Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous animal and human studies have suggested an analgesic effect of phenylalanine involving endogenous opioid peptides. Phenylalanine was measured by a HPLC method with electrochemical detection and
beta-endorphin
by a specific radioimmunoassay in 14 lumbar cerebrospinal fluid samples from 13 patients with
phenylketonuria
. Cerebrospinal fluid
beta-endorphin
was also determined in 6 age-matched control subjects. We found a trend towards a higher
beta-endorphin
level in
phenylketonuria
(median 26.0 pM, range 13.0-37.8) than in the control subjects (20.6 pM, 12.7-28.0), P = 0.13. Cerebrospinal fluid concentrations of phenylalanine and
beta-endorphin
were significantly correlated (r = 0.68, P = 0.008). The results support the hypothesis that phenylalanine modifies the central endogenous opioid system.
...
PMID:Correlation between cerebrospinal fluid phenylalanine and beta-endorphin in patients with phenylketonuria. 192 62
An hypothesis of increased endorphinergic activity has been proposed to account for the characteristic symptoms of Rett syndrome. Cerebrospinal fluid samples from eight girls with Rett syndrome were analysed for
beta-endorphin
(beta-EP) immunoactivity and compared with samples from a control group of 15 children with acute leukaemia in remission. Severity of symptoms was not found to be related to beta-EP level. A group of early-treated adolescents with
phenylketonuria
had beta-EP levels similar to the Rett syndrome patients, but no symptoms resembling theirs. Therefore it is unlikely that increased levels of beta-EP are of primary pathogenetic significance. The conflicting findings of many earlier reports may be a result of differences between control groups.
...
PMID:Cerebrospinal fluid beta-endorphin in Rett syndrome. 206 27
Microencapsulated genetically engineered cells have the potential to treat a wide range of diseases. For example, in experimental animals, implanted microencapsulated cells have been used to secrete growth hormone to treat dwarfism, neurotrophic factors for amyotrophic lateral sclerosis,
beta-endorphin
to decrease pain, factor XI for hemophilia B, and nerve growth factors to protect axotomized neurons. For some applications, microencapsulated cells can even be given orally. They can be engineered to remove unwanted molecules from the body as they travel through the intestine, and are finally excreted in the stool without being retained in the body. This application has enormous potential for the removal of urea in kidney failure, ammonia in liver failure and amino acids such as phenylalanine in
phenylketonuria
and other inborn errors of metabolism.
...
PMID:Therapeutic uses of microencapsulated genetically engineered cells. 961 2
Infantile spasms are an epilepsy syndrome with distinctive features, including age onset during infancy, characteristic epileptic spasms, and specific electroencephalographic patterns (interictal hypsarrhythmia and ictal voltage suppression).
Adrenocorticotropic hormone
(
ACTH
) was first employed to treat infantile spasms in 1958, and since then it has been tried in prospective and retrospective studies for infantile spasms. Oral corticosteroids were also used in a few studies for infantile spasms. Variable success in cessation of infantile spasms and normalization of electroencephalograms was demonstrated. However, frequent significant adverse effects are associated with
ACTH
and oral corticosteroids. Vigabatrin has been used since the 1990s, and shown to be successful in resolution of infantile spasms, especially for infantile spasms associated with tuberous sclerosis. It is associated with visual field constriction, which is often asymptomatic and requires perimetric visual field study to identify. When
ACTH
, oral corticosteroids, and vigabatrin fail to induce cessation of infantile spasms, other alternative treatments include valproic acid, nitrazepam, pyridoxine, topiramate, zonisamide, lamotrigine, levetiracetam, felbamate, ganaxolone, liposteroid, thyrotropin-releasing hormone, intravenous immunoglobulin and a ketogenic diet. Rarely, infantile spasms in association with biotinidase deficiency,
phenylketonuria
, and pyridoxine-dependent seizures are successfully treated with biotin, a low phenylalanine diet, and pyridoxine, respectively. For medically intractable infantile spasms, some properly selected patients may have complete cessation of infantile spasms with appropriate surgical treatments.
...
PMID:Current trends in the treatment of infantile spasms. 1955 23
