UNIPROT:P01189 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of 310 courses of corticotropin, methylprednisolone, prednisone, and dexamethasone were studied in 62 patients with generalized myasthenia gravis who were poorly responsive to anticholinesterase medication and most of whom required assisted respiration. Improvement in strength and response to anticholinesterase medication occurred in 91% of the courses, and was moderate or marked in 63%. The incidence, degree, and duration of improvement appeared to be dose related. High doses of dexamethasone (20 mg orally each day for 10 days, repeated if necessary), which had 75% more glucocorticoid effect than any other regimen studied, produced the highest incidence of both improvement (100%) and moderate-to-marked improvement (75%), and the greatest duration of improvement (more than 3 months after 40% of the courses). The duration of improvement following intensive courses of any of the corticosteroids was approximately doubled by the subsequent administration of smaller doses of dexamethasone or prednisone on alternate days. Most patients with severe disease relapsed after 3 to 6 months of corticosteroid treatment, but increase in the dose of corticosteroid, and daily administration, which was more effective than alternate-day administratin, almost always again resulted in improvement. Corticotropin and corticosteroids were equally effective before and after thymectomy. High doses of corticotropin and corticosteroid produced an initial exacerbation of the disease in 80% of the courses, which was moderate or marked in 57%. Reduction in dose reduced the incidence of severe exacerbation, but did not prevent it, and also resulted in slower and less marked improvement. Withholding anticholinesterase medication did not prevent exacerbation or increase improvement, and afforded no advantage, though it was usually helpful to reduce the dose of this medication. Because of the hazard of initial exacerbation and the occurrence of other serious side effects in 15% of the patients. (bleeding ulcer, vertebral compression, aseptic necrosis of the femoral head or tibia, and subcapsular cataracts), it is recommended that corticosteroid treatment be limited to myasthenic patients who are not responding satifactorily to anticholinesterase medication, that smaller doses be employed in patients whose disease is not life threatening, and that higher doses be reserved for patients who are critically ill and are being managed, at least initially, in an intensive care unit.
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PMID:Corticotropin and corticosteroids in generalized myasthenia gravis: comparative studies and role in management. 18 90

The term "Schilder's disease" has been used to describe conditions as disparate as adrenoleukodystrophy, myelinoclastic diffuse sclerosis, and postinfectious and postvaccinal encephalomyelitis. The eponymic designation should be reserved for instances of myelinoclastic diffuse sclerosis that correspond to the case described by Schilder in 1912. The diagnosis cannot be made unless adrenoleukodystrophy has been ruled out by analysis of the long-chain fatty acids of plasma cholesterol esters. Schilder's myelinoclastic diffuse sclerosis, a variant of multiple sclerosis, is a very rare disease that occurs in children and adults of both sexes and appears to respond to vigorous treatment with corticosteroids and/or corticotropin. A case of this disease is reported and the recent literature of cases that have been called Schilder's disease is reviewed.
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PMID:Schilder's myelinoclastic diffuse sclerosis. 394 Mar 47

The efficacies of corticosteroids and azathioprine (part 1) and of cyclophosphamide, immune globulin, cyclosporine, interferons, copolymer 1, and cladribine (part 2) in patients with multiple sclerosis (MS) are reviewed. MS is an inflammatory, demyelinating disease of the CNS that commonly affects young adults. The involvement of various immune mechanisms in MS suggests a role for immunomodulating therapy. The goals of immunotherapy vary with the clinical stage of the disease and include (1) improving recovery from exacerbations, (2) decreasing the number or severity of relapses, (3) preventing the development of chronic progressive disease from a relapsing-remitting course, and (4) decreasing further progression in patients with chronic progressive disease. In clinical trials, corticotropin and corticosteroids have been found to accelerate recovery from exacerbations. Tapering is often effective after high-dose induction therapy. Long-term maintenance regimens do not alter disease progression and are not recommended. Azathioprine produces modest benefits with respect to relapse rates and disease progression after two or more years of treatment; adverse effects are mild to moderate. Azathioprine should not be used in patients with aggressive disease who may approach severe disability in 6-18 months. Cyclophosphamide, because of its modest impact on disease progression and its potentially severe adverse effects, including cancer, should be reserved for patients with aggressive relapsing-remitting or chronic progressive disease in whom other treatments have failed to work; maintenance therapy is necessary after induction. Intravenous immune globulin may benefit patients with severe relapses; however, its efficacy remains unproven. Cyclosporine also cannot be recommended because of its modest efficacy, marked adverse effects, and high cost. Interferon beta-1b is a more specific immunotherapy that has been found to decrease the number and severity of relapses. This treatment should be considered in patients with relapsing-remitting disease who are having two or more exacerbations per year. Copolymer 1 and cladribine have shown some promising early results. Although various immunotherapeutic drugs can provide relief in patients with MS, none is capable of reversing disease progression, and some can cause serious adverse effects. Better understanding of the immunologic basis of MS may lead to more specific immunotherapies with more lasting benefits.
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PMID:Immunotherapy in multiple sclerosis, Part 1. 852 66

The efficacies of corticosteroids and azathioprine (part 1) and of cyclophosphamide, immune globulin, cyclosporine, interferons, copolymer 1, and cladribine (part 2) in patients with multiple sclerosis (MS) are reviewed. MS is an inflammatory, demyelinating disease of the CNS that commonly affects young adults. The involvement of various immune mechanisms in MS suggests a role for immunomodulating therapy. The goals of immunotherapy vary with the clinical stage of the disease and include (1) improving recovery from exacerbations, (2) decreasing the number or severity of relapses, (3) preventing the development of chronic progressive disease from a relapsing-remitting course, and (4) decreasing further progression in patients with chronic progressive disease. In clinical trials, corticotropin and corticosteroids have been found to accelerate recovery from exacerbations. Tapering is often effective after high-dose induction therapy. Long-term maintenance regimens do not alter disease progression and are not recommended. Azathioprine produces modest benefits with respect to relapse rates and disease progression after two or more years of treatment; adverse effects are mild to moderate. Azathioprine should not be used in patients with aggressive disease who may approach severe disability in 6-18 months. Cyclophosphamide, because of its modest impact on disease progression and its potentially severe adverse effects, including cancer, should be reserved for patients with aggressive relapsing-remitting or chronic progressive disease in whom other treatments have failed to work; maintenance therapy is necessary after induction. Intravenous immune globulin may benefit patients with severe relapses; however, its efficacy remains unproven. Cyclosporine also cannot be recommended because of its modest efficacy, marked adverse effects, and high cost. Interferon beta-1b is a more specific immunotherapy that has been found to decrease the number and severity of relapses. This treatment should be considered in patients with relapsing-remitting disease who are having two or more exacerbations per year. Copolymer 1 and cladribine have shown some promising early results. Although various immunotherapeutic drugs can provide relief in patients with MS, none is capable of reversing disease progression, and some can cause serious adverse effects. Better understanding of the immunologic basis of MS may lead to more specific immunotherapies with more lasting benefits.
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PMID:Immunotherapy in multiple sclerosis, Part 2. 853 45

The durable effectiveness of intrathecal morphine administration is well established for the management of intractable cancer pain, after failure of systemic opioids, secondary to the persistence of non-reversible undesirable side effects. Many patients are referred to late in the disease course. This conservative method to control pain of malignant origin must not be reserved for last resort treatment for terminal patients. Intra-cerebro-ventricular morphine administration is a very effective and generally safe method for controlling intractable cancer pain. Because of the chronic implantation of an intra-ventricular catheter this method is somewhat invasive. Its indications remain a simple and effective alternative when the topography of nociceptive pain is diffuse or cephalic. In clinical practice, intrathecal and/or intra-cerebro-ventricular administration of opioids is limited by cost, the need for specialized maintenance and mechanical malfunctions if implantable drug delivery systems, or by the risk of bacterial contamination and ambulatory constraints when repeated daily injections via an intrathecal access port are used. To answer these limitations, cell therapy using intrathecal chromaffin cell allograft is a promising approach for the management of cancer pain refractory to traditional drug therapy and pain lesion surgery. The basic rationale and preclinical studies on experimental pain models have enabled starting prospective clinical trials. Prior to transplantation, handling and preparation of the chromaffin tissue is critical for allograft viability. The initial results of clinical trials with human chromaffin cell grafts from intractable cancer pain have reported long-lasting pain relief, in correlation with met-enkephalin release into the CSF. Convincing evidence will require controlled studies. The limitations of this innovative cell therapy and especially the lack of human adrenal gland availability point to the need for new sources of cells. Perspectives include xenogenic or engineered cell lines.
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PMID:[Management of intractable cancer pain: from intrathecal morphine to cell allograft]. 1108 78

Infantile spasms are the main feature in West syndrome, an age-related epilepsy syndrome that affects 1 in every 2,000-4,000 infants. The authors provide a comprehensive review of the literature about infantile spasms and their therapy. In the United States, the drug of choice for infantile spasms, at least the cryptogenic cases, has been adrenocorticotropic hormone (ACTH). It is generally considered to be more effective than corticosteroids. Adrenocorticotropic hormone appears to alter long-term prognosis of cryptogenic infantile spasms, and helps in some cases of symptomatic infantile spasm. Vigabatrin has been considered the drug of choice for infantile spasms secondary to tuberous sclerosis, and possibly, according to many neurologists, for all cases of infantile spasm. Recent concerns regarding retinopathy associated with vigabatrin therapy are, however, limiting the use of this drug. Valproic acid benefits 40%-70% of patients who failed a trial of ACTH. Nitrazepam is as effective as ACTH in acutely controlling infantile spasms; however, its long-term effects on prognosis have not been studied. Pyridoxine, lamotrigine, topiramate, zonisamide, ketogenic diet, immunoglobulin therapy, felbamate, and thyrotropin-releasing hormone have all been used for the treatment of infantile spasms, but are usually reserved for cases refractory to vigabatrin and/or ACTH.
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PMID:Medical treatment of patients with infantile spasms. 1198 Dec 30

Treating dementia of the Alzheimer's type is a terrible challenge that will require an innovative pharmacological strategy simultaneously addressing symptoms and causes of the complex neurodegenerative process involved in Alzheimer's disease. The present review will outline the most recent data, albeit restricted to preliminary preclinical studies, suggesting that the sigma(1) receptor agonist may present some efficacy. The sigma(1) receptor is a unique intraneuronal protein that modulates intracellular Ca(2+) mobilization and extracellular Ca(2+) influx, leading to a wide spectrum of neuromodulatory activity. At the behavioral level, sigma(1)-receptor agonists are antiamnesic and anti-depressant drugs. The sigma(1) receptor is also one of the receptors at which neurosteroids act to exert their rapid nongenomic effects in the brain. In particular, dehydroepiandrosterone (DHEA) is an endogenous sigma(1) agonist and progesterone, a potent antagonist of the sigma(1) receptor. The beta-amyloid protein-related toxicity induces important disturbances of neurosteroid syntheses and releases mechanisms, particularly by affecting the corticotropin-releasing hormone systems. In turn, sigma(1)-receptor agonists showed an enhanced efficacy in animal models of Alzheimer's disease-related learning impairments or depressive responses. In addition, selective sigma(1) agonists, as well as DHEA, showed marked neuroprotective activity in vitro against oxidative stress-related damages. Acting chronically through the sigma(1) receptor may indeed offer a new way to alleviate the cognitive disturbances observed in Alzheimer's disease and promote long-term improvements. (c) 2002 Prous Science. All rights reserved.
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PMID:Improving Alzheimer's Disease-Related Cognitive Deficits with sigma1 Receptor Agonists. 1267 46

Medical therapy with a dopamine agonist is the most effective for treatment of a prolactin-producing adenoma and is considered as primary treatment. Surgery and pituitary radiation are reserved for patients who either do not tolerate or do not respond to a dopamine agonist drug. A somatostatin analogue is effective medical therapy for patients with acromegaly, and this is usually administered if there is persistent GH hypersecretion after surgical resection. Medical treatment for patients with Cushing's disease is directed at the adrenal glands to reduce cortisol hypersecretion. Unfortunately, there is no effective medical therapy to reduce pituitary corticotropin production. Medical therapy for a gonadotrope adenoma with a dopamine agonist or somatostatin analogue has limited utility but is employed in patients who are unable to undergo surgery and may delay or prevent additional tumor growth. Many patients with a pituitary adenoma can be successfully treated with one treatment, either a dopamine agonist for a prolactinoma or surgery for other types of tumors. A substantial number of patients require multimodality therapy, however, including medical therapy, surgery, and pituitary radiation. Because the biologic behavior of pituitary adenomas varies considerably, a patient with a pituitary adenoma requires lifelong regular monitoring for hormone hypersecretion, tumor recurrence, and development of new pituitary hormone deficiency. A coordinated plan of care among endocrinologists, neurosurgeons, neuroophthalmologists, and radiation therapists is necessary to provide optimal care for these patients.
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PMID:Medical treatment of functional pituitary tumors. 1269 Sep 80

Landau-Kleffner syndrome (LKS) is an acquired epileptic aphasia disorder in which children, usually 3-8 years of age who have developed age-appropriate speech, experience language regression with verbal auditory agnosia, abnormal epileptiform activity, behavioral disturbances, and sometimes overt seizures. There are no controlled clinical trials investigating the therapeutic options for LKS. Only open-label data are available. Early diagnosis and initiation of prompt medical treatment appear to be important to achieving better long-term prognosis.Several antiepileptic drugs have been reported to be beneficial in treating this syndrome. These include valproic acid (valproate sodium), diazepam, ethosuximide, clobazam, and clonazepam. Reports on the efficacy of lamotrigine, sultiame, felbamate, nicardipine, vigabatrin, levetiracetam, vagal nerve stimulation, and a ketogenic diet are few and more experience is needed. Carbamazepine and possibly phenobarbital and phenytoin have been reported to occasionally exacerbate the syndrome. As initial therapy, valproic acid or diazepam is often empirically chosen. Subsequently, other antiepileptic drugs, corticosteroids, or intravenous immunoglobulin (IVIG) therapy are often used. Corticosteroid therapy should probably not be delayed more than 1-2 months after the initial diagnosis. Various corticosteroid regimens including oral prednisone and, recently, high doses of intravenous pulse corticosteroids, as well as corticotropin (adrenocorticotropic hormone) have been reported to be effective in LKS. Oral corticosteroids are used more often and usually need to be maintained for a long period of time to prevent relapses. The use of IVIG has been associated with an initial dramatic response in only a few patients. In our experience, a long-term worthwhile improvement has been noted in only 2 of 11 patients. These two patients had an immediate response to IVIG initially and after relapses before eventually achieving a long-term sustained remission. Surgical treatment by multiple subpial transection, which is reserved for patients who have not responded to multiple medical therapies, has been followed in selected cases by a marked improvement in language skills and behavior. However, a widely accepted consensus about suitable candidates for this surgery and about its efficacy is still lacking. Speech therapy, including sign language, and a number of classroom and behavioral interventions are helpful in managing LKS, and should be used in all patients.
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PMID:Management of Landau-Kleffner syndrome. 1635 25

A good deal is now known about the neural circuitry involved in how conditioned fear can augment a simple reflex (fear-potentiated startle). This involves visual or auditory as well as shock pathways that project via the thalamus and perirhinal or insular cortex to the basolateral amygdala (BLA). The BLA projects to the central (CeA) and medial (MeA) nuclei of the amygdala, which project indirectly to a particular part of the acoustic startle pathway in the brainstem. N-methyl-D-aspartate (NMDA) receptors, as well as various intracellular cascades in the amygdala, are critical for fear learning, which is then mediated by glutamate acting in the CeA. Less predictable stimuli, such as a long-duration bright light or a fearful context, activate the BLA, which projects to the bed nucleus of the stria terminalis (BNST), which projects to the startle pathway much as the CeA does. The anxiogenic peptide corticotropin-releasing hormone increases startle by acting directly in the BNST. CeA-mediated behaviors may represent stimulus-specific fear, whereas BNST-mediated behaviors are more akin to anxiety. NMDA receptors are also involved in extinction of conditioned fear, and both extinction in rats and exposure-based psychotherapy in humans are facilitated by an NMDA-partial agonist called D-cycloserine. ((c) 2006 APA, all rights reserved).
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PMID:Neural systems involved in fear and anxiety measured with fear-potentiated startle. 1711 6

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