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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 transcription factor NFATp (nuclear factor of activated T cells, preexisting) is likely to regulate the cyclosporin-sensitive transcription of cytokine genes and other activation-associated genes during the immune response. NFATp is the first identified member of a new family of transcription factors, whose DNA binding domains show a weak sequence similarity to those of the Rel (NF-kappa B) family of proteins. NFATp is expressed in several types of immune cells as a cytosolic protein that translocates to the nucleus following activation. The nuclear translocation is regulated by calcium and
calcineurin
and inhibited by cyclosporin A and FK506. In the nucleus, NFATp cooperates with Fos-Jun dimers and possibly with other transcription factors at composite elements in the regulatory regions of cytokine genes. The potential roles of NFATp and a related family member,
NFATc
, in cytokine gene transcription are discussed.
...
PMID:NFATp, a cyclosporin-sensitive transcription factor implicated in cytokine gene induction. 772 11
Present evidence indicates a pathway of signal transmission in T cells that is outlined in figure 1. The elevation in intracellular calcium that is induced by interactions at the antigen receptor leads to the activation of the calcium-dependent phosphatase
calcineurin
. This in turn leads to the nuclear association of the cytosolic component of
NF-ATc
. The activation of
calcineurin
and the nuclear import of
NF-ATc
can both be blocked by cyclosporin A or FK506 in complex with their respective immunophilins. Once in the nucleus,
NF-ATc
interacts with NF-ATn to form an active transcriptional complex. NF-ATn is a ubiquitous protein, can be synthesized in response to PMA, and has many similarities to AP-1. The mechanism by which
NF-ATc
enters the nucleus is unknown, and although it appears to require
calcineurin
,
NF-ATc
has not yet been shown to be an in vivo substrate of
calcineurin
. Alternative mechanisms include the possibility that
NF-ATc
operates on some cytoplasmic anchor or that other proteins that are controlled by
calcineurin
carry out the nuclear import of
NF-ATc
. Although NF-ATp copurifies with
NF-ATc
, there is as yet no understanding of how NF-ATp is functioning in vivo. Now that these proteins are purified and cloned, the major goals will be to understand their role and the roles of other family members in thymic development.
...
PMID:Cloning and characterization of NF-ATc and NF-ATp: the cytoplasmic components of NF-AT. 788 1
The nuclear import of the nuclear factor of activated T cells (NFAT)-family transcription factors is initiated by the
protein phosphatase
calcineurin
. Here we identify a regulatory region of NFAT1, N terminal to the DNA-binding domain, that controls nuclear import of NFAT1. The regulatory region of NFAT1 binds directly to
calcineurin
, is a substrate for
calcineurin
in vitro, and shows regulated subcellular localization identical to that of full-length NFAT1. The corresponding region of
NFATc
likewise binds
calcineurin
, suggesting that the efficient activation of NFAT1 and
NFATc
by
calcineurin
reflects a specific targeting of the phosphatase to these proteins. The presence in other NFAT-family transcription factors of several sequence motifs from the regulatory region of NFAT1, including its probable nuclear localization sequence, indicates that a conserved protein domain may control nuclear import of all NFAT proteins.
...
PMID:Interaction of calcineurin with a domain of the transcription factor NFAT1 that controls nuclear import. 879 26
The NF-AT family of transcription factors participates in the regulation of early immune response genes such as IL-2, IL-4, CD40 ligand, and Fas ligand in response to Ca2+/
calcineurin
signals initiated at the antigen receptor. Calcineurin activation leads to the rapid translocation of NF-AT family members from cytoplasm to nucleus, an event that is blocked by the immunosuppressive drugs cyclosporin A and FK506. We show that translocation requires two redundant nuclear localization sequences and that one sequence is in an intramolecular association with phosphorserines in a conserved motif located at the amino terminus of each NF-AT protein. Mutation of serines in this motif in
NF-ATc
both disrupts this intramolecular interaction and leads to nuclear localization, suggesting a model of NF-AT nuclear import in which dephosphorylation by
calcineurin
causes exposure of two nuclear localization sequences.
...
PMID:Nuclear localization of NF-ATc by a calcineurin-dependent, cyclosporin-sensitive intramolecular interaction. 910 55
The nuclear factor of activated T cells (NFAT) is involved in the transcriptional induction of cytokine and other immunoregulatory genes during an immune response. Among four distinct NFAT family members identified to date, mRNAs of NFAT1,
NFATc
, and NFATx are expressed in the thymus. Here, we report the distribution of these three NFAT family members in human fetal thymocyte subsets and in peripheral mature T cells. We show that NFATx mRNA was expressed in all T lymphocyte subsets tested and was highest in CD4+CD8+ double positive (DP) thymocytes. Conversely, NFAT1 mRNA was preferentially expressed in the mature CD4+ single positive (SP) populations.
NFATc
mRNA was present at low levels in all subsets but strongly induced upon treatment with phorbol ester and calcium ionophore. Interestingly, we detected NFAT-DNA binding complexes in DP thymocytes, albeit at lower levels than in CD4 SP cells. Corresponding to the mRNA expression, we observed that NFATx was responsible for the NFAT-DNA binding in DP thymocytes. Moreover, this DNA binding was inhibited by cyclosporin A, indicating that NFATx nuclear translocation was regulated by the
calcineurin
phosphatase in DP thymocytes. For the CD4 SP populations, NFAT1 and
NFATc
, and to some extent NFATx, were responsible for the NFAT-DNA binding complexes. These results indicate that NFAT family members are differentially regulated during the development of T cells, and that NFATx may play a distinct role in
calcineurin
-dependent signaling in DP thymocytes.
...
PMID:Distinct NFAT family proteins are involved in the nuclear NFAT-DNA binding complexes from human thymocyte subsets. 949 73
In lymphocytes, the expression of early immune response genes is regulated by NF-AT transcription factors which translocate to the nucleus after dephosphorylation by the Ca2+-dependent phosphatase,
calcineurin
. We report here that mice bearing a disruption in the
NF-ATc
gene fail to develop normal cardiac valves and septa and die of circulatory failure before day 14.5 of development.
NF-ATc
is first expressed in the heart at day 7.5, and is restricted to the endocardium, a specialized endothelium that gives rise to the valves and septum. Within the endocardium, specific inductive events appear to activate
NF-ATc
: it is localized to the nucleus only in endocardial cells that are adjacent to the interface with the cardiac jelly and myocardium, which are thought to give the inductive stimulus to the valve primordia. Treatment of wild-type embryos with FK506, a specific calcineurin inhibitor, prevents nuclear localization of
NF-ATc
. These data indicate that the Ca2+/
calcineurin
/
NF-ATc
signalling pathway is essential for normal cardiac valve and septum morphogenesis; hence,
NF-ATc
and its regulatory pathways are candidates for genetic defects underlying congenital human heart disease.
...
PMID:Role of the NF-ATc transcription factor in morphogenesis of cardiac valves and septum. 951 54
Nuclear factor of activated T cells (NF-AT) is the name of a family of four related transcription factors that may be needed for cytokine gene expression in activated lymphocytes. Here we report that mice with a targeted disruption of the
NF-ATc
gene show an unexpected and dramatic defect in cardiac morphogenesis, with selective absence of the aortic and pulmonary valves, leading to death in utero from congestive heart failure at days 13.5-17.5 of gestation. In contrast, tricuspid and mitral valve morphogenesis is normal.
NF-ATc
is the first transcription factor known to be expressed only in the endothelial cells of the heart. As in T cells, nuclear translocation of
NF-ATc
in cardiac endothelial cells is controlled by the calcium-regulated phosphatase
calcineurin
:
NF-ATc
remains cytoplasmic in normal embryos cultured with cyclosporin A, an inhibitor of
calcineurin
. Abnormal development of the cardiac valves and septae is the most frequent form of birth defect, yet few molecular regulators of valve formation are known. Our results indicate that
NF-ATc
may play a critical role in signal-transduction processes required for normal cardiac valve formation.
...
PMID:The transcription factor NF-ATc is essential for cardiac valve formation. 951 54
Cyclosporin A (CsA) exerts its immunosuppressive effect by inhibiting the activity of nuclear factor of activated T cells (NFAT), thus preventing transcriptional induction of several cytokine genes. This effect is mediated through inactivation of the phosphatase
calcineurin
, which inhibits translocation of an NFAT component to the nucleus. We have previously reported that CsA inhibits the growth of rat C6 glioma cells in a dose-dependent manner and induces apoptotic cell death. Here, we report that NFAT DNA-binding activity is present in the nuclear extracts from C6 glioma cells and that CsA treatment inhibits the formation of a functional NFAT complex. We provide evidence for the presence of a group of
NFATc
proteins in proliferating glioma cells. Immunoblot analyses show that stimulation of C6 glioma cells with a calcium-inducing agent, ionomycin, alters
NFATc
migration on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This alteration is inhibited by simultaneous treatment with CsA, suggesting a
calcineurin
involvement in the regulation of glioma
NFATc
proteins. Direct immunofluorescence reveals the presence of
NFATc
proteins in nuclei of proliferating glioma cells and their disappearance in CsA-treated cells. These data point to a new mechanism of transcription regulation in glioma cells and provide an explanation for the observed sensitivity of glioma cells to CsA.
...
PMID:Nuclear factor of activated T cells (NFAT) as a new component of the signal transduction pathway in glioma cells. 964 59
Cyclosporin A (CsA) mainly exerts its immunosuppressive action by selectively inhibiting Ca2+/
calcineurin
-dependent gene transcription in lymphoid cells. A model explaining the tissue-specific effect of this drug on gene expression has not been established to date, since none of the known intracellular targets of CsA (e.g., cyclophilins,
calcineurin
, and NF-AT) is lymphoid cell specific. To investigate this issue, we performed a detailed comparative analysis of the promoter regulating the two-signal-dependent (Ca2+ ionophore plus phorbol myristate acetate [PMA]), CsA-sensitive expression of EGR3 in T cells and the one-signal-dependent (PMA), CsA-insensitive expression of EGR3 in fibroblasts. As a result, we identified a 27-bp promoter element functionally interacting with transcription factors NF-ATp and
NF-ATc
that is crucial for the CsA-sensitive expression of the EGR3 gene in T cells. In contrast, the same element was without function in fibroblasts, and other, CsA-insensitive promoter regions were found to be responsible for EGR3 gene expression in these cells. The inactivity of the 27-bp element in fibroblasts was apparently due to insufficient expression levels of NF-ATp, since overexpression of NF-ATp, but not
NF-ATc
, restored the two-signal phenotype and CsA sensitivity of EGR3 promoter induction in these cells. The differential usage of an NF-AT binding site explains the selective effect of CsA on EGR3 gene expression in T cells versus fibroblasts and may represent one of the basic mechanisms underlying the tissue specificity of CsA.
...
PMID:Utilization of an NF-ATp binding promoter element for EGR3 expression in T cells but not fibroblasts provides a molecular model for the lymphoid cell-specific effect of cyclosporin A. 981 2
We have investigated the mechanism of mitochondrial-nuclear crosstalk during cellular stress in mouse C2C12 myocytes. For this purpose, we used cells with reduced mitochondrial DNA (mtDNA) contents by ethidium bromide treatment or myocytes treated with known mitochondrial metabolic inhibitors, including carbonyl cyanide m-chlorophenylhydrazone (CCCP), antimycin, valinomycin and azide. Both genetic and metabolic stresses similarly affected mitochondrial membrane potential (Deltapsim) and electron transport-coupled ATP synthesis, which was also accompanied by an elevated steady-state cytosolic Ca2+ level ([Ca2+]i). The mitochondrial stress resulted in: (i) an enhanced expression of the sarcoplasmic reticular ryanodine receptor-1 (RyR-1), hence potentiating the Ca2+ release in response to its modulator, caffeine; (ii) enhanced levels of Ca2+-responsive factors calineurin,
calcineurin
-dependent
NFATc
(cytosolic counterpart of activated T-cell-specific nuclear factor) and c-Jun N-terminal kinase (JNK)-dependent ATF2 (activated transcription factor 2); (iii) reduced levels of transcription factor, NF-kappaB; and (iv) enhanced transcription of cytochrome oxidase Vb (COX Vb) subunit gene. These cellular changes, including the steady-state [Ca2+]i were normalized in genetically reverted cells which contain near-normal mtDNA levels. We propose that the mitochondria-to-nucleus stress signaling occurs through cytosolic [Ca2+]i changes, which are likely to be due to reduced ATP and Ca2+ efflux. Our results indicate that the mitochondrial stress signal affects a variety of cellular processes, in addition to mitochondrial membrane biogenesis.
...
PMID:Retrograde Ca2+ signaling in C2C12 skeletal myocytes in response to mitochondrial genetic and metabolic stress: a novel mode of inter-organelle crosstalk. 992 12
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