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)

An antiserum against cabergoline, a powerful dopamine-agonist under clinical trials for the treatment of Parkinson's disease and hyperprolactinemia, has been raised in rabbits by immunization with an immunogen produced by conjugation of cabergoline to bovine serum albumin. The antiserum was able to bind a derivative of cabergoline labelled with tritium and was able to distinguish the drug molecule from some of its close related compounds and from other agents that could be simultaneously present in plasma from patients undergoing treatment with cabergoline. The antiserum and the tritium labelled hapten were used to develop a radioimmunoassay for cabergoline determination in human plasma and urine. A linear relationship between cabergoline added and % radioactivity bound was found in the range 1.9-500 pg/tube. The addition in the assay of 200 microliters human plasma or 25 microliters urine did not affect the specific and the non-specific binding of the radiolabelled hapten so enabling us to obtain a final sensitivity of about 12 pg/ml plasma and 120 pg/ml urine. The assay was validated in terms of reproducibility, precision and accuracy over the whole range of concentrations tested both in plasma and urine. The plasma concentrations at the steady state in a patient with Parkinson's disease who had received the drug at single oral daily doses of 3, 5 and 7 mg were determined using the assay.
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PMID:Radioimmunoassay for the synthetic ergoline derivative cabergoline in biological fluids. 135 73

Serum prolactin (HPR) levels are influenced by waking and sleep states, as reflected by surges in serum concentrations during daytime naps and nocturnal sleep. Other physiological causes of hyperprolactinemia include sexual activity, pregnancy, and lactation. Drugs may stimulate or inhibit HPR secretion. Pathological causes for HPR secretion include destructive lesions of the hypothalamus, prolactin-secreting neoplasms of the pituitary gland, lesions of the spinal cord, and occasionally Parkinson's disease. The most predictable postictal changes are increased serum cortisol levels and hyperprolactinemia. Serum HPR rises after virtually all generalized tonic-clonic seizures, most complex partial seizures, and some simple partial seizures. Absence and myoclonic seizures do not affect serum HPR levels. Repeated epileptic seizures and electroconvulsive therapy treatments produce successively less marked rises in serum HPR. The postictal elevation of serum cortisol has a longer latency than for HPR and follows an earlier rise in serum ACTH. Other postictal hormonal changes are much more variable. Because of the normal diurnal variation in serum cortisol levels and the relative delay in the postictal elevation of serum cortisol, HPR is more useful as a diagnostic measure of epileptic seizures. This application of HPR requires an understanding of other factors that influence serum HPR and the use of baseline serum HPR levels for comparison. HPR data must be correlated with behavioral and electroencephalographic events.
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PMID:The effect of seizures on hormones. 165 82

Bromocriptine, or 2-bromo-alpha-ergocryptine, is a semisynthetic ergot alkaloid. The basis of its therapeutic application in endocrine and neurological diseases is its action as a potent dopamine agonist. Its ability to inhibit prolactin secretion has led to its successful use in suppression of puerperal lactation and in the treatment of pathological hyperprolactinaemia causing galactorrhoea, infertility or hypogonadism. It has been shown to be safe in pregnancy. The ability of bromocriptine to reduce the size of large prolactin-secreting pituitary tumours has resulted in the recovery of pituitary function and correction of visual field defects. Bromocriptine is less effective in acromegaly but is useful as adjuvant therapy to radiotherapy and/or surgery which has been the standard mode of treatment. It has been shown to be efficacious either alone or in combination with levodopa in the treatment of Parkinson's disease. Therapy with low doses appears to be effective and is associated with a significantly reduced incidence of side effects. The successful use of bromocriptine has also been reported for the treatment of non-functioning pituitary tumours, premenstrual syndrome, cyclical mastalgia, luteal phase insufficiency and portal-systemic encephalopathy, although its role in the treatment of these latter disorders remains uncertain until more extensive and adequately controlled trials have been conducted.
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PMID:Therapeutic applications of bromocriptine in endocrine and neurological diseases. 306 95

Bromocriptine (2-Br-alpha-ergocryptine), a partial ergoline derivative, is a dopamine agonist which has been used successfully in the treatment of hyperprolactinemia, acromegaly and Parkinson's disease. The main targets for the action of the drug are the hypothalamic, hypophyseal pathway and the striatum. These regions contain different populations of neurons which interact with each other in a complex way. In order to check the mechanism of these interactions in rats, we administered different neuroactive drugs together with bromocriptine. After a single intraperitoneal injection, bromocriptine concentration in the striatum was 13.1 +/- 2.9 ng/mg protein, and in the hypothalamus 13.9 +/- 0.8 ng/mg protein. The largest increase in the bromocriptine content in the striatum was found after the concomitant administration of naloxone, an opiate receptor blocker (21.2 +/- 2.5 ng/mg protein). The largest increase of the bromocriptine content in the hypothalamus was found after the concomitant injection of methysergide, a serotonin receptor blocker (27.8 +/- 2.6 ng/mg protein). Amantadine, diazepam and haloperidol caused the largest decrease in the two regions. The mechanism of interaction and therapeutic implication of these findings are discussed.
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PMID:Selective regional effect of various neuroactive drugs on bromocriptine concentration in the brain of rats. 381 35

The main mechanisms of action of ergot alkaloids are discussed. Their clinical use (migraine, uterine haemorrhage, orthostatic hypotension, senile cerebral insufficiency, hyperprolactinaemia or Parkinson's disease) and their adverse effects are explained by an affinity for three kinds of central and peripheral receptors: alpha adrenergic, serotoninergic or dopaminergic receptors.
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PMID:[Pharmacological basis for the therapeutic use of ergot alkaloids]. 613 14

Bromocriptine, a specific dopamine receptor agonist, has been used for the treatment of various hyperprolactinemic conditions and as adjunctive therapy for acromegaly (with or without concomitant hyperprolactinemia) and Parkinson's disease. Bromocriptine is extremely effective in suppressing prolactin secretion regardless of the cause, in restoring gonadal function and fertility, and in decreasing the size of prolactin-secreting pituitary tumors. Most patients with acromegaly have clinical improvement with this drug. When bromocriptine is added to a regimen of levodopa or carbidopa, patients with Parkinson's disease frequently have additional clinical improvement and, in most patients, the levodopa or carbidopa dose can be reduced. Withdrawal of bromocriptine therapy is associated in most patients with reversal of its beneficial effects--return of hyperprolactinemia, return of excess growth hormone secretion, and exacerbation of Parkinson's disease.
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PMID:Drugs five years later. Bromocriptine. 622 5

The tolerance and prolactin (PRL) release-inhibiting action of the 8 alpha-aminoergoline, mesurlergine, were investigated. In a blind crossover study in six subjects with hyperprolactinemia, 0.5 mg mesulergine induced fewer side effects than did 2.5 mg bromocriptine, while the PRL release-inhibiting effect of the two was of the same order. Six different subjects with suspected PRL-secreting pituitary adenomas who (repeatedly) had to discontinue bromocriptine because of nausea, vomiting, or symptoms of orthostatic hypotension were treated for 20 mo with mesulergine (1 to 2 mg/day). Mesulergine did not induce side effects and its actions resembled those of bromocriptine. Mesulergine induced cessation of galactorrhea and resumption of normal menstrual cycles in five subjects, while in one subject an insufficient luteal phase persisted. No abnormalities in routine blood parameter estimations were observed. In two of three subjects there was shrinkage of a pituitary tumor after 12 to 15 mo on mesulergine. Mesulergine did not directly inhibit PRL release by cultured normal rat pituitary cells and human prolactinoma cells and it antagonized the action of dopamine in a dose-dependent manner. This suggests that the dopaminergic action is carried out by a metabolite of mesulergine, while the parent drug probably prevents the well-known side effects of dopamine-agonistic drugs by its dopamine receptor blocking activity. Because of its acceptability, mesulergine might be important in the treatment of hyperprolactinemia and perhaps also of acromegaly and Parkinson's disease.
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PMID:Mechanism of action and tolerance of mesulergine. 648 83

Pergolide mesylate is a potent dopamine agonist that is being evaluated clinically in Parkinson disease, hyperprolactinemia, and other diseases. Pergolide activates both presynaptic and postsynaptic dopamine receptors, with some apparent selectivity for the presynaptic dopamine autoreceptors. In rats, low doses of pergolide (0.01 mg/kg or less, intraperitoneally) decreased dopamine turnover in brain, decreased serum prolactin concentration, and reduced blood pressure in spontaneously hypertensive rats. At somewhat higher doses (0.05 mg/kg or more, intraperitoneally), pergolide caused contralateral turning in nigrostriatal-lesioned rats, elevation of serum corticosterone, and hypermotility with stereotyped behavior. All of these actions are thought to be due to stimulation of dopamine receptors at various sites, but the data suggest that pergolide may have preferential affinity for presynaptic dopamine receptors. If low doses of pergolide can reduce dopaminergic transmission by activating presynaptic receptors that control dopamine release, then this action might be therapeutically useful in treating schizophrenia without causing tardive dyskinesia or in the treatment of tardive dyskinesia. The long duration of action of pergolide seen in animal and human studies could be an important advantage over some other dopamine agonists such as apomorphine.
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PMID:Degree of selectivity of pergolide as an agonist at presynaptic versus postsynaptic dopamine receptors: implications for prevention or treatment of tardive dyskinesia. 717 59

Bromocriptine, used in the treatment of acromegaly, hyperprolactinemia and Parkinson's disease, may be responsible in this last case, for pleuro-pulmonary complications in higher doses. Since 1981 about thirty cases were described. It was mostly pleural effusions, pleural thickening and parenchymal lung fibrosis. The prevalence of pleuro-pulmonary diseases is between 2 to 5% after 5 years with bromocriptine that varied in dosage from 20 to 90 mg daily. The patients developed symptoms from nine months to four years. We report a case of a patient treated for one year for Parkinson's disease with daily dose of 105 mg of bromocriptine in whom bilateral pulmonary infiltrate was discovered with a deterioration in the general physical state and dyspnea. There was a favorable clinical and chest roentgenogram outcome following the cessation of treatment, in six months. The hypotheses to explain the pathogenesis of these disorders were always discussed: a vascular theory, an immunological theory or a toxic fibrogenesis induced by the molecule acting on dopaminergic receptors and serotonergic synapses. Now, in our knowledge, these complications justify a clinical and chest roentgenogram follow up for any patients treated with bromocriptine.
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PMID:[Diffuse interstitial lung disease without pleural involvement and high-dose bromocriptine]. 948 Apr 88

Dopamine is a biogenic amine synthesized in the hypothalamus, in the arcuate nucleus, the caudad, and various areas of the central and peripheral nervous system. It has been widely established that dopamine and its agonists play an important role in cardiovascular, renal, hormonal, and central nervous system regulation through stimulation of alpha and beta adrenergic and dopaminergic receptors. There are several agonists of dopamine-2 (DA 2 ) dopaminergic receptors, such as bromocriptine, pergolide, lisuride, quinpirole, and carmoxirole, which inhibit norepinephrine release and produce a decrease in arterial blood pressure; in some cases, bromocriptine and pergolide also reduce heart rate. From a therapeutic point of view, the above-mentioned agonists are used for treating Parkinson's disease, acting over DA 2 dopaminergic receptors of the nigrostriatal system. Bromocriptine and the other dopaminergic agonists mentioned act over DA 2 receptors of the tuberoinfundibular system, inhibiting prolactin release and decreasing hyperprolactinemia and tumor size. Among DA 1 receptor agonists, we can mention fenoldopam, piribedil, ibopamine, SKF 3893, and apomorphine (nonspecific). Activation of these receptors decreases peripheral resistance, inducing lowering of arterial blood pressure and increases in heart rate, sympathetic tone, and activity of the renin aldosterone system. Among DA 2 receptor antagonists, we can mention metoclopramide, domperidone, sulpiride, and haloperidol. From a therapeutic point of view, metoclopramide and domperidone are used in gastric motility disorders, and haloperidol is used in psychotic alterations. Antagonists of DA 1 receptors are SCH23390 and clozapine. Clozapine is used for treating schizophrenia.
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PMID:Dopamine: pharmacologic and therapeutic aspects. 1009 36


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