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 first disease due to disturbances in a cell organelle was discovered in 1959-62, and its basis was loose-coupling of oxidative phosphorylation in the skeletal muscle mitochondria accompanied by severe alterations of their structure (Luft's disease). During the 1980s, functional disturbances and structural alterations in the mitochondria were observed in more than 100 disease entities, mainly in parts of the central nervous system and skeletal muscles. A second breakthrough in this area was the discovery in 1963-64 that mitochondria had their own DNA, mtDNA. Following the observation in 1988 of mutations of mtDNA in mitochondrial diseases, such mutations--mainly deletions and point mutations--were observed in almost all mitochondrial diseases. A remarkable extension of the area is the notion that "normal" ageing is accompanied by decreased oxidative phosphorylation and the appearance of mtDNA mutations. During the last two years, such changes have been demonstrated in diseased states in tissues and organs, which are especially reliant on oxygen supply: in the central nervous system (Parkinson's disease, some types of epilepsy and seizures, Huntington's disease, possibly also in Alzheimer's disease); in heart muscle (cardiomyopathies) and in skeletal muscle. Type 2 diabetes or NIDDM engages two tissues most reliant on oxygen consumption, the pancreatic islets (insulin secretion) and skeletal muscle (insulin sensitivity). Both these functions are genetically determined, the latter to a high degree also controlled by "environmental" factors. The evident age factor in the development of NIDDM could be on a par with the "normal" ageing process.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Physiopathology of mitochondria. From Luft's disease to aging and diabetes]. 836 14

An alteration within the mitochondrial DNA (mtDNA) has been hypothesized to underlie the deficiencies in mitochondrial complex I activity observed in the platelets, striatal muscle, and brain tissue of individuals with Parkinson's disease. Here we utilized the polymerase chain reaction (PCR) to analyze mtDNA obtained from the platelets of nonmedicated patients with early Parkinson's disease (n = 8) and aged-matched controls (n = 6) for the presence of deletion(s) or addition(s) equal to or greater than 50-100 base pairs. Initial attention was focused upon detecting a 4.977 kb deletion previously found in the brains of parkinsonian patients and some aged controls. Indeed, a large deletion of approximately 5.0 kb was observed in the platelet mtDNA from all parkinsonian individuals. However, this defect was also found in all age-matched controls as well as in a group of young healthy subjects (n = 5). In addition, we searched for the presence of smaller changes in platelet mtDNA from parkinsonian patients by PCR analysis of four mtDNA segments that code for seven of the complex I polypeptides. No large deletions or additions were detected within these four regions of mtDNA in any of the disease or age-matched control samples. We conclude that (a) a 4.977 kb deletion is apparently present in a subpopulation of platelet mtDNA from all individuals, and (b) no macrosequence alteration in mtDNA is likely to underlie the deficiency in complex I activity reported in platelet mitochondria from parkinsonian patients.
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PMID:PCR analysis of platelet mtDNA: lack of specific changes in Parkinson's disease. 813 99

Positional cloning strategies for identification of disease genes include genetic linkage analysis in disease families and identification of individuals in whom the disease is associated with a specific chromosomal anomaly. Once a genomic region likely to contain the disease gene has been identified, overlapping genomic clones are isolated and the candidate gene sought. Somatic gene therapy entails introduction of the cloned gene into somatic cells to either replace genetically defective functions or alter pathological disease processes. Transfer of the gene may be accomplished by either DNA- or viral-mediated methods into a variety of tissue targets. Once the success and reliability of ongoing gene therapy trials for various human diseases is established, it may then be considered in the prevention and treatment of chronic, disabling diseases such as Alzheimer's disease, Parkinson's disease, arthritis, and diabetes as well as intervention of immunosenescence, when the relevant genes have been cloned. Ethical considerations for gene therapy for aging are similar to those for gene therapy in general. In addition, the ethics of gene therapy for treating diseases versus intervention of the normal aging process must be considered.
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PMID:Identification of disease genes and somatic gene therapy: an overview and prospects for the aged. 848 9

Oxidation of catecholamines may lead to the formation of o-semiquinones and o-quinones in catecholaminergic brain tissues, and these reactive molecules may form DNA or protein adducts. In this study, cultured cells were treated with dopamine (DA) for 24 h and 32P-postlabelling was used to detect DA-DNA adducts. In HL-60 cells, 250 microM DA induced 8.5 DNA adducts/10(8) nucleotides; adduct formation was dose-dependent up to 500 microM DA. Addition of H2O2 increased the relative adduct levels 7- to 13-fold, but no adducts were detected when DA and ascorbic acid were added simultaneously. In human glioblastoma cell lines U87, U251, SF-763 and SF-767, 1000 microM DA produced 0.98-2.31 adducts/10(8) nucleotides. These results suggest that the formation of DNA adducts by DA may contribute to the development of certain neurodegenerative diseases such as Parkinson's disease.
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PMID:Detection of dopamine--DNA adducts: potential role in Parkinson's disease. 850 13

Apolipoprotein E (APOE) is a lipoprotein expressed in liver and brain as one of three isoforms (APOE 2, APOE 3 and APOE 4). Recent findings suggest that the presence of APOE 4 is associated with an increased risk for both familial Alzheimer's disease and late-onset Alzheimer's disease. We extended these observations by determining the frequency of APOE alleles in patients with pathologically confirmed Alzheimer's Disease (AD), Parkinson's disease (PD), diffuse Lewy Body disease (DLBD), AD with concomitant PD pathology, demented PD patients without or with concomitant AD pathology and in schizophrenics with a progressive dementia (SCHIZ+DEM). The APOE genotype was determined by restriction digestion of polymerase chain reaction-amplified DNA isolated from frozen brain samples. The frequency of the APOE epsilon 4 allele was highest among sporadic AD and DLBD patients (0.30 and 0.38, respectively) and lowest in the SCHIZ+DEM and non-demented PD patients (0.06 and 0.1, respectively). Thus, the APOE epsilon 4 allele is over-represented selectively in patients with dementias associated with plaques and tangles and/or cortical Lewy bodies, but not in demented schizophrenics or non-demented PD patients.
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PMID:Association of apolipoprotein epsilon 4 allele and neuropathologic findings in patients with dementia. 852 96

In 1946, the differential diagnosis of cognitive failure resided in the hands of psychiatrists. Not until the late 1960s was permanent doubt cast on the arteriosclerotic origins of dementia. Neuro-diagnostic studies 50 years ago were limited to skull x-rays. Many neurologic signs that would now be considered indicative of Parkinson's disease (PD) were thought in 1946 to typify old age. The diagnosis of PD was made on clinical grounds, and in that regard little has changed. For treatment of PD, textbooks then had little to offer, compared with the wide range of drug therapies available today. Unknown in the mid-1940s, the molecular biology of DNA now allows practitioners a glimpse at the highly complex and multifactorial origins of Alzheimer's disease.
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PMID:Parkinson's and Alzheimer's: new tools, new attitudes in patient care. 854

Lipofectin-mediated gene transfer was used to introduce plasmid harboring the tyrosine hydroxylase (TH) gene into the striatum of rats with lesions of the nigrostriatal pathway. The rotational asymmetry of Parkinson disease model rat was reduced quickly and significantly, suggesting that plasmid-DNA-transfected brain cells can generate L-dopa locally in the striatum in quantities sufficient to compensate partially for the loss of intrinsic striatal dopaminergic input. Immunohistochemical staining and reverse transcription polymerase chain reaction (RT-PCR) also confirm that striatal cells can express exogenous TH gene. Such in vivo plasmid DNA transfer strategy may be useful in other neurologic disease therapy, especially acute brain insults.
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PMID:Gene therapy of Parkinson disease model rat by direct injection of plasmid DNA-lipofectin complex. 857 22

The paradox of aerobic life, or the 'Oxygen Paradox', is that higher eukaryotic aerobic organisms cannot exist without oxygen, yet oxygen is inherently dangerous to their existence. This 'dark side' of oxygen relates directly to the fact that each oxygen atom has one unpaired electron in its outer valence shell, and molecular oxygen has two unpaired electrons. Thus atomic oxygen is a free radical and molecular oxygen is a (free) bi-radical. Concerted tetravalent reduction of oxygen by the mitochondrial electron-transport chain, to produce water, is considered to be a relatively safe process; however, the univalent reduction of oxygen generates reactive intermediates. The reductive environment of the cellular milieu provides ample opportunities for oxygen to undergo unscheduled univalent reduction. Thus the superoxide anion radical, hydrogen peroxide and the extremely reactive hydroxyl radical are common products of life in an aerobic environment, and these agents appear to be responsible for oxygen toxicity. To survive in such an unfriendly oxygen environment, living organisms generate--or garner from their surroundings--a variety of water- and lipid-soluble antioxidant compounds. Additionally, a series of antioxidant enzymes, whose role is to intercept and inactivate reactive oxygen intermediates, is synthesized by all known aerobic organisms. Although extremely important, the antioxidant enzymes and compounds are not completely effective in preventing oxidative damage. To deal with the damage that does still occur, a series of damage removal/repair enzymes, for proteins, lipids and DNA, is synthesized. Finally, since oxidative stress levels may vary from time to time, organisms are able to adapt to such fluctuating stresses by inducing the synthesis of antioxidant enzymes and damage removal/repair enzymes. In a perfect world the story would end here; unfortunately, biology is seldom so precise. The reality appears to be that, despite the valiant antioxidant and repair mechanisms described above, oxidative damage remains an inescapable outcome of aerobic existence. In recent years oxidative stress has been implicated in a wide variety of degenerative processes, diseases and syndromes, including the following: mutagenesis, cell transformation and cancer; atherosclerosis, arteriosclerosis, heart attacks, strokes and ischaemia/reperfusion injury; chronic inflammatory diseases, such as rheumatoid arthritis, lupus erythematosus and psoriatic arthritis; acute inflammatory problems, such as wound healing; photo-oxidative stresses to the eye, such as cataract; central-nervous-system disorders, such as certain forms of familial amyotrophic lateral sclerosis, certain glutathione peroxidase-linked adolescent seizures, Parkinson's disease and Alzheimer's dementia; and a wide variety of age-related disorders, perhaps even including factors underlying the aging process itself. Some of these oxidation-linked diseases or disorders can be exacerbated, perhaps even initiated, by numerous environmental pro-oxidants and/or pro-oxidant drugs and foods. Alternatively, compounds found in certain foods may be able to significantly bolster biological resistance against oxidants. Currently, great interest centres on the possible protective value of a wide variety of plant-derived antioxidant compounds, particularly those from fruits and vegetables.
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PMID:Oxidative stress: the paradox of aerobic life. 866 Mar 87

The diagnosis of movement disorders is essentially clinical. Work-up depends on patient age, part of the body affected, drug response, and presence of other systemic or neurologic symptoms and signs. Typical Parkinson's disease, essential tremor, and tics need only minimal work-up if any. Brain magnetic resonance imaging/computed tomography, positron emission tomography and single photon emission computed tomography, and DNA studies are promising diagnostic tools. Exclusion of Wilson's disease and neuroacanthocytosis is emphasized in children and young adults with movement disorders.
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PMID:Diagnostic testing in movement disorders. 867 42

Neurotransplantation of human fetal dopamine (DA) neurons is currently being investigated as a therapeutic modality for Parkinson's disease (PD). However, the practical limitations of human fetal transplantation indicate a need for alternative methodologies. Using the 6-hydroxydopamine rat model of PD, we transplanted dopaminergic neurons derived from Embryonic Day 27 porcine fetuses into the denervated striatum of cyclosporine-A (CyA)-treated or non-CyA-treated rats. Functional recovery was assessed by amphetamine-induced rotation, and graft survival and morphology were analyzed using neuronal and glial immunostaining as well as in situ hybridization with a porcine repeat element DNA probe. A significant, sustained reduction in amphetamine-induced rotational asymmetry was present in the CyA-treated rats whereas the non-CyA-treated rats showed a transient behavioral recovery. The degree of rotational recovery was highly correlated to the number of surviving transplanted porcine dopaminergic neurons. TH+ neuronal survival and graft volume were significantly greater in the CyA-treated group as compared to the non-CyA group. By donor-specific neuronal and glial immunostaining as well as donor-specific DNA labeling, we demonstrate that porcine fetal neuroblasts are able to survive in the adult brain of immunosuppressed rats, mediate functional recovery, and extensively reinnervate the host striatum. These findings suggest that porcine DA neurons may be a suitable alternative to the use of human fetal tissue in neurotransplantation for PD.
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PMID:Xenotransplantation of porcine fetal ventral mesencephalon in a rat model of Parkinson's disease: functional recovery and graft morphology. 868 73


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