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: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nerve activity can induce long-lasting, transcription-dependent changes in skeletal muscle fibers and thus affect muscle growth and fiber-type specificity. Calcineurin signaling has been implicated in the transcriptional regulation of slow muscle fiber genes in culture, but the functional role of calcineurin in vivo has not been unambiguously demonstrated. Here, we report that the up-regulation of slow myosin heavy chain (MyHC) and a MyHC-slow promoter induced by slow motor neurons in regenerating rat soleus muscle is prevented by the calcineurin inhibitors cyclosporin A (CsA), FK506, and the calcineurin inhibitory protein domain from cain/cabin-1. In contrast, calcineurin inhibitors do not block the increase in fiber size induced by nerve activity in regenerating muscle. The activation of MyHC-slow induced by direct electrostimulation of denervated regenerating muscle with a continuous low frequency impulse pattern is blocked by CsA, showing that calcineurin function in muscle fibers and not in motor neurons is responsible for nerve-dependent specification of slow muscle fibers. Calcineurin is also involved in the maintenance of the slow muscle fiber gene program because in the adult soleus muscle, cain causes a switch from MyHC-slow to fast-type MyHC-2X and MyHC-2B gene expression, and the activity of the MyHC-slow promoter is inhibited by CsA and FK506.
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PMID:Calcineurin controls nerve activity-dependent specification of slow skeletal muscle fibers but not muscle growth. 1160 56

The cardiac-specific sodium-calcium exchanger (NCX1) is a GATA-4 dependent gene that is upregulated during cardiac hypertrophy and heart failure. To date, lack of an appropriate inhibitor of NCX1 and embryonic lethality of NCX1 knockout mice have slowed investigation of the relation between NCX1 upregulation and cardiac hypertrophy. Recently, in vitro studies have shown that cyclosporin A (CSA), a calcineurin inhibitor, significantly downregulated expression of the hypertrophic genes atrial natriuretic factor and beta-myosin heavy chain and protected against cardiac hypertrophy and heart failure in calcineurin overexpressing mice. This suggested that CSA might play an important role in the treatment of hypertrophy and heart failure. In an in vitro model of cardiac hypertrophy, we showed that CSA is a potent inhibitor of NCX1 basal expression and NCX1 promoter activity. Female homozygous transgenic mice that overexpress NCX1 develop heart failure and die prematurely after two or more pregnancies. Others have demonstrated that pressure overloaded wild-type mice treated with CSA do not develop cardiac hypertrophy and downregulate expression of NCX1. We investigated the effect of CSA on NCX1 expression and transverse aortic constriction-induced cardiac hypertrophy in NCX1 overexpressing mice. We found that CSA blunted these responses.
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PMID:Cyclosporin A regulates sodium-calcium exchanger (NCX1) gene expression in vitro and cardiac hypertrophy in NCX1 transgenic mice. 1250 68

A culture model for cardiac hypertrophy, stimulation of neonatal rat cardiac myocytes by alpha(1)-adrenergic agonists, has been used extensively to identify transcription factors that activate genes during cardiac hypertrophy, such as skeletal alpha-actin, beta-myosin heavy chain (betaMHC), and B-natriuretic peptide. We used this culture model to further investigate transcription factors regulating the betaMHC promoter in cardiac myocytes under basal conditions and during hypertrophy. We found that the rat betaMHC promoter contains two other MCAT sites, in addition to the two MCATs reported previously. The four MCAT sites are conserved in some but not all of the mammalian betaMHC promoters examined, and all bind TEF-1 but with varying affinity. As assayed by transient transfection into cardiac myocytes, the four MCATs within 348 bp of the transcription start site are required for full activity of the rat betaMHC promoter in the absence and presence of the alpha(1)-adrenergic agonist phenylephrine (PE). We found that the betaMHC promoter also contains a binding site for the NFAT family of transcription factors, which are activated by calcineurin and are implicated in the hypertrophic process. Although this site bound NFAT3 in vitro and has been reported to be required for betaMHC promoter activity in slow skeletal muscle, mutation of the site had no effect on basal or on PE-induced activity of the promoter in cardiac myocytes. Our results show that full activity of minimal betaMHC promoters in the presence and absence of hypertrophic agents requires multiple MCAT sites but not NFAT-binding sites.
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PMID:Basal and alpha1-adrenergic-induced activity of minimal rat betaMHC promoters in cardiac myocytes requires multiple TEF-1 but not NFAT binding sites. 1273 28

The phenotypic expression of cardiomyopathy is greatly influenced by extrinsic factors other than intrinsic genetic defects, such as environmental stress. Exercise is assumed to be an important extrinsic factor, since sudden death is sometimes seen during exercise in young patients with hypertrophic cardiomyopathy (HCM). However, the long-term effects of mild exercise on phenotypic expression in cardiomyopathy remain unclear. To evaluate the effects of exercise performed during infancy or adolescence in cardiomyopathic patients, cardiomyopathic Syrian hamsters (BIO14.6) were subjected to swimming. BIO14.6 and age-matched congenic normal hamsters (CN) as controls were divided into three groups: sedentary (Sed), and trained during infancy (Inf) and during adolescence (Ado). Histological and biochemical analysis of 41-week-old hamsters revealed that (1) the relative level of beta-myosin heavy chain mRNA was significantly lower in the Inf group than in the Sed and Ado groups of BIO14.6. The level in the Inf group of BIO14.6 was compatible with that in the age-matched Sed group of the CN strain; (2) in BIO14.6, degenerative mitochondrial change in the cardiomyocytes was not seen in the Inf group while it was common in the Sed and Ado groups; (3) calcineurin phosphatase activity in the swimming group in 10-week-old CN was significantly higher than that of the age-matched sedentary group, and was as much as that of the swimming and sedentary groups in 10- and 41-week-old BIO14.6.
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PMID:Swimming exercise in infancy has beneficial effect on the hearts in cardiomyopathic Syrian hamsters. 1516 Apr 90

The possible role of calcineurin in cardiac hypertrophy induced by calmodulin (CaM) overexpression in the heart was investigated. CaM transgenic (CaM-TG) mice developed marked cardiac hypertrophy and exhibited up-regulation of atrial natriuretic factor (ANF) and beta-myosin heavy chain gene expression in the heart during the first 2 weeks after birth. The activity of calcineurin in the heart was also significantly increased in CaM-TG mice compared with wild-type littermates. Treatment of CaM-TG mice with the calcineurin inhibitor FK506 (1mg/kg per day) prevented the increase in the heart-to-body weight ratio as well as that in cardiomyocyte width. FK506 also inhibited the induction of fetal-type cardiac gene expression in CaM-TG mice. Overexpression of CaM in cultured rat cardiomyocytes activated the ANF gene promoter in a manner sensitive to FK506. Activation of a calcineurin-dependent pathway thus contributes to the development of cardiac hypertrophy induced by CaM overexpression in the heart.
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PMID:Overexpression of calmodulin induces cardiac hypertrophy by a calcineurin-dependent pathway. 1625 41

We evaluated the effects of d-myo-inositol 1,4,5-tris-phosphate on cardiac hypertrophy. d-myo-inositol 1,4,5-tris-phosphate augmented cardiac hypertrophy as evidenced by its effects on DNA synthesis, protein synthesis, and expression of immediate-early genes c-myc and c-fos, beta-myosin heavy chain, and alpha-actin. The administration of d-myo-inositol 1,4,5-tris-phosphate increased the expression of nuclear factor of activated T-cells and cardiac-restricted zinc finger transcription factor (GATA4). Real-time quantitative RT-PCR showed that d-myo-inositol 1,4,5-tris-phosphate-induced GATA4 mRNA was significantly enhanced even in the presence of the calcineurin inhibitor, cyclosporine A. The effect of d-myo-inositol 1,4,5-tris-phosphate was blocked after inhibition of inositol-trisphosphate receptors but not after inhibition of c-Raf/mitogen-activated protein kinase kinase (MEK)/mitogen-activated protein kinase (ERK) or p38 mitogen-activated protein kinase pathways. The study shows that d-myo-inositol 1,4,5-tris-phosphate-induced cardiac hypertrophy is mediated by GATA4 but independent from the calcineurin pathway.
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PMID:GATA4-mediated cardiac hypertrophy induced by d-myo-inositol 1,4,5-tris-phosphate. 1625 52

Preferential and specific down-regulation of genes involved in fatty acid (FA) uptake and metabolism is considered a hallmark of severe hypertrophic remodeling and progression to cardiac failure. Therefore, we investigated the time course of changes in cardiac metabolic gene expression (1) in mice subjected to regional myocardial infarction (MI) for 4 days, 1 month, or 3 months and (2) in mice overexpressing calcineurin (Cn) which initially develop concentric hypertrophy progressing after the age of 4 weeks to dilated cardiomyopathy and failure. In both models, hypertrophy was characterized by increased expression of beta-myosin heavy chain protein and atrial natriuretic factor mRNA, indicative of marked structural remodeling. Fractional shortening progressively decreased from 31% to 15.1% and 3.7% 1 and 3 months after MI, respectively. One month post-MI, the expression of several metabolic genes, i.e., acyl-CoA synthetase (-50%), muscle-type carnitine palmitoyl transferase 1 (-37%) and citrate synthase (-28%), was significantly reduced in the surviving myocardium. Despite overt signs of cardiac failure 3 months post-MI, the expression of these genes had returned to normal levels. In hearts of both 4- and 6-week-old Cn mice, genes involved in both FA and glucose metabolism and mitochondrial citrate synthase were down-regulated, reflecting an overall decline in metabolic gene expression, rather than a specific and preferential down-regulation of genes involved in FA uptake and metabolism. These findings challenge the concept that specific and sustained down-regulation of genes involved in FA uptake and metabolism represents a hallmark of the development of cardiac hypertrophy and progression to failure.
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PMID:Specific and sustained down-regulation of genes involved in fatty acid metabolism is not a hallmark of progression to cardiac failure in mice. 1669 5

The heart responds to injury and chronic pressure overload by pathologic growth and remodeling, which frequently result in heart failure and sudden death. Calcium-dependent signaling pathways promote cardiac growth and associated changes in gene expression in response to stress. The calcium/calmodulin-dependent phosphatase calcineurin, which signals to nuclear factor of activated T cells (NFAT) transcription factors, serves as a transducer of calcium signals and is sufficient and necessary for pathologic cardiac hypertrophy and remodeling. Transient receptor potential (TRP) proteins regulate cation entry into cells in response to a variety of signals, and in skeletal muscle, expression of TRP cation channel, subfamily C, member 3 (TRPC3) is increased in response to neurostimulation and calcineurin signaling. Here we show that TRPC6 was upregulated in mouse hearts in response to activated calcineurin and pressure overload, as well as in failing human hearts. Two conserved NFAT consensus sites in the promoter of the TRPC6 gene conferred responsiveness to cardiac stress. Cardiac-specific overexpression of TRPC6 in transgenic mice resulted in heightened sensitivity to stress, a propensity for lethal cardiac growth and heart failure, and an increase in NFAT-dependent expression of beta-myosin heavy chain, a sensitive marker for pathologic hypertrophy. These findings implicate TRPC6 as a positive regulator of calcineurin-NFAT signaling and a key component of a calcium-dependent regulatory loop that drives pathologic cardiac remodeling.
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PMID:TRPC6 fulfills a calcineurin signaling circuit during pathologic cardiac remodeling. 1709 78

The intracellular signals that convert fast and slow motor neuron activity into muscle fiber type specific transcriptional programs have only been partially defined. The calcium/calmodulin-dependent phosphatase calcineurin (Cn) has been shown to mediate the transcriptional effects of motor neuron activity, but precisely how 4 distinct muscle fiber types are composed and maintained in response to activity is largely unknown. Here, we show that 4 nuclear factor of activated T cell (NFAT) family members act coordinately downstream of Cn in the specification of muscle fiber types. We analyzed the role of NFAT family members in vivo by transient transfection in skeletal muscle using a loss-of-function approach by RNAi. Our results show that, depending on the applied activity pattern, different combinations of NFAT family members translocate to the nucleus contributing to the transcription of fiber type specific genes. We provide evidence that the transcription of slow and fast myosin heavy chain (MyHC) genes uses different combinations of NFAT family members, ranging from MyHC-slow, which uses all 4 NFAT isoforms, to MyHC-2B, which only uses NFATc4. Our data contribute to the elucidation of the mechanisms whereby activity can modulate the phenotype and performance of skeletal muscle.
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PMID:NFAT isoforms control activity-dependent muscle fiber type specification. 1963 93

Scutellarin is a flavonoid extracted from a traditional Chinese herb, Erigeron breviscapus Hand Mazz, which has been broadly used in treating various cardiovascular diseases. In this study, we investigated its effect on cardiac hypertrophy and the underlying mechanism. Both in vitro and in vivo cardiac hypertrophy models were employed to explore the anti-hypertrophic action of scutellarin. We found that scutellarin significantly suppressed the hypertrophic growth of neonatal cardiac myocytes exposed to phenylephrine (PE) and mouse heart subjected to pressure overload induced by aortic banding, accompanied with the decreased expression of hypertrophic markers beta-myosin heavy chain and atrial natriuretic peptide. We then measured the change of free intracellular calcium using laser scanning confocal microscope. We found that scutellarin alleviated the increment of free intracellular calcium during cardiac hypertrophy either induced by PE or aortic banding. The expression of calcium downstream effectors calcineurin and phosphorylated calmodulin kinase II (CaMKII) were significantly suppressed by scutellarin. Our study indicated that scutellarin exerts its anti-hypertrophic activity via suppressing the Ca(2+)-mediated calcineurin and CaMKII pathways, which supports the observation that clinical application of scutellarin is beneficial for cardiovascular disease patients.
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PMID:Scutellarin exerts its anti-hypertrophic effects via suppressing the Ca2+-mediated calcineurin and CaMKII signaling pathways. 2005 60


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