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)

There is a short-term up-regulation of beta-adrenoceptors on peripheral blood mononuclear cells (PBMC) after reduction of central sympathetic outflow by clonidine in normal individuals. We have studied beta-adrenoceptor number and affinity on PBMC in idiopathic Parkinson's disease (PD), pure autonomic failure (PAF), and multiple system atrophy (MSA; Shy-Drager syndrome) patients and age- and sex-matched normal controls (NC) before and after intravenous administration of clonidine, an alpha 2-adrenoceptor agonist which lowers blood pressure predominantly by reducing CNS sympathetic outflow. Basal beta-adrenoceptor density was high in PAF but within the normal range in PD and MSA patients. After clonidine there was a decrease in plasma levels of noradrenaline (NA) and adrenaline (Ad) in PD, MSA, and NC, and an increase in growth hormone (GH) in PD, PAF, and NC. NC. In PAF, NA and Ad remained unchanged. In MSA, there was no increase in GH levels. There was an up-regulation of beta-adrenoceptors on PBMC at 30 and 60 minutes after clonidine administration, which returned to baseline values after 2 hours, and the affinity of the receptors was decreased in NC and PD patients. Intracellular production of cAMP after isoproterenol stimulation demonstrated that the up-regulation was not functional. Up-regulation after clonidine did not occur in PAF and MSA patients. The observed correlation of plasma NA and sympathetic defect with basal and clonidine-induced up-regulation of beta-adrenoceptors on PBMC may provide insight into beta-adrenoceptor changes in other tissues and also help in differentiating subgroups of autonomic failure patients.
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PMID:Beta-adrenoceptor expression on circulating mononuclear cells of idiopathic Parkinson's disease and autonomic failure patients before and after reduction of central sympathetic outflow by clonidine. 817 May 65

We have studied the plasmatic levels of the growth hormone (GH) in a control group consisting of 72 subjects with an average age of 69.7 +/- 8.4 years and in a group of 37 patients with an average age of 69.3 +/- 9.6, of which 28 were demented (15 with degenerative dementia and 13 with non-degenerative dementia); 8 suffered from Parkinson's disease, and the rest showed signs of failing memory due to age. When comparing the plasmatic levels of GH between the patients' group and the control group we did not find significant differences between the demented and the control group, nor between the sub-groups of non-degenerative dementia or of those suffering from Parkinson's disease, when compared to the control group. However, we did find a reduction of GH that was statistically significant in the sub-group of degenerative dementia and the control group. This reduction in GH plasmatic values indicates a specific alteration in this type of process, which may be of certain use when searching for a hormonal marker for degenerative type dementia.
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PMID:[Determination of basal GH in dementias]. 854 47

Corticotropin-releasing factor (CRF) plays a major role in coordinating the endocrine, autonomic, behavioral and immune responses to stress through actions in the brain and the periphery. CRF receptors identified in brain, pituitary and spleen have comparable kinetic and pharmacological characteristics, guanine nucleotide sensitivity and adenylate cyclase-stimulating activity. Differences were observed in the molecular mass of the CRF receptor complex between the brain (58,000 Da) and the pituitary and spleen (75,000 Da), which appeared to be due to differential glycosylation of the receptor proteins. The recently cloned CRF receptor in the pituitary and the brain (designated as CRF1) encodes a 415 amino acid protein comprising seven putative membrane-spanning domains and is structurally related to the calcitonin/vasoactive intestinal peptide/growth hormone-releasing hormone subfamily of G-protein-coupled receptors. A second member of the CRF receptor family encoding a 411 amino acid rat brain protein with approximately 70% homology to CRF1 has recently been identified (designated as CRF2); there exists an additional splice variant of the CRF2 receptor with a different N-terminal domain encoding a protein of 431 amino acids. In autoradiographic studies, CRF receptors were localized in highest densities in the anterior and intermediate lobes of the pituitary gland, olfactory bulb, cerebral cortex, amygdala, cerebellum and the macrophage-enriched zones and red pulp regions of the spleen. CRF can modulate the number of CRF receptors in a reciprocal manner. For example, stress and adrenalectomy increase hypothalamic CRF secretion which, in turn, down-regulates CRF receptors in the anterior pituitary. CRF receptors in the brain and pituitary are also altered as a consequence of the development and aging processes. In addition to a physiological role for CRF in integrating the responses of the brain, endocrine and immune systems to physiological, psychological and immunological stimuli, recent clinical data implicate CRF in the etiology and pathophysiology of various endocrine, psychiatric, neurologic and inflammatory illnesses. Hypersecretion of CRF in the brain may contribute to the symptomatology seen in neuropsychiatric disorders, such as depression, anxiety-related disorders and anorexia nervosa. Furthermore, overproduction of CRF at peripheral inflammatory sites, such as synovial joints may contribute to autoimmune diseases such as rheumatoid arthritis. In contrast, deficits in brain CRF are apparent in neurodegenerative disorders, such as Alzheimer's disease, Parkinson's disease and Huntington's disease, as they relate to dysfunction of CRF neurons in the brain areas affected in the particular disorder. Strategies directed at developing CRF-related agents may hold promise for novel therapies for the treatment of these various disorders.
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PMID:Corticotropin-releasing factor receptors: physiology, pharmacology, biochemistry and role in central nervous system and immune disorders. 883 89

The present study investigates dopaminergic sensitivity in Parkinson's disease (PD) through the measurement of neuroendocrine (growth hormone: GH, prolactin: PRL) and cardiovascular (blood pressure: BP, heart rate: HR) responses to low doses of apomorphine (5 micrograms/kg s.c.) in three groups of subjects: 13 normal volunteers (controls), 19 "de novo" never-treated PD patients, and 14 levodopa-treated PD patients. Apomorphine did not change BP and HR but significantly decreased PRL plasma levels in controls as well as in the two groups of PD patients. GH plasma levels significantly increased after apomorphine. There was no significant difference in the changes in neuroendocrine (GH, PRL) parameters in the two groups of PD patients in comparison with controls. However, "de novo" patients exhibited a significantly higher number of apomorphine-induced orthostatic symptoms (7 of 19) than did controls (0 of 13) or treated PD patients (2 of 14). These results show that hypothalamic dopaminergic sensitivity (studied through GH and PRL responses to apomorphine) is normal in PD. In contrast, because apomorphine-induced orthostatic hypotension is mainly due to the stimulation of peripheral dopaminergic receptors, our study suggests a peripheral dopaminergic hypersensitivity in some "de novo" never treated (but not in treated) PD patients.
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PMID:A study of dopaminergic sensitivity in Parkinson's disease: comparison in "de novo" and levodopa-treated patients. 888 85

In order to gain a better insight in the serotonergic disorder affecting the parkinsonian brain, the growth hormone (GH) response to the 5-HT 1 serotonergic receptor agonist sumatriptan was tested. Sumatriptan was injected subcutaneously in 10 de novo parkinsonian patients (aged 58-69 years) and in 9 age-matched normal controls. On different occasions, subjects were also tested with GH-releasing hormone (GH-RH; 1 micrograms/kg body weight in an intravenous bolus) and L-arginine (30 g in 50 ml normal saline over 30 min), which releases GH from somatostatin inhibition, to determine whether GH secretion in response to alternate secretagogues is preserved in Parkinson's disease. In addition, a control test with the administration of normal saline instead of drug treatments was performed. Plasma GH levels were recorded over 2 h in all tests. Placebo administration did not change plasma GH levels in any subject. Similar GH responses were observed in normal controls and parkinsonian patients when GH-RH or arginine were administered. A significant GH increase was observed in normal controls after sumatriptan injection; in contrast, GH secretion was not modified by sumatriptan administration in parkinsonian patients. These data show that Parkinson's disease is associated with an impairment in the 5-HT1-receptor-mediated serotonergic transmission in the control of GH secretion, suggesting that this specific defect might alter other serotonergic-mediated mechanisms in the parkinsonian brain.
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PMID:Defective 5-HT 1-receptor-mediated neurotransmission in the control of growth hormone secretion in Parkinson's disease. 909 98

The observation that baclofen stimulates growth hormone (GH) secretion in normal men, but not in parkinsonian patients led us to test the GH releasing effect of other gamma-amino-butyric acid (GABA)ergic agents with different mechanisms of action in Parkinson's disease. For this purpose 10 normal men and 10 de novo parkinsonian patients were tested with sodium valproate (800 mg PO), gamma-hydroxybutyric acid (GHB) (25 mg/kg body weight PO) and baclofen (10 mg PO). All drugs induced a significant increment in serum GH levels in the normal controls. On the other hand, GH secretion in parkinsonian patients did not change after baclofen or sodium valproate administration, whereas it showed normal responsiveness to GHB. These data suggest that the mechanism underlying the GH response to GHB is different from that (or those) mediating sodium valproate and/or baclofen action. In addition, the former, but not the latter mechanism appears to be preserved in the parkinsonian brain.
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PMID:Different control mechanisms of growth hormone (GH) secretion between gamma-amino- and gamma-hydroxy-butyric acid: neuroendocrine evidence in Parkinson's disease. 937 86

Transplantation has become a successful method for the management of functional failure of a variety of tissues or organs. However, the majority of clinical transplantations use non-autologous allogeneic donor tissue implanted from one human to another. In order to prevent rejection of the allogeneic tissue, methods to overcome the immune barrier are necessary. Although prevention of organ rejection is currently achieved with pharmacological immune suppression, the undesirable side effects of this method have incited interest in novel methods to overcome the immune barrier. One such novel method of preventing immune reaction is immuno-isolation, in which the non-autologous tissues are physically isolated from the host tissues by placement in devices with perm-selective membranes. The membranes of these devices allow release of the therapeutic product required from the transplanted tissues, as well as diffusion of nutrients and waste necessary for survival of the non-autologous tissues. The membranes also prevent host immune mediators from contacting the non-autologous cells, thus preventing immune rejection. This technology has been tested for efficacy in large animal models, and is currently in the process of clinical trials in humans. This review will discuss the progress made in using immuno-isolation of non-autologous tissues in large animals. Immuno-isolation can be subdivided into two major areas of interest based on whether the non-autologous tissue used in the immuno-isolation device is genetically altered (gene therapy) or not. Studies using non-genetically altered non-autologous cells for immune-isolation have been dominated by the use of pancreatic islet cells for the treatment of diabetes. This work has been tested in large animal models of diabetes, including canine and primate model animals, and human clinical trials are underway. As well, there has also been work on treatment of neurological disorders such as Parkinson's disease or chronic pain using non-autologous immuno-isolated adrenal chromaffin cells or dopaminergic PC12 cells in large animals such as sheep and primates. This work will be reviewed in detail as to the types of disorders, immuno-isolation devices used and the type of large animals involved. Immune-isolation for gene therapy is a more recently developed field of research. In this case, the non-autologous cells used are first genetically altered to secrete a recombinant therapeutic product before placement in the immune-isolation devices. Genetic engineering of the non-autologous cells is beneficial, as it allows the use of a cell type that tolerates well the environment of the immune-isolation device, while still delivering the therapeutic product of interest. This form of gene therapy has been tested in our laboratory for delivery of marker products such as human growth hormone to canines. As several large animal models of human genetic disorders are available, such as canines affected with hemophilia or the lysosomal storage disease mucopolysaccharidosis, testing the efficacy of immuno-isolation for gene therapy in large animal models is an important prelude to human clinical trials. This review will discuss the topics outlined above, as well as some further considerations of the usefulness of large animal models in studying immune-isolation for non-autologous transplantation. Large animals may be more appropriate model organisms than rodents in which to study immune-isolation, as issues such as biocompatibility and immune response in a larger animal can be addressed. As well, large animal studies of immune isolation may provide data that are more relevant than rodent studies to the eventual application to human clinical trials.
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PMID:Non-autologous transplantation with immuno-isolation in large animals--a review. 961 31

Four different forms of primary autonomic failure (multiple system atrophy, pure autonomic failure, Parkinson's disease and dopamine beta-hydroxylase deficiency) have been described. The first part of the article will focus on the interest to pharmacology of elucidating pathophysiological mechanisms underlying autonomic involvement at the central level (growth hormone response to clonidine acute challenge), presynaptic level (plasma catecholamine levels after yohimbine administration) and on post-synaptic receptors (binding studies, pressor responses to noradrenaline). The second part will discuss efficacy and side-effects of some of the many drugs which are currently proposed for the treatment of one of the most disabling symptoms related to autonomic failure, orthostatic hypotension. Special attention will be paid to drugs acting on blood composition (fludrocortisone, erythropoietin), on post-synaptic alpha-adrenoceptors (midodrine and clonidine) and on noradrenaline spill-over (yohimbine and L-Threo-DOPS).
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PMID:[Pharmacologic approach to autonomic failure]. 977 98

Clonidine, a centrally active alpha 2-adrenoreceptor agonist used to lower blood pressure, has been proposed to differentiate central from peripheral autonomic deficits and multiple system atrophy (MSA) from untreated idiopathic Parkinson's disease (IPD). A lack of growth hormone (GH) increase after clonidine infusion is found in patients with MSA, but not in those with IPD or with pure autonomic failure. We studied 19 IPD and 7 MSA patients to assess whether this test could be used in clinical practice to distinguish MSA from IPD, whatever the stage of the disease. Serum GH levels were measured 15, 30, 45 and 60 min after a 10-min infusion of 2 micrograms/kg clonidine. GH levels remained stable after clonidine infusion in all 7 MSA patients but increased in only 12 of the 19 IPD patients, while remaining stable in the other 7. No correlation was found with the presence of orthostatic hypotension. We conclude that the GH response to clonidine infusion has a very high sensitivity (100% in our series and in previous studies) for the diagnosis of MSA. However, this response cannot be used as a diagnostic test because of its poor specificity.
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PMID:Is clonidine growth hormone stimulation a good test to differentiate multiple system atrophy from idiopathic Parkinson's disease? 1196 61

Clonidine has been proposed to differentiate multiple system atrophy (MSA) from idiopathic Parkinson's disease (IPD), as it does not increase growth hormone (GH) release in MSA. We studied GH release in response to clonidine in 7 IPD patients, 6 MSA patients, 4 patients affected by idiopathic late-onset cerebellar ataxia (ILOCA) and 8 healthy controls. In addition, we investigated the effects of GH releasing hormone plus arginine (GHRH-Arg) on GH release in the same patients. Both clonidine and GHRH-Arg raised serum GH levels in all groups examined. Clonidine failed to differentiate MSA from IPD and ILOCA. GHRH-Arg showed a lower increase of serum GH in MSA patients than in other groups, even if such difference was not statistically significant. We suggest that stimulation of GH release with GHRH-Arg rather than clonidine could differentiate MSA from IPD and ILOCA, but this hypothesis would need to be confirmed by further investigations.
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PMID:Stimulation of growth hormone release in multiple system atrophy, Parkinson's disease and idiopathic cerebellar ataxia. 1148 11


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