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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 conserved RCN family of proteins can bind and directly regulate
calcineurin
, a Ca(2+)-activated
protein phosphatase
involved in immunity, heart growth, muscle development, learning, and other processes. Whereas high levels of RCNs can inhibit
calcineurin
signaling in fungal and animal cells, RCNs can also stimulate
calcineurin
signaling when expressed at endogenous levels. Here we show that the stimulatory effect of yeast Rcn1 involves phosphorylation of a conserved serine residue by Mck1, a member of the GSK-3 family of protein kinases. Mutations at the GSK-3 consensus site of Rcn1 and human
DSCR1
/MCIP1 abolish the stimulatory effects on
calcineurin
signaling. RCNs may therefore oscillate between stimulatory and inhibitory forms in vivo in a manner similar to the Inhibitor-2 regulators of type 1 protein phosphatase. Computational modeling indicates a biphasic response of
calcineurin
to increasing RCN concentration such that
protein phosphatase
activity is stimulated by low concentrations of phospho-RCN and inhibited by high concentrations of phospho- or dephospho-RCN. This prediction was verified experimentally in yeast cells expressing Rcn1 or
DSCR1
/MCIP1 at different concentrations. Through the phosphorylation of RCNs, GSK-3 kinases can potentially contribute to a positive feedback loop involving
calcineurin
-dependent up-regulation of RCN expression. Such feedback may help explain the large induction of
DSCR1
/MCIP1 observed in brain of Down syndrome individuals.
...
PMID:GSK-3 kinases enhance calcineurin signaling by phosphorylation of RCNs. 1470 80
We conducted a genome-wide analysis of genes that are regulated by vascular endothelial growth factor (VEGF) in endothelial cells and identified
DSCR1
to be most significantly induced. Consistent with an antagonistic function on
calcineurin
(CnA) signaling, expression of
DSCR1
in endothelial cells blocked dephosphorylation, nuclear translocation, and activity of nuclear factor of activated T cell (NFAT), a transcription factor involved in mediating CnA signaling.
DSCR1
was not only induced by VEGF, but also by other compounds activating CnA signaling, suggesting a more general role for
DSCR1
in activated endothelial cells. Transient expression of
DSCR1
attenuated inflammatory marker genes such as tissue factor (TF), E-selectin, and Cox-2, identifying a previously unknown regulatory role for
DSCR1
in activated endothelial cells. In contrast, knock-down of endogenous
DSCR1
increased NFAT activity and stimulated expression of inflammatory genes on activated endothelial cells. Thus, the negative regulatory feedback loop between
DSCR1
and CnA signaling in endothelial cells identified may represent a potential molecular mechanism underlying the frequently transient expression of inflammatory genes following activation of endothelial cells.
...
PMID:Down syndrome critical region protein 1 (DSCR1), a novel VEGF target gene that regulates expression of inflammatory markers on activated endothelial cells. 1501 50
In this study we showed that the transcriptional regulation of Down syndrome critical region isoform 4 (
DSCR1
.4) is mediated by the
calcineurin
/nuclear factor of activated T cells (NFAT) pathway in neural cells. Stimuli that elicit an increase in the intracellular concentrations of calcium, such as membrane depolarization, induced de novo transcription of
DSCR1
.4, with mRNA expression peaking after 4 h and then declining. Action via the physiologically relevant L-type calcium channel was confirmed by blockade with nifedipine and verapamil. This calcium-dependent transcription of
DSCR1
.4 was inhibited by the
calcineurin
inhibitors cyclosporin A and FK506. Deletional analysis showed that the calcium- and
calcineurin
-dependent activation is mediated by the promoter region between nucleotides -350 and -166, a region that contains putative NFAT-binding motifs. Exogenous NFATc2 potently augmented the
DSCR1
.4 promoter transcriptional activity, and the involvement of endogenous NFAT signaling pathway in
DSCR1
.4 transcription was confirmed by the suppression of depolarization-inducible promoter activity with the NFAT inhibitor peptide VIVIT. Exogenous overexpression of DSCR1 protein (calcipressin 1) resulted in the inhibition of the transcription of
DSCR1
.4 and NFAT-dependent signaling. These findings suggest that
calcineurin
-dependent induction of
DSCR1
.4 product may represent an important auto-regulatory mechanism for the homeostatic control of NFAT signaling in neural cells.
...
PMID:Depolarization of neural cells induces transcription of the Down syndrome critical region 1 isoform 4 via a calcineurin/nuclear factor of activated T cells-dependent pathway. 1597 16
Skeletal muscles are a mosaic of slow and fast twitch myofibers. During embryogenesis, patterns of fiber type composition are initiated that change postnatally to meet physiological demand. To examine the role of the
protein phosphatase
calcineurin
in the initiation and maintenance of muscle fiber types, we used a "Flox-ON" approach to obtain muscle-specific overexpression of the modulatory calcineurin-interacting protein 1 (MCIP1/
DSCR1
), an inhibitor of
calcineurin
. Myo-Cre transgenic mice with early skeletal muscle-specific expression of Cre recombinase were used to activate the Flox-MCIP1 transgene. Contractile components unique to type 1 slow fibers were absent from skeletal muscle of adult Myo-Cre/Flox-MCIP1 mice, whereas oxidative capacity, myoglobin content, and mitochondrial abundance were unaltered. The soleus muscles of Myo-Cre/Flox-MCIP1 mice fatigued more rapidly than the wild type as a consequence of the replacement of the slow myosin heavy chain MyHC-1 with a fast isoform, MyHC-2A. MyHC-1 expression in Myo-Cre/Flox-MCIP1 embryos and early neonates was normal. These results demonstrate that developmental patterning of slow fibers is independent of
calcineurin
, while the maintenance of the slow-fiber phenotype in the adult requires
calcineurin
activity.
...
PMID:Calcineurin is necessary for the maintenance but not embryonic development of slow muscle fibers. 1602 98
The
DSCR1
(Adapt78) gene is transiently induced by stresses to temporarily protect cells against further potentially lethal challenges. However, chronic expression of the
DSCR1
(Adapt78) gene has now been implicated in several pathological conditions including Alzheimer's disease, Down syndrome and cardiac hypertrophy. Calcipressin 1 has been shown to function through direct binding and inhibition of the serine threonine
protein phosphatase
Calcineurin. Pharmacological inhibition of
calcineurin
, by the immunosuppressive drugs cyclosporin A and FK506, affects a wide variety of diseases. It is, therefore, likely that this endogenous calcineurin inhibitor, calcipressin 1, may also play a role in a variety of human diseases.
...
PMID:Multiple roles of the DSCR1 (Adapt78 or RCAN1) gene and its protein product calcipressin 1 (or RCAN1) in disease. 1623 Oct 93
Down syndrome critical region gene 1-like 2 (DSCR1L2) belongs to the human
DSCR1
-like gene family, which also includes
DSCR1
and DSCR1L1. Both
DSCR1
and DSCR1L1 proteins interact with
calcineurin
, a calcium/calmodulin-dependent phosphatase. To date, no interactor has been described for DSCR1L2. The aim of this work was to perform a first functional study of DSCR1L2 using yeast two-hybrid analysis conducted on a human heart cDNA library. Here, we report the interaction between DSCR1L2 and the human cardiac troponin I (TNNI3), the heart-specific inhibitory subunit of the troponin complex, a central component of the contractile apparatus. This interaction was confirmed by both yeast cotransformation and GST (glutathione-sepharose transferase) fusion protein assay. Moreover, a new DSCR1L2 mRNA isoform, generated by alternative splicing, was identified and cloned in different tissues: it lacks two central exons, encoding the most conserved domains among the
DSCR1
-like protein family. A quantitative relative reverse transcription-polymerase chain reaction (RT-PCR) assay showed that in heart tissue the normalized expression level ratio for DSCR1L2 and DSCR1L2-E2E5 mRNA isoforms is 3.5:1, respectively. The yeast cotransformation and GST fusion protein assay demonstrated the interaction between this new DSCR1L2 variant and the human cardiac troponin I and the prominent role of DSCR1L2 exon 2 in determining binding between both DSCR1L2 isoforms and TNNI3. These data indicate an entirely new role for a
DSCR1
-like family gene, suggesting a possible involvement of DSCR1L2 in cardiac contraction.
...
PMID:Proteins encoded by human Down syndrome critical region gene 1-like 2 (DSCR1L2) mRNA and by a novel DSCR1L2 mRNA isoform interact with cardiac troponin I (TNNI3). 1651 8
Trisomy 21 results in Down's syndrome, but little is known about how a 1.5-fold increase in gene dosage produces the pleiotropic phenotypes of Down's syndrome. Here we report that two genes,
DSCR1
and DYRK1A , lie within the critical region of human chromosome 21 and act synergistically to prevent nuclear occupancy of NFATc transcription factors, which are regulators of vertebrate development. We use mathematical modelling to predict that autoregulation within the pathway accentuates the effects of trisomy of
DSCR1
and DYRK1A, leading to failure to activate NFATc target genes under specific conditions. Our observations of
calcineurin
-and Nfatc-deficient mice, Dscr1- and Dyrk1a-overexpressing mice, mouse models of Down's syndrome and human trisomy 21 are consistent with these predictions. We suggest that the 1.5-fold increase in dosage of
DSCR1
and DYRK1A cooperatively destabilizes a regulatory circuit, leading to reduced NFATc activity and many of the features of Down's syndrome. More generally, these observations suggest that the destabilization of regulatory circuits can underlie human disease.
...
PMID:NFAT dysregulation by increased dosage of DSCR1 and DYRK1A on chromosome 21. 1673 47
The RCAN1 protein (previously called calcipressin 1 or MCIP1) binds to
calcineurin
, a serine/threonine phosphatase (PP2B), and inhibits its activity. Here we demonstrate that regulated overexpression of an RCAN1 transgene (this gene was previously called
DSCR1
or Adapt78) also stimulates expression of the GSK-3beta kinase, which can antagonize the action of
calcineurin
. We also show that GSK-3beta is regulated by RCAN1 at a post-transcriptional level. In humans, high RCAN1 expression is found in the brain, where at least two mRNA isoforms have been reported. Therefore, we further investigated expression of the various RCAN1 isoforms, resulting from differential splicing and alternative promotors in human brain. We detected at least three distinct RCAN1s: RCAN1-1 Short at 31 kDa (RCAN1-1S), RCAN1-1 Long at 38 kDa (RCAN1-1 L), and RCAN1-4. Furthermore, the levels of RCAN1-1S, but not RCAN1-1 L or RCAN1-4 correlated with the levels of GSK-3beta. This suggests that RCAN1-1S might induce production of GSK-3beta in vivo. While RCAN1s can regulate
calcineurin
and GSK-3beta, it has also been shown that
calcineurin
and GSK-3beta can regulate RCAN1s. Here we propose a new model (incorporating all these findings) in which cells maintain an equilibrium between RCAN1s,
calcineurin
, and GSK-3beta.
...
PMID:RCAN1 (DSCR1 or Adapt78) stimulates expression of GSK-3beta. 1664 88
Modulatory
calcineurin
-interacting proteins (MCIPs)--also termed regulators of
calcineurin
(RCNs), calcipressins, or
DSCR1
(Down's syndrome critical region 1)--are highly conserved regulators of
calcineurin
, a Ca(2+)/calmodulin-dependent
protein phosphatase
. Although overexpression experiments in several organisms have revealed that MCIPs inhibit
calcineurin
activity , their in vivo functions remain unclear. Here, we show that the Drosophila MCIP sarah (sra) is essential for meiotic progression in oocytes. Eggs from sra null mothers are arrested at anaphase of meiosis I. This phenotype was due to loss of function of sra specifically in the female germline. Sra is physically associated with the catalytic subunit of
calcineurin
, and its overexpression suppresses the phenotypes caused by constitutively activated
calcineurin
, such as rough eye or loss of wing veins. Hyperactivation of
calcineurin
signaling in the germline cells resulted in a meiotic-arrest phenotype, which can also be suppressed by overexpression of Sra. All these results support the hypothesis that Sra regulates female meiosis by controlling
calcineurin
activity in the germline. To our knowledge, this is the first unambiguous demonstration that the regulation of
calcineurin
signaling by MCIPs plays a critical role in a defined biological process.
...
PMID:The calcineurin regulator sra plays an essential role in female meiosis in Drosophila. 1686 Jul 43
Oxidative stress (OS) underlies neuronal dysfunction in many neurodegenerative disorders. Regulator of Calcineurin 1 (RCAN1 or
DSCR1
) is a dose-sensitive gene whose overexpression has been linked to Down syndrome (DS) and Alzheimer's disease (AD) neuropathology and to the response of cells to stress stimuli. Here, we show that RCAN1 mRNA and protein expression are sensitive to OS in primary neurons, and we evaluate the involvement of RCAN1 dosage in neuronal death induced by OS. We find that Rcan1(-/-) neurons display an increased resistance to damage by H(2)O(2), which can be reverted by RCAN1 overexpression or by exogenous inhibitors of
calcineurin
. Although increased intracellular Ca(2+) concentration is an important factor in OS-mediated cell death, our results show that Ca(2+) loading after exposure to H(2)O(2) was similar in Rcan1(+/+) and Rcan1(-/-) neurons. Our data further suggest that CaN and NFAT signaling protect against OS in both Rcan1(+/+) and Rcan1(-/-) neurons. To explain the observed differential vulnerability, we therefore propose a mechanism downstream of H(2)O(2)-mediated Ca(2+) entry, involving
calcineurin
-NFAT signaling. These findings highlight the importance of RCAN1 gene dosage in the modulation of cell survival and death pathways and suggest that changes in the amount of RCAN1 could represent an important mechanism for regulating susceptibility to neurodegeneration, especially in DS and AD.
...
PMID:RCAN1 (DSCR1) increases neuronal susceptibility to oxidative stress: a potential pathogenic process in neurodegeneration. 1734 86
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