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: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients suffering from deletions of chromosome 18 (p-, q-) show regularly short stature. Endocrinological investigations were performed to prove if short stature is due to pituitary insufficiency. In three female patients with deletions of chromosome 18 and retarded bone age serum growth hormone was investigated after insulin induced hypoglycemia, after glucagon-propranolol and after stimulation with growth hormone releasing hormone. Thyroid function, gonadal function and adrenal function were investigated too. All three patients showed growth hormone deficiency. In one patient there were found in addition hypothyroidism and gonadotrophine deficiency as well. In conclusion growth failure in some patients with deletions of chromosome 18 seems to due to pituitary insufficiency. In these patients treatment with recombinant growth hormone may increase growth velocity.
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PMID:[Endocrinologic disorders in deletion of chromosome 18]. 161 60

Nineteen children and adolescents in long-term complete remission from acute lymphoblastic leukemia (ALL) were studied for hormonal and growth status after cessation of therapy. Cranial irradiation of 600-2,400 cGy was given for C.N.S. prophylaxis in 18 out of 19 patients, and additional irradiation of 2,000 cGy was given to both testes of a prepubertal boy because of testicular infiltration. The time ranges after cranial irradiation and cessation of therapy at the time of study were 61-137 months and 5-127 months respectively. Thyroid hormone, cortisol and peak cortisol response after ACTH stimulation were normal in every tested children. Basal serum gonadotropin and sex steroid values were appropriate in the majority of patients. A child who received testicular irradiation, had elevated levels of gonadotropins. Glucagon stimulation test (GST) and/or L-Dopa propranolol test (DP test) were used to study growth hormone (GH) response. None had peak GH value less than 7 ng/ml. Ten patients had peak GH values of over 15 ng/ml. Nine female patients had normal puberty and regular menstruation. Eight out of ten male children also had normal puberty. All except two male patients had normal linear growth within 2 standard deviations of the mean. The mean attained final height of 11 children was not significantly different when compared to the mean predicted heights obtained from Bayley-Pinneau and Tanner methods. Excessive weight gain during and after cessation of chemotherapy was observed in the majority of children. Continuing long-term review of these children is essential.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hormonal and growth status in long term survivors of acute lymphoblastic leukemia (ALL) in children. 226 52

Thyroid hormone nuclear receptor molecules have been characterized as proteins of approximately 49,000 molecular weight existing in cells attached to chromatin and with 4000-8000 copies per nucleus. They bind T3 with Ka of 0.2 X 10(10) l/mol and show microheterogeneity on isoelectric focusing. Hormone responsiveness varies with receptor content in the nucleus and occupancy of receptor by T3. Recent investigations have shown that the receptors are part of the v-erbA related super family of nuclear hormone receptors. At least two types of T3 receptors (TR) exist, one coded by a gene on chromosome 3 (TR beta) and a second coded on chromosome 17 (hTR alpha). Receptors are low in the fetus and, in the adult, are dramatically reduced by starvation, illness and glucagon. Receptors function through binding of T3 or other hormone analogs to a domain in the carboxyl portion of the protein, and binding of the receptor-T3 complex through 'DNA-fingers' to specific response elements as enhancers and located in the 5'-flanking DNA of thyroid hormone responsive genes. Extensive studies on regulation of rat growth hormone have suggested binding of receptor or associated factors to several positions in the 5'-flanking DNA, and recent studies suggest that a crucial area may be a 15 bp segment between bases -179 and -164. Abnormal receptors are believed to be responsible for the syndrome of generalized resistance to thyroid hormone action, but it is yet unclear as to which form (or forms) of the receptor is abnormal in this syndrome.
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PMID:Thyroid hormone nuclear receptors and their role in the metabolic action of the hormone. 249 27

Thyroid hormones are required for maximal stimulation of lipolysis of fat cells by catecholamines corticotropin and glucagon. Several reasons have been given to explain this fact, but all of them are controversial and still not definitive. It has been proposed that adenosine is an important factor in the low lipolytic response to catecholamines by fat cells of hypothyroid rats. This proposal has been studied with corticotropin. There has been no recuperation of maximal lipolysis when fat cells of hypothyroid rats were stimulated by corticotropin in the presence of adenosine deaminase.
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PMID:Lipolysis by corticotropin in fat cells from hypothyroid rats. Effect of adenosine deaminase. 256 27

Ketone body concentrations fluctuate markedly during physiological and pathological conditions. Tracer techniques have been developed in recent years to study production, utilization, and the metabolic clearance rate of ketone bodies. This review describes data on the roles of insulin, catecholamines, and thyroid hormones in the regulation of ketone body kinetics. The data indicate that insulin lowers ketone body concentrations by three independent mechanisms: first, it inhibits lipolysis, and thus lowers free fatty acid availability for ketogenesis; second, it restrains ketone body production within the liver; third, it enhances peripheral ketone body utilization. To assess these effects in humans in vivo, experimental models were developed to study insulin effects with controlled concentrations of free fatty acids, insulin, glucagon, and ketone bodies. Presently available data also support an important role of catecholamines in increasing ketone body concentrations. Evidence was presented that norepinephrine increases ketogenesis not only by stimulating lipolysis, and thus releasing free fatty acids, but also by increasing intrahepatic ketogenesis. Thyroid hormone availability was associated with lipolysis and ketogenesis. Ketone body concentrations after an overnight fast were only modestly elevated in hyperthyroidism resulting from increased peripheral ketone body clearance. There was a significant correlation between serum triiodothyronine levels and the ketone body metabolic clearance rate. Thus, ketone body homeostasis in human subjects resulted from the interaction of hormones such as insulin, catecholamines, and thyroid hormones regulating lipolysis, intrahepatic ketogenesis, and peripheral ketone body utilization.
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PMID:Human ketone body production and utilization studied using tracer techniques: regulation by free fatty acids, insulin, catecholamines, and thyroid hormones. 265 57

Blood was sampled within 1 min from the hepatic portal vein, caudal vein, and heart (bulbus arteriosus) of individual rainbow trout (N = 26). Blood plasma levels of the pancreatic hormones, insulin, glucagon, and glucagon-like peptide (GLP) and the thyroid hormones, thyroxin and 3,5,3'-triiodo-L-thyronine, were measured by specific radioimmunoassays. Blood levels of insulin, glucagon, and GLP were significantly higher in the portal vein than in either the caudal vein or heart. Thyroid hormone concentrations did not vary between blood vessels. Based on the higher hormone titers in portal blood as compared to blood sampled from the other sites, the liver appears to be exposed to concentrations of pancreatic hormones that are three- to eightfold higher than those experienced by other tissues. There was no statistically significant difference between the caudal vein or the heart in blood concentrations of the different pancreatic hormones, although the average concentration of GLP was higher in the heart (0.22 +/- 0.03 ng/ml) than in the caudal vein (0.15 +/- 0.03 ng/ml). The molar ratio of average blood insulin/GLP concentrations was lower in the heart (3.9) than in either the hepatic portal vein (6.9) or the caudal vein (7.2), which may be favorable for potential physiological effects of GLP on the heart and gills. The results of this study imply some role for GLP in the regulation of cardiac and gill metabolism or function. The higher hormonal titers to which fish liver, as compared to other target tissues, is exposed should be taken into account when a dosage of pancreatic hormones is calculated for in vivo or in vitro experiments.
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PMID:Pancreatic and thyroid hormones in rainbow trout (Salmo gairdneri): what concentration does the liver see? 268 Jul 54

Thyroid hormone regulates the expression of ventricular myosin isoenzymes by causing an accumulation of alpha-myosin heavy chain (MHC) mRNA and inhibiting expression of beta-MHC mRNA. However, the mechanism of thyroid hormone action has been difficult to examine in vivo because of its diverse actions. Accordingly, hormonal control of expression of six MHC isoform mRNAs and cardiac and skeletal alpha-actin mRNAs was studied in primary cultures of fetal rat heart myocytes grown in defined medium. The results indicate that in the absence of thyroid hormone, cultured heart cells express predominantly beta-MHC and cardiac alpha-actin mRNAs. Addition of 3,5,3'-triiodo-L-thyronine (T3) caused a rapid induction of alpha-MHC mRNA and decreased beta-MHC mRNA levels without affecting the skeletal muscle MHC mRNAs. There was an almost parallel change in the myosin isoenzymes. Cardiac alpha-actin mRNA levels were transiently increased by T3 treatment, but skeletal alpha-actin was unaffected. Elimination of insulin and epithelial growth factor from the medium did not alter the effects of T3 on cardiac MHC mRNA expression. Addition of various adrenergic agents to the medium had no appreciable effect on cardiac MHC mRNA expression despite the presence of functionally coupled alpha- and beta-adrenergic receptors. Addition of steroid hormones, muscarinic agents, and glucagon to the medium also had no effect. Thus, under defined conditions, T3 is able to regulate MHC gene expression at a pretranslational level without the need for other exogenous factors.
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PMID:Hormonal regulation of myosin heavy chain and alpha-actin gene expression in cultured fetal rat heart myocytes. 288 58

Epidermal growth factor (EGF) stimulates DNA synthesis and proliferation of thyroid cells in culture and may have an important role in the regulation of normal and neoplastic thyroid cell growth. We therefore studied paired normal and neoplastic thyroid tissue from eight patients for the presence of EGF receptors using a radioreceptor assay. 125I EGF binds to a particulate membrane fraction from both normal and neoplastic thyroid tissue with high affinity (dissociation constant ranged from 0.5 to 16.7 nmol/L). The binding is saturable, and maximal binding is achieved within 40 minutes at 37 degrees C and pH 7.5. This EGF binding is specific since it is competitively inhibited by unlabeled EGF but not by other hormones (thyrotropin, insulin, glucagon, and transferrin). The binding of EGF to thyroid neoplasms is higher than the binding to normal thyroid tissue (p less than 0.05). Thyroid tumors with a poorer prognosis appear to have higher EGF binding compared with adjacent normal thyroid tissue than have tumors with a better prognosis. EGF may have a role in the regulation of normal and neoplastic thyroid cell growth. Characterization of EGF receptors may help predict the clinical course of patients with malignant thyroid neoplasms.
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PMID:Epidermal growth factor receptors in normal and neoplastic thyroid tissue. 300 11

We have shown that two unrelated prostaglandin antagonists block both thyrotropin (TSH) and prostaglandins E (PGE(1), PGE(2)) stimulation of thyroidal adenyl cyclase activation and cyclic 3',5'-adenosine monophosphate (cAMP) formation, suggesting that prostaglandins play an important role in regulating thyroid function. To further explore this postulate, we measured prostaglandin content by radioimmunoassay in homogeneous bovine thyroid cell preparations in the presence and absence of TSH. Antibodies to albumin-conjugated PGE(1) and PGF(2alpha) showed specificity for prostaglandins E and F, respectively, but reacted, albeit far less effectively, with heterologous prostaglandins. A double antibody system was used to separate free from antibody-bound PGE(1)-(3)H and PGF(2alpha)-(3)H. Thyroid cells were extracted with ethanol/ethyl acetate and the various prostaglandins separated on silicic acid columns. Recoveries of added PGE(1)-(3)H and PGF(2alpha)-(3)H through the extraction and separation procedures ranged from 50-80%. The sensitivity of the method was 10-50 pg. Basal thyroid cell content of PGE(1) and PGF(2alpha) "equivalents" varied between cell preparations (range = 2-6 ng/0.2 ml cell suspension) but, in each instance, remained constant during 5-30-min incubations at 37 degrees C. TSH, 10-100 mU/ml, increased the levels of cell PGE(1) and PGF(2alpha) "equivalents" 30-80% above basal during 5-15-min incubations. The stimulatory effect was specific for TSH, no increase in PGE(1) or PGF(2alpha) "equivalent" levels being seen with luteinizing hormone (LH), human growth hormone (HGH), adrenocorticotropic hormone (ACTH), or glucagon. These data support the thesis that prostaglandins may mediate TSH effects on thyroid.
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PMID:Thyrotropin increases prostaglandin levels in isolated thyroid cells. 462 70

The initiation of DNA synthesis has been studied in quiescent primary cultures of fetal rat hepatocytes using defined hormones and chemically defined medium. Preparations of crystalline insulin (0.01-10 microg/ml) or 20,000-fold purified somatomedin (0.01-1 microg/ml) are stimulatory. Growth hormone (0.025 microg/ml) and hydroxycortisone (0.025 microg/ml), 3':5'-GMP! (10(-5) M) fail by themselves to initiate DNA synthesis but added together with insulin, enhance the stimulatory response by 50-100%. Thyroid hormones (L-T(3), L-T(4), 7.5-30 ng/ml) are by themselves without effect, but when they are added to thyroid hormone-depleted serum, the reconstituted mixtures show an enhanced capacity to initiate DNA synthesis. In contrast, glucagon (0.01 microg/ml) inhibits the insulin-stimulated response by about 50% without reducing basal DNA synthesis rates. The results described here and in the accompanying two reports indicate that environmental control over the initiation of DNA synthesis is complex, and can involve the participation of many factors. The in vitro findings are consistent with the concept that liver regeneration is hormonally controlled and raise the possibility that alterations of the intrahepatic ratio of insulin to glucagon are growth regulatory.
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PMID:Growth control of differentiated fetal rat hepatocytes in primary monolayer culture. VII. Hormonal control of DNA synthesis and its possible significance to the problem of liver regeneration. 485 45


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