Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The search for the underlying pathophysiology of schizophrenia has been an active avenue of investigation since the disease was first recognized more than 100 years ago. Although a great deal of the research has been driven by the known pharmacology of effective antipsychotic drugs, i.e., overactivity of the dopamine system, recent advances in neurobiology provide evidence that reduced synaptic connectivity/neurotransmission may play a substantial role in this disorder. One neuropeptide long posited to play a role in the biology of schizophrenia is neurotensin (NT). Central nervous system administration of NT has been shown to produce a wide variety of effects. Because of its close association with the dopamine (DA) system, the role of the NT system in clinical disorders hypothesized to involve DA circuits such as schizophrenia, Parkinson's disease, and drug abuse has been closely scrutinized. In addition, NT neurotransmission has been implicated in regulation of the stress response, stress-induced gastric ulcers, temperature regulation, food consumption, and analgesia. NT also acts as a growth factor in a variety of human cancer cell lines derived from lung, colon, prostate, and pancreas. This review first provides a background of the NT system. Second, data indicating that NT may mediate the effects of antipsychotic drugs are summarized. Third, data implicating NT in the pathophysiology of schizophrenia are described. Finally, evidence suggesting the use of NTergic compounds as novel antipsychotic drugs are presented.
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PMID:Neurotensin, schizophrenia, and antipsychotic drug action. 1500 94

The neuropeptides neurokinin B, neurotensin, and anandamide, the endogenous ligands of NK3, NT1, and CB1 receptors respectively, are known to interact with brain dopaminergic transmission. This study evaluated the effects of these three antagonists of the NK3 (SR 142801), neurotensin (SR 48692), and cannabinoid (SR 141716) receptors on the severity of motor symptoms and levodopa-induced dyskinesias after administration of a single dose of levodopa in 24 patients with Parkinson disease. In this exploratory randomized, double-blind, placebo-controlled study, at the dose used, the drugs tested were well tolerated and could not improve parkinsonian motor disability.
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PMID:Neurokinin B, neurotensin, and cannabinoid receptor antagonists and Parkinson disease. 1519 Feb 31

Neurotensin (NT) is a 13 amino acid neuropeptide that is found in the central nervous system and in the gastrointestinal tract. In brain, this peptide is prominently associated anatomically with dopaminergic, as well as other neurotransmitter systems. Based on animal studies, already decades old, researchers have hypothesised that NT receptor agonists will have antipsychotic properties in patients. However, to date no one has obtained a non-peptide NT receptor agonist. Therefore, there has been great interest in obtaining peptide analogues of NT, that, unlike NT resist degradation by peptidases and cross the blood-brain barrier, yet have the pharmacological characteristics of native NT, for therapeutic use in the treatment of schizophrenia, as well as other neuropsychiatric diseases such as Parkinson's disease and addiction to psychostimulants. In this review, we present the rationale for development of NT receptor agonists for treatment of certain central nervous system diseases, as well as a review of those peptide agonists that are in early stages of development.
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PMID:Neurotensin agonists as an alternative to antipsychotics. 1588 13

Motor complications induced through repeated L-DOPA treatment in patients with Parkinson's disease are thought to be the consequence of molecular adaptations that occur in response to repeated dopamine receptors stimulation. Here, we studied the molecular changes taking place in the denervated striatum of unilaterally 6-OHDA-lesioned rats repeatedly treated with L-DOPA alone or combined to the D1 receptor antagonist SCH23390. We looked at the territorial patterns of expression of neurotensin (NT), dynorphin (DYN), enkephalin (ENK) and Nur77 (also known as NGFI-B) mRNA expression in the striatum and contrasted these with markers of glutamatergic transport and dopaminergic receptor functions. The denervation process induced NT and Nur77 mRNA expression in ENK-positive cells. Subsequent repeated L-DOPA treatment led to a sensitization of L-DOPA-induced rotational response and produced a second surge of NT induction, this time limited to DYN-positive cells and preferentially restricted to the lateral striatum. In this specific territory, the number of Nur77-positive cells was decreased, in response to L-DOPA, when compared to the medial part of the lesioned striatum. L-DOPA treatment increased dopamine D3 receptor and glutamate transporter 1 (GLT1) mRNA expression in the lesioned striatum and that, specifically in an area overlapping one of Nur77 decrease and of NT/DYN induction. The concomitant administration of SCH23390 with repeated L-DOPA treatment blocked the development of behavioral sensitization and the appearance of all L-DOPA-induced molecular reorganizations reported above. Our results showed that repeated L-DOPA treatment produces, in a denervated striatum, a complex pattern of genes regulation in both the direct and the indirect striatal output pathways. This phenomenon is located preferentially in a striatal area receiving converging inputs from the thalamus and sensorimotor cortex and is dependent upon D1 receptor stimulation.
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PMID:Denervation and repeated L-DOPA induce complex regulatory changes in neurochemical phenotypes of striatal neurons: implication of a dopamine D1-dependent mechanism. 1589 73

Midbrain dopaminergic (DA) neurones sustain important physiological functions such as control of motricity, signalling of the error in prediction of rewards and modulation of emotions and cognition. Moreover, their degeneration leads to Parkinson's disease and they may be dysfunctional in other pathological states, such as schizophrenia and drug abuse. A subset of DA neurones has been known for many years to contain releasable peptides such as neurotensin and cholecystokinin. However, recent experimental evidence indicates that the phenotype of DA neurones may be much more diverse, since it is suggested that, under certain conditions, they may also release glutamate, cannabinoids and even serotonin.
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PMID:Dopaminergic neurones: much more than dopamine? 1602 40

Dopamine (DA) acts as a key neurotransmitter in the brain. Numerous studies have shown its regulatory role in motor and cognitive function. However, the impairment of emotional processes in neurologic and psychiatric pathologies involving the dopaminergic system (Parkinson disease, schizophrenia, autism, Attention Deficit Hyperactivity Disorder, Huntington disease, frontal lobe lesions), as well as the influence that administration of dopaminergic agonists/antagonists exert on the processing of emotion, suggest a role for DA in emotional processes. Moreover, emotional processes are dependent upon a variety of structures, the majority of which form part of the limbic system and are subject to DA innervation. In reviewing the literature, the amygdala emerges as a brain structure critical for emotional processing. It may also be implicated in deficits in emotional recognition found in two major disorders where DA's implication is clear: Parkinson disease and schizophrenia. In addition, the amygdala's response to emotional tasks is likely to be altered by the administration of both agonist and antagonist dopaminergic drugs. Experimental studies reinforce the idea of a dopaminergic contribution to emotional response, as suggested by biochemical, pharmacologic, and lesion experiments. Although the implication of the dopaminergic system in emotional processing appears to be clearly documented, the contribution of specific DA receptor subtypes, or of the DA cotransmitters cholecystokinin and neurotensin, or even glutamate, is, however, still unclear. Altogether, these observations suggest that DA has, undoubtedly, a direct and/or indirect role in the full emotional process.
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PMID:Dopaminergic contribution to the regulation of emotional perception. 1623 63

Preferential neurodegeneration of dopaminergic neurons in the ventral substantia nigra of the midbrain is a hallmark of Parkinson's disease. The homeobox transcription factor Pitx3 is similarly and selectively expressed in the same neurons. Pitx3 deficiency in a natural mouse mutant, the aphakia mouse, was correlated with the loss of these neurons and with a deficit in locomotor activity. We now report that the locomotor deficit of aphakia mice is established by 40 days of age and that it can be rescued by injection of l-dopa. We further show that downstream striatal correlates of the midbrain neuronal losses in aphakia mice, as assessed by dopamine transporter binding and expression of dopamine receptors, enkephalin, dynorphin and neurotensin, are highly similar to neuroadaptive responses observed following rapid neurodegeneration induced by neurotoxin administration in adult animals or following the progressive neurodegenerative processes as seen in Parkinson patients. Taken collectively, these data support the idea that the aphakia mice represent a selective model of dopaminergic deficiency that closely resembles the midbrain and striatal neuropathology associated with Parkinson's disease, and this suggests that these mice are a good model to assess therapies for Parkinson's disease as well as to understand the susceptibility of these neurons to neurodegeneration.
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PMID:Striatal neuroadaptation and rescue of locomotor deficit by L-dopa in aphakia mice, a model of Parkinson's disease. 1626 7

The peptide neurotensin has been studied for more than 30 years. Although it is widely distributed in the central and peripheral nervous systems, neurotensin has been more intensely studied with regard to its interactions with the central dopamine system. A number of claims have been made regarding its possible implication in many diseases of the central nervous system, including schizophrenia. In this review, we describe briefly the basic biology of this neuropeptide, and then we consider the strengths and the weaknesses of the data that suggest a role for neurotensin in schizophrenia, drug abuse, Parkinson's disease, pain, central control of blood pressure, eating disorders, cancer, neurodegenerative disorders and inflammation.
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PMID:The role of neurotensin in central nervous system pathophysiology: what is the evidence? 1686 41

Neurotensin (NT) is a 13-amino acid neuropeptide found in the central nervous system and in the gastrointestinal tract. It is closely associated anatomically with dopaminergic and other neurotransmitter systems, and evidence supports a role for NT agonists in the treatment of various neuropsychiatric disorders. However, NT is readily degraded by peptidases, so there is much interest in the development of stable NT agonists, that can be injected systemically, cross the blood-brain barrier (BBB), yet retains the pharmacological characteristics of native NT for therapeutic use in the treatment of diseases such as schizophrenia, Parkinson's disease and addiction.
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PMID:Bioactive analogs of neurotensin: focus on CNS effects. 1688 57

We have previously shown that dopamine (DA) denervation and repeated L-DOPA treatment modulate the pattern of Nur77 mRNA expression in the striatum. However, the exact role of this nuclear receptor in L-DOPA-induced molecular and behavioural adaptations observed in animal models of Parkinson's disease is still unknown. In the present study, we investigated the effects of Nur77 gene deletion on the development of behavioural sensitization and on changes in the regulation of neuropeptides and DA D(3) receptor expression following DA denervation and repeated L-DOPA treatment in Nur77+/+ and Nur77-/- hemiparkinsonian mice. One week postsurgery, hemiparkinsonian mice were treated with L-DOPA (10 mg/kg) plus benserazide (3 mg/kg) once a day for 7 days. Despite similar extents of nigrostriatal denervation, L-DOPA-induced rotational response was exacerbated in Nur77-/- mice compared to Nur77+/+ ones. However, the rate of increase of the rotational behaviour after repeated L-DOPA injections was similar in the two mouse strains. Lesioning the nigrostriatal pathway increased enkephalin (ENK) and neurotensin (NT) mRNA levels in both mouse strains. However, the up-regulation of these neuropeptides was significantly reduced in Nur77-/- mice. There was no difference in the modulation of D3 receptor density and dynorphin (DYN) mRNA expression between the two mouse strains. The present results suggest that Nur77 is involved in setting the threshold level for L-DOPA-induced rotational behaviour, rather than controlling the development of behavioural sensitization. This specific behavioural change is associated with a selective regulation of neuropeptide expression specifically in the indirect striatal output pathway.
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PMID:Impaired behavioural and molecular adaptations to dopamine denervation and repeated L-DOPA treatment in Nur77-knockout mice. 1693 Apr 9


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