Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Melatonin's actions in organisms are more widespread than originally envisaged. Over three decades ago, the changing pattern of nocturnal melatonin production was found to be the signal for the annual cycle of reproduction in photoperiodic species. Since then, melatonin's actions also have been linked to circadian rhythms, immune function, sleep, retinal physiology and endocrine functions in general. In recent years, however, the sphere of influence of melatonin was further expanded when the indole was found to be an effective free radical scavenger and antioxidant. Free radicals are toxic molecules, many being derived from oxygen, which are persistently produced and incessantly attack and damage molecules within cells; most frequently this damage is measured as peroxidized lipid products, carbonyl proteins, and DNA breakage or fragmentation. Collectively, the process of free radical damage to molecules is referred to as oxidative stress. Melatonin reduces oxidative stress by several means. Thus, the indole is an effective scavenger of both the highly toxic hydroxyl radical, produced by the 3 electron reduction of oxygen, and the peroxyl radical, which is generated during the oxidation of unsaturated lipids and which is sufficiently toxic to propagate lipid peroxidation. Additionally, melatonin may stimulate some important antioxidative enzymes, i.e., superoxide dismutase, glutathione peroxidase and glutathione reductase. In in vivo tests, melatonin in pharmacological doses has been found effective in reducing macromolecular damage that is a consequence of a variety of toxic agents, xenobiotics and experimental paradigms which induce free radical generation. In these studies, melatonin was found to significantly inhibit oxidative damage that is a consequence of paraquat toxicity, potassium cyanide administration, lipopolysaccharide treatment, kainic acid injection, carcinogen administration, carbon tetrachloride poisoning, etc., as well as reducing the oxidation of macromolecules that occurs during strenuous exercise or ischemia-reperfusion. In experimental models which are used to study neurodegenerative changes associated with Alzheimer's and Parkinson disease, melatonin was found to be effective in reducing neuronal damage. Its lack of toxicity and the ease with which melatonin crosses morphophysiological barriers and enters subcellular compartments are essential features of this antioxidant. Thus far, most frequently pharmacological levels of melatonin have been used to combat oxygen toxicity. The role of physiological levels of melatonin, which are known to decrease with age, is being investigated as to their importance in the total antioxidative defense capacity of the organism.
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PMID:Melatonin in relation to cellular antioxidative defense mechanisms. 928 72

During development of the nigrostriatal dopamine system, a patchy and a diffuse type of striatal innervation pattern can be seen. It has been suggested that when fetal dopaminergic neurons, obtained from the ventral mesencephalon (VM), are grafted adjacent to mature striatal tissue, only the diffuse growth is induced. Intraocular grafting studies have indicated that the dopaminergic growth pattern might be influenced by the age of the target area, the lateral ganglionic eminence (LGE). In this study VM grafts were allowed to innervate LGE grafts of different ages. Fetal VM was implanted next to 2-wk-old or 26-day-old striatal in oculo grafts, and the resulting dopaminergic innervation of the striatal grafts was studied using tyrosine hydroxylase (TH) immunohistochemistry. In striatal grafts receiving innervation at the age of 2 wk in oculo, a patchy TH-immunoreactive growth pattern was found, while in striatal grafts innervated at the age of 26 days mainly the diffuse growth pattern was seen. This implies that grafted striatum reached maturity at approximately 1 mo of age. The age of the dopaminergic neurons at dissection and grafting was also studied concerning the ability to induce patchy growth into mature striatum. Thus, VM dissected from 13- and 18-mm fetuses was implanted to either 4-mo-old LGE (grafted in sequence) or to LGE from the same fetus (grafted simultaneously) as controls. TH-positive innervation of striatal tissue, evaluated 4 wk after implantation of VM, revealed a patchy growth pattern in LGE grafted simultaneously with 13- and 18-mm VM. However, when the striatum was mature at the time of innervation, diffuse growth was observed in striatum innervated by VM dissected from 13-mm fetuses. Interestingly, patchy growth was noted in striatal areas close to VM grafts when the dopaminergic neurons were derived from older fetuses (CRL 18 mm). Furthermore, potassium-induced dopamine release was greater in striatal grafts exhibiting the patchy growth than those showing the diffuse pattern of innervation. In conclusion, patchy dopaminergic growth can be induced in mature striatal tissue by grafting VM from older fetuses. Functionally, potassium-evoked dopamine release is enhanced in dopaminergic patches. These results have implications in terms of finding ways to induce patchy growth when grafting to the mature striatum of patients suffering from Parkinson's disease.
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PMID:Morphological and functional evidence for enhanced growth and potassium-evoked dopamine release in striatal grafts innervated with a patchy growth pattern. An in oculo nigrostriatal cograft study. 958 92

Tolcapone (T) is a novel catechol-O-methyltransferase (COMT) inhibitor recently introduced for the treatment of Parkinson's disease. In clinical efficacy studies, T has been associated with a low incidence of diarrhea. The objectives of the study were to examine whether T and its adjunctive drug Sinemet (S) could influence intestinal fluid and electrolyte transport as a possible cause for the diarrhea. The studies were conducted in conscious dogs surgically prepared with Thiry-Vella loops constructed from a 40-cm jejunal segment. A physiologically buffered test solution was perfused into the orad stoma and collected from the caudad stoma. Secretions were collected at 15-min intervals and analyzed for volume, electrolytes, lipid phosphorus, and protein. The acute oral administration of T (10 and 30 mg/kg doses) was well tolerated. Concurrent acute administration of S (25 mg/kg) with T (30 mg/kg) was also well tolerated. The acute oral administration of T induced a dose-dependent efflux of intestinal fluid and electrolytes (sodium, potassium, chloride, and bicarbonate) secretion (P < 0.05). The oral coadministration of S (25 mg/kg) with T (30 mg/kg) accelerated the onset of the stimulation of intestinal secretion. Despite the significant stimulation of intestinal secretion, none of the dogs developed diarrhea, indicating the importance of intestinal compensatory mechanisms. Neither T nor T&S affected calcium, lipid, or protein efflux rates, suggesting that the stimulated secretion was not a consequence of intestinal mucosal injury. The chronic (seven-day) administration of T and T&S was associated with reduced intestinal secretory responses when compared with the acute administration of the same drugs; S enhanced the T-induced tolerance development. The basis for such tolerance is unknown. In conclusion, the stimulatory systemic actions of tolcapone on intestinal secretion may, under certain conditions, contribute to the induction of diarrhea in susceptible patients.
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PMID:Effects of tolcapone, a catechol-O-methyltransferase inhibitor, and Sinemet on intestinal electrolyte and fluid transport in conscious dogs. 972 73

Chromogranin A (CGA), a prohormone and a protein component of endocrine and neural secretory granules, neuritic plaques in Alzheimer's disease and Lewy bodies in Parkinson's disease, inhibited the release of dopamine (DA) from perfused rat striatal slices. Dopamine release was stimulated by a pulse of high potassium (40mM) medium introduced at 20 minutes (K1) and 55 minutes (K2) following equilibration. The ratio of K2/K1 was 0.80+/-0.04 in control tissues, but fell significantly to 0.26+/-0.08 when 100nM purified CGA was added prior to the second potassium pulse. This reduction in DA release was equivalent to that seen when calcium was excluded from the buffer (0.19+/-0.05). Pancreastatin, a centrally active peptide product of CGA, had no effect on stimulated DA release (0.77+/-0.06), although it, as well as the other treatments, did reduce basal DA release. It is likely that the parent molecule itself, CGA, or an as yet unidentified product is responsible for inhibition of K-stimulated striatal DA release.
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PMID:Chromogranin A inhibits dopamine release from rat striatal slices. 992 79

ATP-sensitive potassium (K-ATP) channels couple the metabolic state to cellular excitability in various tissues. Several isoforms of the K-ATP channel subunits, the sulfonylurea receptor (SUR) and inwardly rectifying K channel (Kir6.X), have been cloned, but the molecular composition and functional diversity of native neuronal K-ATP channels remain unresolved. We combined functional analysis of K-ATP channels with expression profiling of K-ATP subunits at the level of single substantia nigra (SN) neurons in mouse brain slices using an RT-multiplex PCR protocol. In contrast to GABAergic neurons, single dopaminergic SN neurons displayed alternative co-expression of either SUR1, SUR2B or both SUR isoforms with Kir6.2. Dopaminergic SN neurons expressed alternative K-ATP channel species distinguished by significant differences in sulfonylurea affinity and metabolic sensitivity. In single dopaminergic SN neurons, co-expression of SUR1 + Kir6.2, but not of SUR2B + Kir6.2, correlated with functional K-ATP channels highly sensitive to metabolic inhibition. In contrast to wild-type, surviving dopaminergic SN neurons of homozygous weaver mouse exclusively expressed SUR1 + Kir6.2 during the active period of dopaminergic neurodegeneration. Therefore, alternative expression of K-ATP channel subunits defines the differential response to metabolic stress and constitutes a novel candidate mechanism for the differential vulnerability of dopaminergic neurons in response to respiratory chain dysfunction in Parkinson's disease.
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PMID:Alternative sulfonylurea receptor expression defines metabolic sensitivity of K-ATP channels in dopaminergic midbrain neurons. 1002 26

The phenotype of substantia nigra (SN) neurons in homozygous weaver (wv/wv) mice was studied by combining patch-clamp and single-cell RT-multiplex PCR techniques in midbrain slices of 14-d-old mice. In contrast to GABAergic SN neurons, which were unaffected in homozygous weaver mice (wv/wv), dopaminergic SN neurons possessed a dramatically altered phenotype with a depolarized membrane potential and complete loss of spontaneous pacemaker activity. The gain-of-function phenotype was mediated by a large, nonselective membrane conductance exclusively present in (wv/wv) dopaminergic SN neurons. This constitutively activated conductance displayed a sensitivity to external QX-314 (IC(50) = 10.6 microM) very similar to that of heterologously expressed wvGirk2 channels and was not further activated by G-protein stimulation. Single-cell Girk1-4 expression profiling suggested that homomeric Girk2 channels were present in most dopaminergic SN neurons, whereas Girk2 was always coexpressed with other Girk family members in GABAergic SN neurons. Surprisingly, acute QX-314 inhibition of wvGirk2 channels did not induce wild-type-like pacemaker activity but instead caused membrane hyperpolarization. Additional application of a blocker of ATP-sensitive potassium channels (100 microM tolbutamide) induced wild-type-like pacemaker activity. We conclude that the gain-of-function weaver phenotype of dopaminergic substantia nigra neurons is mediated by coactivation of wvGirk2 and SUR1/Kir6. 2-mediated ATP-sensitive K(+) channels. We also show that in contrast to wild-type neurons, all (wv/wv) dopaminergic SN neurons expressed calbindin, a calcium-binding protein that marks dopaminergic SN neurons resistant to neurodegeneration. The identification of two ion channels that in concert determine the weaver phenotype of surviving calbindin-positive dopaminergic SN neurons will help to understand the molecular mechanisms of selective neurodegeneration of dopaminergic SN neurons in the weaver mouse and might be important in Parkinson's disease.
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PMID:The weaver mouse gain-of-function phenotype of dopaminergic midbrain neurons is determined by coactivation of wvGirk2 and K-ATP channels. 1051 3

L-Deprenyl, an irreversible MAO-B (monoamine oxidase B, EC 1.4.3.4) inhibitor, is used for the treatment of Parkinson's disease and to delay the progression of Alzheimer's disease. L-Deprenyl also exhibits protective effects against neuronal apoptosis which are independent of its ability to inhibit MAO-B. The purpose of this study was to compare the antiapoptotic efficacy of L-deprenyl against different types of apoptotic inducers in three neuronal cell culture models. The level of apoptosis was quantified by measuring the activation of caspase-3 enzyme, which is the main apoptotic executioner in neuronal cells. MTT [3-(4,5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide] and LDH (lactate dehydrogenase, EC 1. 1.1.27) assays were used to demonstrate the cytotoxic response of apoptotic treatments. Our results showed that okadaic acid, an inhibitor of protein phosphatase 1 and 2A, induced a prominent increase in caspase-3 activity both in cultured hippocampal and cerebellar granule neurons as well as in Neuro-2a neuroblastoma cells. Interestingly, L-deprenyl offered a significant protection against the apoptotic response induced by okadaic acid in all three neuronal models. The best protection appeared at the concentration level of 10(-9) M. L-Deprenyl also provided a protection against apoptosis after AraC (cytosine beta-D-arabinoside) treatment in hippocampal neurons and Neuro-2a cells and after etoposide treatment in Neuro-2a cells. However, L-deprenyl did not offer any protection against apoptosis caused by serum withdrawal or potassium deprivation. Okadaic acid treatment in vivo is known to induce an Alzheimer's type of hyperphosphorylation of tau protein, formation of beta-amyloid plaques, and a severe memory impairment. Our results show that the okadaic acid model provides a promising tool to study the molecular basis of Alzheimer's disease and to screen the neuroprotective capacity of L-deprenyl derivatives.
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PMID:Protective effect of L-deprenyl against apoptosis induced by okadaic acid in cultured neuronal cells. 1079 57

Grafting of ventral mesencephalic tissue in Parkinson's disease results in a partial dopaminergic reinnervation of host brain and dopamine agonist-induced rotational behavior is not completely reversed. To study a possible malfunction of the grafts, extracellular recordings with local applications of quinpirole were utilized and the neurophysiological results showed that a normalization of the upregulated dopamine D2 receptor supersensitivity occurred in reinnervated areas of the host striatum as well as in noninnervated areas remote from the graft innervation. Furthermore, the inhibitory effects on striatal nerve cell firing rate by the D1 receptor agonist SKF 81297 were not different in noninnervated or reinnervated areas of the striatum compared to the control side as seen from the dose-response curves. However, spontaneous striatal neuronal firing was significantly upregulated in noninnervated areas, while it was normalized in areas reached by graft-derived nerve fibers. Dual-probe microdialysis studying potassium-evoked glutamate release revealed that there was no difference in extracellular glutamate levels measured within or lateral to graft dopamine reinnervation. Thus, the upregulated spontaneous activity was not due to a difference in extracellular glutamate levels. The remaining rotational behavior seen after grafting was studied and recordings were performed in the striatum following systemic injection of the D1/D2 agonist apomorphine. The results revealed that apomorphine at the dose used to elicit turning behavior (0.05 mg/kg) still affected striatal neurons in noninnervated areas, while no effect was detected in reinnervated areas and in the intact side. However, a lower dose of apomorphine (0.005 mg/kg) showed no effects on striatal firing in graft reinnervated striata but only after dopamine depletion. In conclusion, the D2 supersensitivity is downregulated in graft-reinnervated striatum as well as in striatal areas lateral to the reinnervation when using selective D2 agonists, but the downregulation is not completely normalized when studying combined effects of D1/D2 agonists. Furthermore, the striatal neurons were firing significantly faster in noninnervated areas compared to reinnervated areas of graft-reinnervated striatum, which was most likely not due to changes in the glutamatergic input.
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PMID:Fetal ventral mesencephalic grafts functionally reduce the dopamine D2 receptor supersensitivity in partially dopamine reinnervated host striatum. 1087 26

Malfunction in ion channels, due to mutations in genes encoding channel proteins or the presence of autoantibodies, are increasing being implicated in causing disease conditions, termed channelopathies. Dysfunction of potassium (K(+)) channels has been associated with the pathophysiology of a number of neurological, as well as peripheral, disorders (e.g., episodic ataxia, epilepsy, neuromyotonia, Parkinson's disease, congenital deafness, long QT syndrome). K(+) channels, which demonstrate a high degree of diversity and ubiquity, are fundamental in the control of membrane depolarisation and cell excitability. A common feature of K(+) channelopathies is a reduction or loss of membrane potential repolarisation. The identification of K(+) channel subtype specific openers will allow the recovery of the mechanism(s) responsible for counteraction of uncontrolled cellular depolarisation. Synthetic agents that demonstrate K(+) channel opening properties are available for a variety of K(+) channel subtypes (e.g., K(ATP), BK(Ca), GIRK and M-channel). This study reviews the realistic therapeutic potential that may be gained in a broad spectrum of clinical conditions by K(+) channel openers. K(+) channel openers would therefore identify dysfunctional K(+) channel as therapeutic targets for clinical benefit, in addition being able to modulate normally functioning K(+) channels to gain clinical management of pathophysiological events irrespective of the cause.
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PMID:Is there a role for potassium channel openers in neuronal ion channel disorders? 1106 Aug 6

Alpha-Dihydroergocryptine (alpha-DHEC), a Dopamine (DA) D2 receptor agonist, is widely used as dopaminergic drug in the treatment of Parkinson's disease. To study the mechanisms involved in the signal transduction process induced by alpha-DHEC on the presynaptic site of the dopaminergic neuron, we incubated slices of the rat caudate-putamen with alpha-DHEC and the indicated substances in static chambers. Following incubation the resulting DA outflow was measured by high-performance-liquid chromatography with electrochemical detection. The addition of alpha-DHEC (10 microM-0.1mM) did not modulate basal DA outflow. Activation of voltage-gated sodium channels by veratridine (VER) from low to relatively high concentrations (1-10 microM) led to a concentration-dependent increase of DA outflow. Using concentrations as high as 10 microM a dramatic increase of DA levels (600% of baseline levels) was observed. The ability of VER to provoke DA release was sensitive to the addition of tetrodotoxin (TTX) and was completely blocked by 1 mM TTX. Coincubation of alpha-DHEC (10microM-0.1mM) and VER (10microM) reduced VER-stimulated DA outflow in a concentration-dependent manner. The time-concentration course of VER-induced DA outflow was not modulated by alpha-DHEC. As described in our earlier studies, the specific D2 receptor antagonist (-)sulpiride (SLP) concentration-dependently enhances extracellular DA levels. Addition of alpha-DHEC almost completely blocked SLP-induced DA-outflow. When slices were incubated with the non-selective DA receptor agonist haloperidol (HLP, 0.1 mM) the effect of alpha-DHEC on VER-induced DA outflow was partially but not completely abolished. These data strongly suggest that the effect of alpha-DHEC on the presynaptic site implies an activation of D2 receptors as well as an inhibitory action on voltage-gated sodium channels. Alpha-DHEC seems to modulate voltage-gated sodium channels in part independently from DA receptors since blockade of D2 receptors with saturating concentrations of haloperidol did not completely abolish its effect. Based on our data we have no evidence that voltage-gated potassium channels, N-type calcium channels or D1, D3-receptors are involved in the action of alpha-DHEC at the presynaptic site of the dopaminergic neuron. The results give one rationale for the proposed neuroprotective effect of alpha-DHEC.
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PMID:The dopamine D2 receptor agonist alpha-dihydroergocryptine modulates voltage-gated sodium channels in the rat caudate-putamen. 1107 49


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