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 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

Bromocriptine, a dopamine D2 receptor agonist, is widely used for treating prolactinoma, Parkinson's disease and galactorrhea. However, the influence of bromocriptine on the endocrine system, especially adrenal function, is not clear. The present study was aimed to investigate the effects of bromocriptine on corticosterone production in rats. Male rats were treated or not treated by bromocriptine (5 mg/kg, s.c.) twice per day for 2 days before decapitation. The adrenal zona fasciculata-reticularis cells were prepared and incubated with adrenocorticotropic hormone (ACTH), forskolin (an adenylyl cyclase activator), 8-bromo-adenosine 3':5' cyclic monophosphate (8-Br-cAMP, a membrane-permeable analogue of cAMP), and steroidogenic precursors including 25-OH-cholesterol and pregnenolone. The concentrations of prolactin, corticosterone and pregnenolone in the plasma and/or medium were measured by radioimmunoassay (RIA). The protein expression of cytochrome P450 side-chain cleavage (P450scc) enzyme and steroidogenic acute regulatory protein (StAR) was analyzed by Western blotting. Administration of bromocriptine in vivo resulted in a decrease in the levels of plasma prolactin and corticosterone. Basal--and ACTH--as well as forskolin-stimulated corticosterone secretion by zona fasciculata-reticularis cells was also lower in bromocriptine-treated rats than in control animals. The decreased production of corticosterone in zona fasciculata-reticularis cells could be reversed by administration of 8-Br-cAMP. The corticosterone and pregnenolone release induced by 25-OH-cholesterol in zona fasciculata-reticularis cells was reduced by administration of bromocriptine. The protein expression of both StAR protein and P450scc in zona fasciculata-reticularis cells was inhibited in the bromocriptine-treated group. Administration of bromocriptine in vitro reduced the release of corticosterone stimulated by ACTH and forskolin in rat zona fasciculata-reticularis cells. These results suggested that bromocriptine caused adrenal dysfunction through inhibition of ACTH action and of the activity of adenylyl cyclase, and impaired the early steps of corticosterone biosynthesis.
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PMID:Inhibitory effects of bromocriptine on corticosterone secretion in male rats. 1274 21

HFS has become a widely used method in functional neurosurgery. However, its mechanism is not well understood, and its cellular and molecular effects have not yet been investigated. The aim of the study was to understand which cellular events, unrelated to the network organization of cells or neurons, participate in the mechanism of action of HFS. In vitro cellular effects of high (HFS) and low (LFS) frequency electrical stimulation on prolactin secretion in GH3 cell lines (prolactinoma), as well as the catecholaminergic secretion on PC12 cells (pheochromocytoma) were investigated. Cells were cultured in dishes with integrated electrodes to deliver stimulation at the same parameters as those used in clinical conditions to treat advanced forms of Parkinson's disease. Prolactin production was measured in GH3 using a Radio-Immuno-Assay. Dopamine, epinephrine and norepinephrine were measured in PC12 using Enzymo-immuno-assays. HFS for 24 hours reduced prolactin secretion by 40.3%, dopamine by 32.7%, epinephrine by 18.1% (non significant) and norepinephrine by 27.0%. LFS did not induce significant changes. These results suggest that HFS has an inhibitory impact on the cellular machinery responsible for hormone and neurotransmitter production. In this model of isolated cultured cells, network interactions and particularly presynaptic actions are discarded. HFS has inhibitory effects on cellular mechanisms responsible for the production and release of molecules participating in intercellular communication. This HFS-induced inhibition might participate in the lesion-like effect of therapeutic HFS in the basal ganglia during various movement disorders.
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PMID:Alteration of hormone and neurotransmitter production in cultured cells by high and low frequency electrical stimulation. 1717 Dec 96

The increased risk of cardiac valve disease in patients treated for Parkinson's disease with cabergoline has raised concerns about the safety of treatment with ergot-derived dopamine agonists in patients with endocrine diseases, especially prolactinoma. Six cross-sectional studies have been published recently, of which five studies do not show an association between the treatment of prolactinoma with cabergoline during 45-79 months and clinically relevant valvular regurgitation in a total of 413 patients. Nonetheless, concern is raised because the use of cabergoline was associated in one study with an increased prevalence of moderate tricuspid regurgitation, and in two other studies with mild tricuspid regurgitation. Furthermore, the use of cabergoline was associated with increased frequencies of valvular thickening, calcifications and increased mitral tenting area. At present, the clinical relevance of these findings is still uncertain, but concern is raised with respect to the safety of the use of cabergoline in the long-term treatment of prolactinomas. Echocardiographic evaluation should be considered in patients, who require long-term treatment with cabergoline, especially in high doses. There is a need for larger, preferably prospective, studies with careful echocardiographic assessment and with longer durations of follow-up than the currently available studies.
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PMID:Cabergoline and cardiac valve disease in prolactinoma patients: additional studies during long-term treatment are required. 1870 68

Prolactinomas are a frequent cause of gonadal dysfunction and infertility, especially in women. Dopamine agonists are first-line therapy and their efficacy in the treatment of prolactinomas is well established. Current challenges related to the management of prolactinomas remain in the recurrence of the disease after withdrawal of dopamine agonists, the potential of increased risk of cardiac valvulopathy, which is observed in patients treated with high-dose cabergoline for Parkinson's disease, the effects of pregnancy, and impaired quality of life associated with pituitary adenomas in general, and prolactinomas in particular. Although most prolactinomas are biochemically well controlled by pharmaceutical treatment, long-term follow-up is required.
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PMID:Update in prolactinomas. 2030 4

Pituitary adenomas are associated with a variety of clinical manifestations resulting from excessive hormone secretion and tumor mass effects, and require a multidisciplinary management approach. This article discusses the treatment modalities for the management of patients with a prolactinoma, Cushing's disease and acromegaly, and summarizes the options for medical therapy in these patients.First-line treatment of prolactinomas is pharmacotherapy with dopamine agonists; recent reports of cardiac valve abnormalities associated with this class of medication in Parkinson's disease has prompted study in hyperprolactinemic populations. Patients with resistance to dopamine agonists may require other treatment.First-line treatment of Cushing's disease is pituitary surgery by a surgeon with experience in this condition. Current medical options for Cushing's disease block adrenal cortisol production, but do not treat the underlying disease. Pituitary-directed medical therapies are now being explored. In several small studies, the dopamine agonist cabergoline normalized urinary free cortisol in some patients. The multi-receptor targeted somatostatin analogue pasireotide (SOM230) shows promise as a pituitary-directed medical therapy in Cushing's disease; further studies will determine its efficacy and safety. Radiation therapy, with medical adrenal blockade while awaiting the effects of radiation, and bilateral adrenalectomy remain standard treatment options for patients not cured with pituitary surgery.In patients with acromegaly, surgery remains the first-line treatment option when the tumor is likely to be completely resected, or for debulking, especially when the tumor is compressing neurovisual structures. Primary therapy with somatostatin analogues has been used in some patients with large extrasellar tumors not amenable to surgical cure, patients at high surgical risk and patients who decline surgery. Pegvisomant is indicated in patients who have not responded to surgery and other medical therapy, although there are regional differences in when it is prescribed.In conclusion, the treatment of patients with pituitary adenomas requires a multidisciplinary approach. Dopamine agonists are an effective first-line medical therapy in most patients with a prolactinoma, and somatostatin analogues can be used as first-line therapy in selected patients with acromegaly. Current medical therapies for Cushing's disease primarily focus on adrenal blockade of cortisol production, although pasireotide and cabergoline show promise as pituitary-directed medical therapy for Cushing's disease; further long-term evaluation of efficacy and safety is important.
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PMID:Prolactinomas, Cushing's disease and acromegaly: debating the role of medical therapy for secretory pituitary adenomas. 2047 50

Dopamine agonist therapy has been the cornerstone treatment for prolactinoma since the 1970s, replacing surgery in the primary management of this condition. These agents are effective in the management of prolactin excess, have a low side-effect profile, and in some cases may even be curative. However, recent studies of high dose dopamine agonists used in Parkinson's disease have raised the possibility that these drugs may be associated with cardiac valvulopathy. This paper discusses the modern use of dopamine agonists in a patient with prolactinoma.
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PMID:Dopamine agonists in the treatment of prolactinoma: are they still first choice? 2243 4

Prolactinomas represent the most frequent pituitary adenomas. Dopaminergic agonists, especially cabergoline, are the first choice treatment. The efficacy of cabergoline in the normalization of prolactin level and in the tumoral volume reduction is well documented. Following more than two years of cabergoline treatment, in case the level of prolactin is normalized and the MRI shows no tumor residue, the medication can be withdrawn with chance of remission. Valvular heart disease has been associated with cabergoline in patients with Parkinson's disease. However due to the lack of systematic data on the subject, cabergoline is still prescribed in case of prolactinoma. Echocardiography could be proposed as a follow up diagnostics to the subjects treated with high dose of cabergoline for a long period.
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PMID:[Management of prolactinomas: what's new in 2010?]. 2130 69

The increased risk of cardiac valve disease in patients treated for Parkinson's disease with cabergoline has raised concerns about the safety of treatment with ergot-derived dopamine agonists in patients with endocrine diseases, especially prolactinoma. Concern is raised because the use of cabergoline was associated in one study with an increased prevalence of moderate tricuspid regurgitation, and in two other studies with mild tricuspid regurgitation. Furthermore, the use of cabergoline was associated with increased frequencies of valvular thickening, calcifications, and increased mitral tenting area.
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PMID:Cabergoline-induced tricuspid regurgitation: Case report and review of literature. 2173 77

Problems with impulse control and pathological gambling are known as possible side effects of dopaminergic therapy in patients with Parkinson's disease. We report 2 cases of pathological gambling induced by dopamine agonists in patients without Parkinson's disease. The first patient, a 46-year-old man, was treated with ropinirole for restless legs syndrome and had lost huge amounts of money in the context of internet-based poker game. Another 46-year-old male patient developed pathological gambling under treatment with cabergoline administered for prolactinoma. The two cases implicate pathological gambling as a possible consequence of dopaminergic treatment and support the increasing evidence regarding pathological gambling as an adverse drug reaction of dopaminergic treatment, also in patients who do not suffer from Parkinson's disease.
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PMID:[Pathological gambling induced by dopamine agonists]. 2180 60


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