EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The N-terminal part sequences of pituitary growth hormone, N alpha-acetyl-hGH 7-13 and hGH 6-13, promoted conversion of glycogen synthase b to glycogen synthase a in skeletal muscle and adipose tissue when injected intravenously. The peptides also caused conversion of phosphorylase a to phosphorylase b in liver and adipose tissue, but not in muscle, where the peptides antagonised activation of phosphorylase. Synthase phosphatase activity in muscle and phosphorylase phosphatase activity in liver increased after injection of peptide, with time courses of change similar to those seen for muscle synthase and liver phosphorylase activities. Injection of peptide also decreased both the cyclic AMP dependent and independent synthase kinase activities in muscle. These results show that the insulin-like activities of these peptides on glycogen synthase and phosphorylase involve both increases in protein phosphatase activities and inhibition of protein kinase activities. These results are discussed in relation to the insulin-like activities of growth hormone.
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PMID:Activation of phosphoprotein phosphatases by growth hormone sequences with insulin-like activity. 303 64

Electrophysiological responses induced by human (h) growth hormone-releasing hormone (GHRH) were analyzed using the perforated whole cell clamp technique in human growth hormone (GH)-secreting adenoma cells. Application of hGHRH depolarized the membrane by increasing Na+ conductance. The reversal potential of the hGHRH-induced current was -20 to 0 mV. The channel was permeable to Na+, Li+ and K+ but not to TMA+. These properties were compatible with those of nonselective cation channels. Similar nonselective cation current was activated by 8-bromoadenosine 3',5'-cyclic monophosphate and forskolin, and the activation of the hGHRH-induced current was inhibited by protein kinase A (PKA) inhibitors, (R)-p-adenosine 3',5'-cyclic monophosphate and N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinoleinsulfonamide, and PKA inhibitor peptide PKI-(5-24), indicating that hGHRH-induced current was activated by PKA. Cholera toxin pretreatment eliminated the hGHRH-induced current, suggesting that Gs is involved in the activation of this current. This current became irreversible when the cells were pretreated with okadaic acid, suggesting that the recovery of the hGHRH-induced current was mediated by a serine/threonine protein phosphatase. GHRH-induced GH secretion was inhibited in Na+-free medium, suggesting the importance of the nonselective cation current on hGHRH-induced GH secretion. In human GH-secreting nonadenoma cells, hGHRH increased Na+ conductance, as was the case in GH-secreting adenoma cells.
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PMID:GHRH activates a nonselective cation current in human GH-secreting adenoma cells. 876 91

1. The effects of a 4-month daily treatment with recombinant human growth hormone (GH) (150 micrograms kg-1) to aged rats were evaluated on the passive and active membrane electrical properties of extensor digitorum longus (EDL) muscle fibres in vitro by means of a two intracellular microelectrode technique. 2. Chronic GH treatment completely restored the diameter and the membrane capacitance of aged EDL muscle fibres and significantly lowered the membrane resistance towards the adult value. There was also an increase of the threshold current, a shortening of the latency and an increase of the amplitude of the action potential and a significant amelioration of the membrane firing capability. 3. The effects were almost fully attributable to a significant 50% increase of resting conductance to chloride ions (GCl), although an observed restoration of potassium conductance and a possible effect on voltage-activated sodium channels could contribute to the effects. 4. EDL muscle fibres of untreated aged rats showed a different pharmacological response to 2-(p-chlorophenoxy) propionic acid (CPP) enantiomers from that seen in adult rats; the S-(-) isomer was less potent in blocking GCl and the R-(+) isomer always increased GCl instead of producing the typical biphasic effect observed in adult fibres (an increase of GCl at 1-10 microM and a decrease at higher concentrations). The 4-month-GH-treated aged rats showed a pharmacological sensitivity to CPP enantiomers similar to that of adults. 5. The in vitro application of insulin-like growth factor I (IGF-I), the peripheral mediator of GH, produced a significant and irreversible increase of GCl of EDL muscle of EDL muscle of untreated aged rats, an effect not observed in adults. This effect was completely inhibited by preincubation with 0.5 microM okadaic acid, suggesting that the IGF-I receptor transduction pathway can act on the phosphorylation state of the chloride channel through a serine-threonine protein phosphatase. 6. The results show that the skeletal muscle chloride channel is a target of the impairment of GH/IGF-I axis occurring in aged subjects. The acute and chronic effects observed on GCl of aged muscle fibres suggest that the GH/IGF-I stimuli act through a modulation of channel phosphorylation state and through the synthesis of 'adult'-like type chloride channels.
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PMID:Effects of chronic growth hormone treatment in aged rats on the biophysical and pharmacological properties of skeletal muscle chloride channels. 917 75

Cocultivation of primary pig hepatocytes with RL-ET-14 cells, an endothelial-like cell line resulted in spontaneous induction of glutamine synthetase (GS)-activity in the hepatocytes by more than 10-fold within 120 h to 144 h. Hepatocyte-specific induction was confirmed by immunocytochemistry. Addition of trijodothyronine (T3) to the culture medium inhibited the induction in a concentration dependent manner. No comparable influence of T3 was seen with pure cultures of either cell type suggesting that only the spontaneous induction was affected. Other hormones such as glucagon, insulin, growth hormone, epinephrine and testosterone did not interfere with the induction. Addition of several protein kinase-inhibitors such as staurosporine and genistein were without influence. However, a strong inhibition was found after addition of okadaic acid in nanomolar concentrations indicating an involvement of protein-phosphatase 2A in the induction process.
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PMID:The spontaneous induction of glutamine synthetase in pig hepatocytes cocultured with RL-ET-14 cells is completely inhibited by trijodothyronine and okadaic acid. 961 8

Although an immunosuppressant, FK506, has been known to stimulate growth hormone (GH) release from rat somatotropes, the cellular signaling mechanism is unknown. In the present study, intracellular signaling pathways were investigated for FK506- and cyclosporin A (CsA)-induced GH release in cultured rat anterior pituitary cells. Northern and Western blot analysis revealed that the FK506-binding protein (FKBP12) and the CsA-binding protein (cyclophilin A) exist at the mRNA and protein level in the rat anterior pituitary tissue. FK506 and CsA increased GH release in a dose-dependent manner and inhibited calcineurin (CaN) activity in the cultured pituitary cells. The third immunosuppressant, rapamycin (RP), inhibited the FK506-induced GH release, although RP alone had no effect. Protein kinase A (PKA) inhibitors, H-89 and HA-1004 and EGTA blocked FK506- and CsA-induced GH release. TGF-beta did not alter basal GH release, but inhibited FK506-induced GH release. GH primary transcripts were increased by FK506, and the effects were blocked by H-89 and HA-1004. These results suggest that the immunosuppressants, FK506 and CsA, stimulate GH release by inhibiting CaN activity which results in the activation of the PKA system in the rat somatotropes. TGF-beta receptors might be involved in FK506-induced GH release as a separate pathway. FK506 also stimulates GH primary transcripts via a PKA-dependent mechanism in a manner similar to its effects on GH release.
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PMID:Cellular signaling mechanisms for stimulation of growth hormone secretion and growth hormone primary transcripts by immunosuppressant agents, FK506 and cyclosporin A, in cultured rat pituitary cells. 976 12

Calcineurin (PP2B) is a calcium/calmodulin-activated, serine-threonine phosphatase that transmits signals to the nucleus through the dephosphorylation and translocation of nuclear factor of activated T cell (NFAT) transcription factors. Whereas calcineurin-NFAT signaling has been implicated in regulating the hypertrophic growth of the myocardium, considerable controversy persists as to its role in maintaining versus initiating hypertrophy, its role in pathological versus physiological hypertrophy, and its role in heart failure. To address these issues, NFAT-luciferase reporter transgenic mice were generated and characterized. These mice showed robust and calcineurin-specific activation in the heart that was inhibited with cyclosporin A. In the adult heart, NFAT-luciferase activity was upregulated in a delayed, but sustained manner throughout eight weeks of pathological cardiac hypertrophy induced by pressure-overload, or more dramatically following myocardial infarction-induced heart failure. In contrast, physiological hypertrophy as produced in two separate models of exercise training failed to show significant calcineurin-NFAT coupling in the heart at multiple time points, despite measurable increases in heart to body weight ratios. Moreover, stimulation of hypertrophy with growth hormone-insulin-like growth factor-1 (GH-IGF-1) failed to activate calcineurin-NFAT signaling in the heart or in culture, despite hypertrophy, activation of Akt, and activation of p70 S6K. Calcineurin Abeta gene-targeted mice also showed a normal hypertrophic response after GH-IGF-1 infusion. Lastly, exercise- or GH-IGF-1-induced cardiac growth failed to show induction of hypertrophic marker gene expression compared with pressure-overloaded animals. Although a direct cause-and-effect relationship between NFAT-luciferase activity and pathological hypertrophy was not proven here, our results support the hypothesis that separable signaling pathways regulate pathological versus physiological hypertrophic growth of the myocardium, with calcineurin-NFAT potentially serving a regulatory role that is more specialized for maladaptive hypertrophy and heart failure.
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PMID:Calcineurin/NFAT coupling participates in pathological, but not physiological, cardiac hypertrophy. 2378 3

Transplanted patients experience rapid loss of bone, high fracture rates, and increases in morbidity and mortality as a consequence of a posttransplant scenario that is highly deleterious to the skeleton. Immune suppressive drugs, especially glucocorticoids, are toxic to bone, often acting on a background of preexisting osteodystrophy resulting from long-standing renal, hepatic, cardiac, or pulmonary disease. Cyclosporin and tacrolimus lead to a severe osteopenic state in rats, but the skeletal toxicity of the calcineurin inhibitors in the clinical environment is less clear. Nor is it clear whether cyclosporin and tacrolimus differ in their skeletal actions. Mycophenolate mofetil and sirolimus do not appear to have important skeletal toxicity. Preventative strategies include minimizing glucocorticoid exposure and implementing therapies to counter the increase in bone resorption and decrease in bone formation that follows transplantation. Antiresorptive agents, especially bisphosphonates, appear capable of retarding or halting the early bone loss and possibly reduce fracture rates also. Vitamin D and calcium are ineffective, but calcitriol has utility in some reports. Bone anabolic agents, such as synthetic parathyroid hormone and growth hormone, have potential, but data are lacking.
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PMID:Posttransplantation bone disease. 1578 62

Administration of an orally active agonist (MK-0677) of the growth hormone secretagogue receptor (GHS-R1a) to elderly subjects restored the amplitude of endogenous episodic growth hormone (GH) release to that of young adults. Functional benefits include increased lean mass and bone density and modest improvements in strength. In old mice, a similar agonist partially restored function to the thymus and reduced tumor cell growth and metastasis. Treatment of old mice with the endogenous GHS-R1a agonist ghrelin restored a young liver phenotype. The mechanism involves inhibition of cyclin D3:cdk4/cdk6 activity and increased protein phosphatase-2A (PP2A) activity in liver nuclei, which stabilizes the dephosphorylated form of the transcription factor C/EBPalpha preventing the age-dependent formation of the C/EBPalpha-Rb-E2F4-Brm nuclear complex. By inhibiting formation of this complex, repression of E2F target genes is de-repressed and C/EBPalpha regulated expression of Pepck, a regulator of gluconeogenesis, is normalized, thereby restoring a young liver phenotype. In the brain, aging is associated with decline in dopamine function. We investigated the potential neuromodulatory role of GHS-R1a on dopamine action. Neurons were identified in the hippocampus, cortex, substantia nigra, and ventral tegmental areas that coexpressed GHS-R1a and dopamine receptor subtype-1 (D1R). Cell culture studies showed that, in the presence of ghrelin and dopamine, GHS-R and D1R form heterodimers, which modified G-protein signal transduction resulting in amplification of dopamine signaling. We speculate that aging is associated with deficient endogenous ghrelin signaling that can be rescued by intervention with GHS-R1a agonists to improve quality of life and maintain independence.
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PMID:Ghrelin receptor (GHS-R1A) agonists show potential as interventive agents during aging. 1805 63

The purpose of this review is to enlighten the mechanisms of skeletal muscle dysfunction in heart failure. The muscle hypothesis suggests that chronic heart failure (CHF) symptoms, dyspnoea and fatigue are due to skeletal muscle alterations. Hyperventilation due to altered ergoreflex seems to be the cause of shortness of breath. Qualitative and quantitative changes occurring in the skeletal muscle, such as muscle wastage and shift from slow to fast fibers type, are likely to be responsible for fatigue. Mechanisms leading to muscle wastage in chronic heart failure, include cytokine-triggered skeletal muscle apoptosis, but also ubiquitin/proteasome and non-ubiquitin-dependent pathways. The regulation of fibre type involves the growth hormone/insulin-like growth factor 1/calcineurin/ transcriptional coactivator PGC1 cascade. The imbalance between protein synthesis and degradation plays an important role. Protein degradation can occur through ubiquitin-dependent and non-ubiquit-independent pathways. Systems controlling ubiquitin/ proteasome activation have been described. These are triggered by tumour necrosis factor and growth hormone/ insulin-like growth factor 1. However, an important role is played by apoptosis. In humans, and experimental models of heart failure, programmed cell death has been found in skeletal muscle and interstitial cells. Apoptosis is triggered by tumour necrosis factor and in vitro experiments have shown that it can be induced by its second messenger sphingosine. Apoptosis correlates with the severity of the heart failure syndrome. It involves activation of caspases 3 and 9 and mitochondrial cytochrome c release. Sarcomeric protein oxidation and its consequent contractile impairment can form another cause of skeletal muscle dysfunction in CHF.
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PMID:Physiological basis for contractile dysfunction in heart failure. 1899 74

A cDNA microarray (18 263 probes) was used for transcriptome analysis of bovine skeletal muscle (m. semitendinosus) in 12-month-old bulls of the beef breed Limousin (LIM) and the typical dairy breed Holstein-Friesian (HF, used as a reference). We aimed to identify the genes whose expression may reflect the muscle phenotype of beef bulls. A comparison of muscle transcriptional profiles revealed significant differences in expression of 393 genes between HF and LIM. We classified biological functions of 117 genes with over 2-fold differences in expression between the examined breeds. Among them, 72 genes were up-regulated and 45 genes were down-regulated in LIM vs. HF. The genes were involved in protein metabolism and modifications (22 genes), signal transduction (15), nucleoside, nucleotide and nucleic acid metabolism (13), cell cycle (9), cell structure and motility (9), developmental processes (9), intracellular protein traffic (7), cell proliferation and differentiation (6), cell adhesion (6), lipid, fatty acid and steroid metabolism (5), transport (5), and other processes. For the purpose of microarray data validation, we randomly selected 4 genes: trip12, mrps30, pycrl, and c-erbb3. Real-time RT-PCR results showed similar trends in gene expression changes as those observed in microarray studies. Basing on results of the present study, we proposed a model of the regulation of skeletal muscle growth and differentiation, with a principal role of the somatotropic pathway. It may explain at least in part the development of muscle phenotype in LIM bulls. We assume that the growth hormone directly or indirectly (through IGF-1) activates the calcium-signaling pathway with calcineurin, which stimulates myogenic regulatory factors (MRFs) and inhibits early growth response gene. The inhibition results in indirect activation of MRFs and impaired activation of TGF-beta1 and myostatin, which finally facilitates terminal muscle differentiation.
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PMID:Comparison of skeletal muscle transcriptional profiles in dairy and beef breeds bulls. 1943 8

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