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)

Animal data indicate that serotonin (5-HT) is a major neurotransmitter involved in the control of numerous central nervous system functions including mood, aggression, pain, anxiety, sleep, memory, eating behavior, addictive behavior, temperature control, endocrine regulation, and motor behavior. Moreover, there is evidence that abnormalities of 5-HT functions are related to the pathophysiology of diverse neurological conditions including Parkinson's disease, tardive dyskinesia, akathisia, dystonia, Huntington's disease, familial tremor, restless legs syndrome, myoclonus, Gilles de la Tourette's syndrome, multiple sclerosis, sleep disorders, and dementia. The psychiatric disorders of schizophrenia, mania, depression, aggressive and self-injurious behavior, obsessive compulsive disorder, seasonal affective disorder, substance abuse, hypersexuality, anxiety disorders, bulimia, childhood hyperactivity, and behavioral disorders in geriatric patients have been linked to impaired central 5-HT functions. Tryptophan, the natural amino acid precursor in 5-HT biosynthesis, increases 5-HT synthesis in the brain and, therefore, may stimulate 5-HT release and function. Since it is a natural constituent of the diet, tryptophan should have low toxicity and produce few side effects. Based on these advantages, dietary tryptophan supplementation has been used in the management of neuropsychiatric disorders with variable success. This review summarizes current clinical use of tryptophan supplementation in neuropsychiatric disorders.
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PMID:L-tryptophan in neuropsychiatric disorders: a review. 130 30

Despite some evidence that neuroleptic medication is overused or misused in long-term care facilities for the elderly, there has been virtually no attention paid to the pattern of use of antidepressants in these facilities. All patients in long-term care in a geriatric hospital and a home for the aged who were receiving antidepressants were identified; 10.5% of the patients in the hospital and 12.7% in the home for the aged were receiving an antidepressant. The rate of use of antidepressants on the different units ranged from 0% to 26.8%. The most commonly prescribed antidepressant was doxepin followed by nortriptyline. The mean dose of antidepressant was 34.8 mg. Although depression was the most common reason for the prescription of an antidepressant (69% of patients receiving one), other reasons included pain, agitation, aggression, and insomnia. Patients had been receiving antidepressants for up to 10 years, with a mean duration of 32 months. The majority of patients (60%) had a history of depression predating their institutional admission. Patients receiving antidepressants were compared to a group not receiving antidepressants, who were matched for age, sex, unit, and attending physician. Patients receiving antidepressants were more likely to have a history of stroke (33.8% versus 16.9%). There was no significant difference between the two groups regarding the prevalence of dementia, Parkinson's disease, thyroid disease, malignant tumor, congestive heart failure, or diabetes mellitus. Prospective studies are required to determine the efficacy of antidepressants in this population and to identify factors that can predict a positive response to treatment.
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PMID:Pattern of use of antidepressants in long-term care facilities for the elderly. 141 68

Pergolide (LY127809, CAS 66104-23-2), a dopamine agonist for the treatment of Parkinson's disease, was evaluated for toxicity in acute, subchronic, and chronic studies. Acute toxicity tests using oral, intravenous and intraperitoneal routes were conducted in rats, mice, rabbits, and dogs. The acute oral median lethal doses (MLD) ranged from 8.4 to 33.6 mg/kg in Wistar and Fischer 344 rats, and from 54.0 to 87.2 mg/kg in ICR mice. Oral doses of 20 and 25 mg/kg produced no mortality in rabbits or dogs, respectively. The MLD by the iv route ranged from 0.59 to 0.87 mg/kg for Fischer 344 rats and from 11.6 to 37.1 mg/kg for ICR mice. The predominant signs of toxicity in the acute studies included hyperactivity, poor grooming, ptosis, aggressive behavior, increased gnawing activity, tremors, convulsions, and emesis. In the subchronic and chronic studies, Fischer 344 rats, B6C3F1 mice, and beagle dogs were administered pergolide either by gavage or in the diet for up to 1 year. Daily doses in these studies ranged up to 20 mg/kg for rats, 45 mg/kg for mice, and 5 mg/kg for dogs. The predominant treatment-related effects seen in these studies were attributable to the pharmacologic activity of pergolide. These consisted primarily of CNS-mediated clinical signs in rats and dogs, weight loss or decreased weight gain, emesis in dogs, and inhibition of lysis of corpora lutea with a corresponding increase in the weight of the uterus and ovaries. Pergolide treatment was not associated with any specific target organ toxicity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Preclinical toxicology studies with the new dopamine agonist pergolide. Acute, subchronic, and chronic evaluations. 819 91

Behavioural disorders are a common feature in dementia, especially in the later stages of the disease. The most frequent disorders are agitation, aggression, paranoid delusions, hallucinations, sleep disorders, including nocturnal wandering, incontinence and (stereotyped) vocalisations or screaming. Behavioural disorders, rather than cognitive disorders, are the main reason why caregivers place patients with dementia in a nursing home. However, although behavioural disorders are important, there is still no international agreement with respect to the description and definition of symptoms and syndromes. This also holds true for the wide variety of scales for quantification and measurement of behavioural disorders. Drug therapy should be considered after possible underlying causes such as physical illness, drug adverse effects and environmental stressors have been ruled out, or specifically addressed, and a behavioural approach has also failed. This article briefly reviews the evidence for non-antipsychotic drug therapies, which include a variety of substances. However, antipsychotics are the group of drugs which have been most frequently studied for the treatment of behavioural syndromes in dementia. Drug responsive symptoms include anxiety, verbal and physical agitation, hallucinations, delusions, uncooperativeness and hostility, whereas wandering, hoarding, unsociability, poor self-care, screaming and other stereotyped behaviour seem to be unresponsive to all drugs. Although the use of classical antipsychotics is limited by extrapyramidal symptoms, anticholinergic adverse effects, sedation and postural hypotension, the newer antipsychotics offer the chance of a better risk:benefit ratio. This article reviews the small amount of data published on the use of the newer antipsychotics, and concludes that risperidone at low dosages (0.5 to 2 mg/day) seems to be especially useful for the treatment of behavioural symptoms in dementia because of its negligible anticholinergic adverse effects. The use of clozapine is limited by its anticholinergic activity, at least in dementia of the Alzheimer and Lewy body types. However, in patients with psychosis arising from Parkinson's disease it seems to be the drug of choice, and similar activity is likely for olanzapine. There are no published data on other newer drugs, such as sertindole, quetiapine or ziprasidone. Future studies should also address questions of dementia heterogeneity and should compare different drug treatments and treatment combinations.
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PMID:Behavioural problems associated with dementia: the role of newer antipsychotics. 1006 7

Alzheimer disease appears to be a stereotyped mode of reaction of the central nervous system to various types of aggression such as different mutations involving various proteins, trisomy 21 or repeated head trauma as in dementia pugilistica. Rather than a disease, it appears to be a clinicopathological syndrome due to various causes. Lesions may be considered under 3 headings: neurofibrillary pathology, A beta peptide deposits and loss (neuronal and synaptic). Neurofibrillary pathology includes the neurofibrillary tangle, the crown of the senile plaque and the neuropil threads. All those lesions are characterized by the same ultrastructure--i.e. the accumulation of paired helical filaments--and the same immunohistochemistry: they are labelled by antibodies directed against the tau proteins. The amyloid deposits, present in the core of the senile plaque and in the vascular walls, are made of a 40 to 42 amino-acids long peptide, named A beta, derived from the amyloid precursor protein (APP). Antibodies directed against the A beta peptide also label diffuse deposits that are devoid of the tinctorial affinities and of the biochemical properties of amyloid substances. Those diffuse deposits are insufficient to cause dementia since they may be observed in high density in aged people without intellectual deterioration. Neuronal loss occurs after neurofibrillary pathology. The role of the synaptic pathology remains discussed. Besides tau proteins, A beta peptide and APP, several other proteins may play an important role: apolipoprotein E which could act as a chaperone protein, inducing or facilitating the formation of amyloid, presenilins 1 and 2, mutated in some cases of familial Alzheimer disease, alpha-synuclein which is present in the Lewy bodies found in Parkinson disease and in dementia with Lewy bodies. The A beta deposits are diffusely distributed in the cerebral cortex; the neurofibrillary changes have a hierarchical distribution. The progression of the neurofibrillary pathology in the various cortical areas follow a stereotyped sequence that may help to grade the severity of the disease. Progression may take decades. The relations between aging and Alzheimer disease are still poorly understood. Frequency of Alzheimer type lesions in old people could suggest that they are the inevitable burden of age, but this has been discussed.
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PMID:[Alzheimer's disease: lesions and their progression]. 1063 34

Degenerative diseases of the basal ganglia, such as Huntington's disease (HD), Parkinson's disease, and Wilson's disease, are characterized by motor, cognitive, and psychiatric manifestations. HD, in particular, can be considered a paradigmatic neuropsychiatric disorder that has all three components of the "Triadic Syndromes": dyskinesia, dementia, and depression. The authors examine the phenomenology, prevalence, and management of psychiatric disturbances occurring in diseases of the basal ganglia. They address psychiatric conditions such as depression, mania, psychosis, obsessive-compulsive disorders, aggression, irritability, apathy, sexual disorders, and delirium, discussing subtleties of diagnosis, and making reference to more unusual disorders of the basal ganglia, such as postencephalitic parkinsonism and Fahr's disease.
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PMID:Neuropsychiatry of Huntington's disease and other basal ganglia disorders. 1066 65

Monoamine oxidase A and B (MAO A and B) are the major neurotransmitter-degrading enzymes in the central nervous system and in peripheral tissues. MAO A and B cDNAs from human, rat, and bovine species have been cloned and their deduced amino acid sequences compared. Comparison of A and B forms of the enzyme shows approximately 70% sequence identity, whereas comparison of the A or B forms across species reveals a higher sequence identity of 87%. Within these sequences, several functional regions have been identified that contain crucial amino acid residues participating in flavin adenine dinucleotide (FAD) or substrate binding. These include a dinucleotide-binding site, a second FAD-binding site, a fingerprint site, the FAD covalent-binding site, an active site, and the membrane-anchoring site. The specific residues that play a role in FAD or substrate binding were identified by comparing sequences in wild-type and variants of MAO with those in soluble flavoproteins of known structures. The genes that encode MAO A and B are closely aligned on the X chromosome (Xp11.23), and have identical exon-intron organization. Immunocytochemical localization studies of MAO A and B in primate brain showed distribution in distinct neurons with diverse physiological functions. A defective MAO A gene has been reported to associate with abnormal aggressive behavior. A deleterious role played by MAO B is the activation of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), a proneurotoxin that can cause a parkinsonian syndrome in mammals. Deprenyl, an inhibitor of MAO B, has been used for the treatment of early-stage Parkinson's disease and provides protection of neurons from age-related decay.
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PMID:Molecular characterization of monoamine oxidases A and B. 1100 87

Patients with neurologic illness frequently develop secondary mood disorders that are broadly categorized as unipolar or bipolar. Accurate diagnosis is essential because the treatment of unipolar disorders is markedly different from that of bipolar disorders. Aggressive treatment of mood disorders improves quality of life, reduces morbidity and mortality, and may prevent worsening of both psychiatric and neurologic disease. Antidepressants and psychotherapy are both effective for patients suffering from depressive disorders. Choice of antidepressant depends on the patient's particular symptom complex; medication side effects, which may exacerbate the underlying neurologic condition; potential interactions with other drugs; and costs. Bipolar disorder associated with neurologic illness typically requires treatment with mood stabilizers such as lithium, divalproex sodium, carbamazepine, or verapamil. Although psychotherapy in combination with pharmacologic therapy improves the outcome in bipolar illness, psychotherapy alone is not effective for this condition. Electroconvulsive therapy is an effective treatment for both depression and mania. It may have particular usefulness in Parkinson's disease, for which it has been shown to improve the movement disorder itself. Treatment of bipolar disorder, psychotic depression, or refractory depression is complicated and should be referred to a psychiatrist.
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PMID:Mood Disorders in Neurologic Illness. 1109 45

Secondary parkinsonism (SP) is caused by an identified structural, toxic, or metabolic mechanism. The first group of SP syndromes includes disorders caused by a primary pathological process in the brain. The second group includes disorders with a primary extrinsic or ubiquitous causal factor resulting either from reversible dysfunction of the basal ganglia or structural disorders related to the predominant or selective vulnerability to aggression of the basal ganglia. The pathophysiological aspects SP are developed here, particularly vascular syndromes and syndromes secondary to hydrocephalus. In both conditions, it is rare that SP resembles Parkinson's disease. The pathophysiology is poorly understood, but would involve, in most cases, corticostratial and/or thalamocortical connections in the basal ganglia system. For the clinician, the practical problem is frequently to determine whether a patient's parkinsonism can be related to an identifiable cause or whether there is an associated Parkinson's disease or other degenerative disease. When both a known cause of parkinsonism and Parkinson's disease are present, the cause may be asymptomatic, reveal Parkinson's disease, have an aggravating effect on the underlying disease, or modify its clinical expression.
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PMID:[Secondary parkinsonian syndromes]. 1277 87

Monoamine oxidase (MAO) is an enzyme that oxidizes various physiologically and pathologically important monoamine neurotransmitters and hormones such as dopamine, noradrenaline, adrenaline, and serotonin. Two types of MAO, i.e. type A (MAO-A) and type B (MAO-B), were first discovered pharmacologically. MAO-A is inhibited by clorgyline; and MAO-B, by deprenyl. cDNAs MAO-A and MAO-B were cloned and their structures determined. MAO-A and MAO-B are made of similar but different polypeptides and encoded by different nuclear genes located on the X chromosome (Xp11.23). MAO-A and MAO-B genes consist of 15 exons with identical intron-exon organization, suggesting that they were derived from a common ancestral gene. Both enzymes require a flavin cofactor, flavin adenine dinucleotide (FAD), which binds to the cysteine residue of a pentapeptide sequence (Ser-Gly-Gly-Cys-Tyr). Both enzymes exist on the outer membrane of mitochondria of various types of cells in various tissues including the brain. In humans, MAO-A is abundant in the brain and liver, whereas the liver, lungs and intestine are rich in MAO-B. MAO-A oxidizes noradrenaline and serotonin; and MAO-B, mainly beta-phenylethylamine. In the human brain, MAO-A exists in catecholaminergic neurons, but MAO-B is found in serotonergic neurons and glial cells. MAO-A knockout mice exhibit increased serotonin levels and aggressive behavior, whereas MAO-B knockout mice show little behavioral change. The gene knockout mice of MAO-A or MAO-B, together with the observation that some humans lack MAO-A, MAO-B, or both have contributed to our understanding of the function of MAO-A and MAO-B in health and disease. MAO-A and MAO-B may be closely related to various neuropsychiatric disorders such as depression and Parkinson's disease, and inhibitors of them are the subject of drug development for such diseases.
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PMID:Progress in monoamine oxidase (MAO) research in relation to genetic engineering. 1469 76


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