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)

Positron emission tomography (PET) is a method for quantitative imaging of regional physiological and biochemical parameters. Positron emitting radioactive isotopes can be produced by a cyclotron, eg. the biologically important carbon (11C), oxygen (15O), and nitrogen (13N) elements. With the tomographic principle of the PET scanner the quantitative distribution of the administered isotopes can be determined and images can be provided as well as dynamic information on blood flow, metabolism and receptor function. In neurology PET has been used for investigations on numerous physiological processes in the brain: circulation, metabolism and receptor studies. In Parkinson's disease PET studies have been able to localize the pathology specifically, and in early stroke PET technique can outline focal areas with living but non-functioning cells, and this could make it possible to intervene in this early state. With positron emission tomography a quantitative evaluation of myocardial blood flow, glucose and fatty acid metabolism can be made as well as combined assessments of blood flow and metabolism. Combined studies of blood flow and metabolism can determine whether myocardial segments with abnormal motility consist of necrotic or viable tissue, thereby delineating effects of revascularisation. In the future it will probably be possible to characterize the myocardial receptor status in different cardiac diseases. The PET technique is used in oncology for clinical as well as more basic research on tumor perfusion and metabolism. Further, tumor uptake of positron labelled cytotoxic drugs might predict the clinical benefit of treatment.
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PMID:[Positron emission tomography. A new measurement method for imaging of regional and biochemical parameters]. 781 6

Several factors place older patients at increased risk for malnutrition. The physiologic effects of aging itself are considered risk factors, as are systemic diseases such as Parkinson's disease, diabetes, infection, and cancer; depression, and other psychiatric disorders; abnormal chemical values; and effects of various medications. Many of these factors are reversible if recognized and assessed early. Cholesterol and albumin measurements may help confirm the diagnosis of malnutrition. Nutrition-promoting interventions that you can recommend include increasing exercise, raising levels of fluid and nitrogen intake, avoiding constipation through dietary and lifestyle changes, and recommending routine dental examinations.
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PMID:The malnourished older patient: when and how to intervene. 832 14

The present work reports the synthesis and preliminary pharmacological characterization of 8,9-dihydroxy-2,3,7,11b-tetrahydro-1H-naph[1,2,3-de] isoquinoline (4, dinapsoline). This molecule was designed to conserve the essential elements contained in our D1 agonist pharmacophore model (i.e., position and orientation of the nitrogen, hydroxyls, and phenyl rings). It involved taking the backbone of dihydrexidine [3; (+/-)-trans-10, 11-dihydroxy-5,6,6a,7,8,12b-hexahydrobenzo[a] phenanthridine], the first high-affinity full D1 agonist, and tethering the two phenyl rings of dihydrexidine through a methylene bridge and removing the C(7)-C(8) ethano bridge. Preliminary molecular modeling studies demonstrated that these modifications conserved the essential elements of the hypothesized pharmacopore. Dinapsoline 4 had almost identical affinity (KI = 5.9 nM) to 3 at rat striatal D1 receptors and had a shallow competition curve (nH = 0.66) that suggested agonist properties. Consistent with this, in both rat striatum and C-6-mD1 cells, dinapsoline 4 was a full agonist with an EC50 of ca. 30 nM in stimulating synthesis of cAMP via D1 receptors. The design and synthesis of dinapsoline 4 provide a powerful test of the model of the D1 pharmacophore we have developed and provide another chemical series that can be useful probes for the study of D1 receptors. An interesting property of 3 is that it also has relatively high D2 affinity (K0.5 = 50 nM) despite having an accessory phenyl ring usually though to convey D1 selectivity. Dinapsoline 4 was found to have even higher affinity for the D2 receptor (K0.5 = 31 nM) than 3. Because of the high affinity of 4 for D2 receptors, it and its analogs can be powerful tools for exploring the mechanisms of "functional selectivity" (i.e., that 3 is an agonist at some D2 receptors, but an antagonist at others). Together, these data suggest that 4 and its derivatives may be powerful tools in the study of dopamine receptor function and also have potential clinical utility in Parkinson's disease and other conditions where perturbation of dopamine receptors is useful.
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PMID:9-Dihydroxy-2,3,7,11b-tetrahydro-1H-naph[1,2,3-de]isoquinoline: a potent full dopamine D1 agonist containing a rigid-beta-phenyldopamine pharmacophore. 855 26

A series of pyrazolo[4,3-e]-1,2,4-triazolo[1,5-c]pyrimidine derivatives (10a-o,q,r), bearing alkyl and aralkyl chains on positions 7 and 8, were synthesized in the attempt to obtain potent and selective antagonists for the A(2A) adenosine receptor subtype. The compounds were tested in binding and functional assays to evaluate their potency for the A(2A) compared with the A1 adenosine receptor subtype. In binding studies in rat brain membranes, most of the compounds showed affinity for A(2A) receptors in the low nanomolar range with a different degree of A(2A) versus A1 selectivity. Comparison of N(7) (10a-d,h-o)- and N(8) (10e-g)-substituted pyrazolo derivatives indicates that N(7) substitution decreases the A1 affinity with the concomitant increase of A(2A) selectivity. Specifically, the introduction of a 3-phenylpropyl group at pyrazolo nitrogen in position 7 (101) increased significantly the A(2A) selectivity, being 210-fold, while the A(2A) receptor affinity remained high (Ki=2.4 nM). With regards to the affinity for A(2A) receptors, also the compound 10n, bearing in the 7-position a beta-morpholin-4-ylethyl group, deserves attention (Ki=5.6 nM) even though the A2A selectivity (84-fold) was not as high as that of 101. Conversely, the compound 10m (N(7)-4-phenylbutyl derivative) showed a remarkable selectivity (A1/a(2A) ratio = 129) associated with lower A(2A) affinity (Ki = 21 nM). In functional studies, most of the compounds examined reversed 5'-(N-ethylcarbamoyl) adenosine-induced inhibition of rabbit platelet aggregation inhibition which is a biological response mediated by the A2A receptor subtype. The compounds are potent and selective A2A antagonists which can be useful to elucidate the pathophysiological role of this adenosine receptor subtype. These compounds deserve to be further developed to assess their potential for treatment of neurodegenerative disorders such as Parkinson's disease.
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PMID:Pyrazolo[4,3-e]-1,2,4-triazolo[1,5-c]pyrimidine derivatives: potent and selective A(2A) adenosine antagonists. 867 54

Cryopreservation may allow long-term storage of fetal ventral mesencephalon (VM) for transplantation in patients suffering from Parkinson's disease (PD). We investigated whether the polymer methylcellulose protects fetal rat VM during cryopreservation in liquid nitrogen and improves survival and function of this tissue as intrastriatal suspension grafts in the 6-hydroxydopamine (6-OHDA) rat model. VM tissue fragments (E14-E15) were either immediately dissociated and grafted as a cell suspension (FRESH) or cryopreserved under controlled conditions for 7 days in a conventional cryoprotective medium (CRYO) or a medium containing 0.1% methylcellulose (mCRYO) and then dissociated and grafted. Rats from the cryo-groups showed only limited behavioral compensation in contrast to complete compensation observed in rats from the FRESH group. Cryopreservation of fetal rat VM decreased the viability of cell suspensions in vitro to about 70%, survival of grafted tyrosine hydroxylase-immunoreactive (TH-IR) neurons to 11% and 20%, and transplant volume to 8% and 17% (mCRYO and CRYO, respectively, compared to FRESH). The addition of 0.1% methylcellulose to tissue fragments during freezing did neither improve in vitro viability nor survival of TH-IR neurons nor behavioral compensation when compared to the control CRYO group. These results suggest that methylcellulose failed to improve survival of cryopreserved dopaminergic ventral mesencephalic neurons.
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PMID:Methylcellulose during cryopreservation of ventral mesencephalic tissue fragments fails to improve survival and function of cell suspension grafts. 869 78

We studied nitrogen radical nitric oxide (.NO) release and reactive oxygen species (ROS) production by isolated neutrophils after phorbol myristate acetate (PMA) stimulation in 12 newly diagnosed and nine treated Parkinson's disease (PD) patients and 10 age-matched healthy controls. Neutrophils of both groups of PD patients had an elevated PMA-activated release of .NO [61 and 57%, respectively, higher than that of controls (p < 0.05)]. In contrast, H2O2 release was only significantly increased by 56% in chronically treated patients. In agreement, the maximum rate of luminol-dependent chemiluminescence, which partly represents O2- H2O2- .NO interactions, was increased only in the treated group. When other blood markers of oxidative stress were compared, only erythrocyte catalase activity was decreased in both PD patient series by 33 and 39%, respectively (p < 0.05), whereas plasma antioxidant capacity and erythrocyte superoxide dismutase activity levels were decreased only in treated PD patients. This study suggests that neutrophils express a primary alteration of .NO release in PD patients, whereas H2O2 and oxidative-stress parameters are more probably related to the evolution of PD or to effects of treatment with L-dopa.
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PMID:Neutrophil function, nitric oxide, and blood oxidative stress in Parkinson's disease. 872 42

Although intracerebral grafting has become established as a new strategy for the treatment of Parkinson's disease, there are many problems regarding such grafts. We focused on the grafting of primary skin fibroblasts. Rat primary skin fibroblasts were transfected with a retrovirus vector containing cDNA of human tyrosine hydroxylase (TH) type 1 (LTHSNL) or of cytomegalovirus promoter (CTHSNL) as a foreign promoter. In these genetically modified fibroblasts, L-DOPA production and release were analyzed in vitro by immunocytochemistry and high-performance liquid chromatography with electrochemical detection (HPLC-ECD). Being supplemented with the biopterin (BH4:(6R)-L-erythro-tetrahydrobiopterin) cofactors required for TH activity, these cells produced and released L-DOPA into the culture medium. When CTHSNL and BH4 were combined, L-DOPA production increased with time, regardless of the number of cell passages, or the duration of liquid nitrogen freezing. This suggests that the foreign gene (THcDNA) containing retrovirus vector integrates into the chromosomal DNA of the target cells (fibroblasts). Primary fibroblasts can be easily obtained and cultured. Thus, genetically modified primary skin fibroblasts transfected with a retrovirus vector system containing the TH cDNA may be promising grafts for transplantation and gene therapy in Parkinson's disease.
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PMID:Regulation of L-DOPA production by genetically modified primary fibroblasts transfected with retrovirus vector system. 888 19

To examine whether simple beta-carbolines induce parkinsonian-like symptoms in vivo via N-methylation, the simple beta-carbolines norharman (NH), 2-mono-N-methylated norharmanium cation (2-MeNH+), and 9-mono-N'-methylnorharman (9-MeNH) were systematically administered to C57BL/6 mice for 7 days. These substances induced bradykinesia with reduction of locomotion activity. NH or 2-MeNH+ decreased dopamine (DA) contents to 50-70% of values in controls in the striatum and midbrain. 9-MeNH potently decreased not only DA but also serotonin content in various regions. Immunohistochemical examination revealed that the numbers of tyrosine hydroxylase (TH)-positive cells in the substantia nigra pars compacta of NH- and 9-MeNH-treated mice were diminished to 76 and 66% of values in control mice, respectively. The formation of a toxic metabolite, 2,9-di-N,N'-methylated norharmanium cation (2,9-Me2NH+), was 14 and eight times higher in the brain of mice receiving 9-MeNH than that in NH- and 2-MeNH+-treated mice, respectively. In cultured mesencephalic cells from rat embryo, 2,9-Me2NH+ selectively killed TH-positive neurons only at a lower dose but was toxic to all neurons at higher doses. Thus, the excess formation of 2,9-Me2NH+ would induce nonspecific neurotoxicity. These results indicated that 9-indole nitrogen methylation should be the limiting step in the development of the toxicity. NH, a selective dopaminergic toxin precursor, is sequentially methylated to form 2,9-Me2NH+, which could be an underlying factor in idiopathic Parkinson's disease.
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PMID:Endogenously occurring beta-carboline induces parkinsonism in nonprimate animals: a possible causative protoxin in idiopathic Parkinson's disease. 945 68

The reactivity of catecholamines with nitrogen oxides formed from NO in aerated solutions, nitrite, and peroxynitrite was evaluated. Dopamine and norepinephrine in aerobic buffer (pH 7.4) were almost completely converted to their 6-nitro-derivatives by nitric oxide (NO) at room temperature, while epinephrine was nitrated and above all oxidized. The products obtained from each catecholamine treated with sodium nitrite at pH 4-7 were compared to those produced by NO at pH 7.4. Peroxynitrite, which can nitrate tyrosinyl residues, did not produce nitro-derivatives, only oxidized ones. The physiological relevance, particularly for the vascular and nervous system, is discussed. Catecholamine oxidation reactions could be relevant to physiological conditions and also explain neurotoxicity in Parkinson's disease and aging. Nitration reactions, requiring such high NO concentrations, do not seem possible to occur directly under normal physiological conditions, but could take place in acidic vesicules where nitrite, catecholamines, and their nitrated products could accumulate. Finally, the ability of dopamine to increase 2',5'-cyclic adenosine monophosphate (cAMP) formation in cultured striatal neurons was blocked by its nitration by NO or its nitrogen oxide derivatives.
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PMID:Oxidation and nitration of catecholamines by nitrogen oxides derived from nitric oxide. 1063 29

The present report proposes the hypothesis that increased levels of neurodegenerative disorders in humans may have arisen due to inclusion in the diet of methionine sulfoximine (MSO), a byproduct of the bleaching of flour by nitrogen trichloride. This method of bleaching, the 'agene process' was in use from early in the century and continued until at least 1949/1950. Estimates indicate that, at least in the UK, as much as 80% of all flour during this period was produced by this process. MSO acts directly to inhibit the production of two crucial molecules, glutathione (GSH) and glutamine. Decreases in GSH, a key antioxidant and free radical scavenger, diminish the body's antioxidant defenses and may lead to increased oxidative stress. Decreases in glutamine synthesis may act to increase free glutamate and give rise to increased levels of ammonia. Cells in the nervous system are particularly sensitive to a decline in either GSH or glutamine. The combined effects of decreases in these molecules, particularly with long-term exposure to MSO in bleached flour, may have had quite drastic effects on neuronal health and survival. The present hypothesis may provide clues to the etiology of neurological disorders such as Alzheimer's disease (AD), Parkinson's disease (PD) and amyotrophic lateral sclerosis (ALS), suggesting that such disorders may arise in part due to toxic actions of some compounds in processed human foods.
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PMID:Did consumption of flour bleached by the agene process contribute to the incidence of neurological disease? 1005 66


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