdyn, Trh, Grm4/mGlu4, Cnr1/CB1), the comparison between DOPA and DOPA/STN-HFS identifies immunity-related genes: C1s, Rt1-Da and Irf7a, as potential players in L-DOPA side effects. Total RNA was extracted from striatal tissue from four groups of 3 animals bearing 6-hydroxyDOPAmine (6-OHDA)-induced lesion of the nigrostriatal DA pathway: lesion alone without any subsequent treatment (L), L-DOPA treatment for 19 days (D), STN-HFS for 5 days (S) and combination of L-DOPA and STN-HFS (DS).

Project description:This study addresses the molecular mechanisms underlying the action of subthalamic nucleus high frequency stimulation (STN-HFS) in the treatment of Parkinson’s disease and its interaction with levoDOPA (L-DOPA), focusing on the striatum. The objectives were 1) to identify the molecular signature of STN-HFS action at striatal level, associated with its efficient antiparkinsonian action, and 2) to investigate the molecular substrates of the interaction between the two treatments in order to evidence possible genes involved in dyskinesia. Striatal gene expression profile was assessed in rats with nigral DOPAmine neuron lesion, either treated or not, using agilent microarrays and qPCR verification. The treatments consisted in anti-akinetic STN-HFS (5 days), chronic L-DOPA treatment inducing dyskinesia (LIDs) or the combination of the two treatments that exacerbated LIDs. STN-HFS modulated 71 genes with functional or biochemical annotation, including genes sharing the GO terms regulation of growth, regulation of apoptosis, extracellular region. Ttr, Igf2, Sostdc1 and Nr4A3 (Nor-1), are among the 5 genes showing the highest specific upregulation. Down-regulated genes include Prkcd, Sirt5 and Bbc3. These results show that genes involved in neuroprotection and/or neurogenesis are key components of STN-HFS action in the striatum. STN-HFS and LDOPA treatment share very few common gene regulation features suggesting that the molecular substrates underlying their striatal action are mostly different. In addition to genes already reported to be associated with LIDs (Pdyn, Trh, Grm4/mGlu4, Cnr1/CB1), the comparison between DOPA and DOPA/STN-HFS identifies immunity-related genes: C1s, Rt1-Da and Irf7a, as potential players in L-DOPA side effects.

Project description:Rat Normal Cochlear Nucleus

Project description:rat nucleus pulposus transcriptome sequencing

Project description:Electric stimulation of neonatal rat ventricular cardiomyocytes

Project description:To realize cell transplantation therapy for Parkinson's disease (PD), the grafted neurons should be integrated into the host neuronal circuit in order to restore the lost neuronal function. Here, using wheat germ agglutinin-based trans-synaptic tracing, we show that integrin α5 is selectively expressed in striatal neurons that are innervated by midbrain dopaminergic (DA) neurons from the mouse experiments. Additionally, we found that integrin α5β1 was activated by the administration of estradiol-2-benzoate (E2B) in striatal neurons of adult female rats. Importantly, we observed that the systemic administration of E2B into hemi-parkinsonian rat models facilitates the functional integration of grafted DA neurons derived from human induced pluripotent stem cells into the host striatal neuronal circuit via the activation of integrin α5β1. Finally, methamphetamine-induced abnormal rotation was recovered earlier in E2B-administrated rats than in rats that received other regimens. Our results suggest that the simultaneous administration of E2B with stem cell-derived DA progenitors can enhance the efficacy of cell transplantation therapy for PD.

Project description:We compared differential gene expression between Striatal tissue derived RNA isolated from Chronic Levodopa (L-DOPA) treated (L-Dopa methyl ester plus benserazide were given at 25 mg/kg and 6.25 mg/kg dose) - Parkinsonian and Dyskinetic Rats (LID Rats) for 8 days as compared to Parkinsonian Disease Control Rats (PD Control Rats). The hypothesis tested in the present study was that whether Inflammation has any role in Chronic Levodopa Induced Dyskinesia in Rats of Parkinson's disease model- as compared to Control Rats with Prakinson's disease by performing differential gene expression and pathway analyses.

Project description:The goal of this experiment was to determine how dopamine receptor activation in medium spiny neurons alters rapid transcriptional programs. To identify genes altered by dopamine, we used a rat primary striatal neuronal culture system in which striatal neurons were removed from the rat brain at embryonic day 18, cultured for 11 days in vitro using standard neuronal conditions, and treated neurons with either vehicle (neurobasal media) or dopamine (at a concentration of 1µM) for 1hr. This dataset contains PolyA+ RNA-seq results from this experiment, in which we identified 100 upregulated genes and 3 downregulated genes after dopamine stimulation using DESeq2 pipelines.

Project description:miRNA expression profiles from E18th rat embryonic striatal stem cells under conditioned environments

Project description:Intracranial self-stimulation regulates gene expression in rat hippocampus