Expression of NFAT-Family Proteins in Normal Human T Cells

Lyakh, Lyudmila; Ghosh, Paritosh; Rice, Nancy R.

doi:10.1128/mcb.17.5.2475

Cited by 162 publications

(173 citation statements)

References 45 publications

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“…Polyclonal antiserum anti-67.1 against an N-terminal peptide common to all NFAT1 isoforms or anti-T2B1 against a C-terminal peptide of NFAT1c (Y. Wang et al, NYAS), mAb 7A6 against NFAT2 (Alexis Biochemicals, San Diego, CA), and polyclonal antisera against NFAT3 and -4 (gift from T. Hoey, Tularik) were used to detect NFAT family members. Consistent with previous results showing that PBL do not contain NFAT3 (28,29), we were unable to detect NFAT3 by immunoblotting of either control or patient T cells. Therefore, the experiments shown here report only on the activation status of NFAT1, -2, and -4.…”

Section: Western Blotting and In Vitro Dephosphorylationsupporting

confidence: 91%

“…No attempt was made to sequence NFAT3, because we could not detect NFAT3 proteins by immunoblotting, and mRNA expression was absent in immune cells as shown by others (28,29). The DBD and N-terminus of NFAT1, -2, and -4 of our two SCID patients did not reveal any mutation that would result in an amino acid exchange, frame shift, insertion, deletion, or premature stop codon.…”

Section: No Inherent Defect Of Nfat or Cn In The Scid Patients' T Cellsmentioning

confidence: 65%

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The Duration of Nuclear Residence of NFAT Determines the Pattern of Cytokine Expression in Human SCID T Cells

Feske

Draeger

Peter

et al. 2000

The Journal of Immunology

124

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The expression of cytokine genes and other inducible genes is crucially dependent on the pattern and duration of signal transduction events that activate transcription factor binding to DNA. Two infant patients with SCID and a severe defect in T cell activation displayed an aberrant regulation of the transcription factor NFAT. Whereas the expression levels of the NFAT family members NFAT1, -2, and -4 were normal in the patients’ T cells, dephosphorylation and nuclear translocation of these NFAT proteins occurred very transiently and incompletely upon stimulation. Only after inhibition of nuclear export with leptomycin B were we able to demonstrate a modest degree of nuclear translocation in the patients’ T cells. This transient activation of NFAT was not sufficient to induce the expression of several cytokines, including IL-2, IL-3, IL-4, and IFN-γ, whereas mRNA levels for macrophage inflammatory protein-1α, GM-CSF, and IL-13 were only moderately reduced. By limiting the time of NFAT activation in normal control cells using the calcineurin inhibitor cyclosporin A, we were able to mimic the cytokine expression pattern in SCID T cells, suggesting that the expression of different cytokine genes is differentially regulated by the duration of NFAT residence in the nucleus.

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Section: Western Blotting and In Vitro Dephosphorylationsupporting

confidence: 91%

Section: No Inherent Defect Of Nfat or Cn In The Scid Patients' T Cellsmentioning

confidence: 65%

The Duration of Nuclear Residence of NFAT Determines the Pattern of Cytokine Expression in Human SCID T Cells

Feske

Draeger

Peter

et al. 2000

The Journal of Immunology

124

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“…The protein concentration in the extracts was determined using a commercial assay kit (Bio-Rad). For supershift experiments, the following antibodies were used: rabbit polyclonal antibodies against NF-kB1 and RelA , NF-kB2 (p52) (Lanoix et al, 1994), Rel (p75) (Tan et al, 1992), RelB (p68) (Nancy Rice, unpublished; raised against a synthetic 17-amino acid peptide covering the C-terminus of human RelB: RE-AAFGGGLLPGPEAT), a pan-NF-AT antibody, raised against an internal peptide of human NF-AT common to all members of the NF-AT family (Lyakh et al, 1997). Nuclear extracts were incubated overnight with 1 ml of either antisera prior to the binding reaction.…”

Section: Electrophoresis Mobility Shift Assaysmentioning

confidence: 99%

Cooperation between SMAD and NF-κB in growth factor regulated type VII collagen gene expression

et al. 1999

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We have previously demonstrated that transforming growth factor-b (TGF-b) and pro-in¯ammatory cytokines, such as tumor necrosis factor-a (TNF-a) or interleukin-1b, synergistically enhance the expression of type VII collagen gene (COL7A1) in human dermal ®broblasts in culture (Mauviel et al., 1994). Recently, we identi®ed a SMAD-containing complex, rapidly induced by TGF-b and binding the region [7496/7444] of the COL7A1 promoter, responsible for COL7A1 gene transactivation (Vindevoghel et al., 1998a). In this report, we demonstrate that TGF-b and TNF-a response elements are distinct entities within the COL7A1 promoter. In particular, we demonstrate that the TNFa e ect is mediated by NF-kB1/RelA (p50/p65) and RelA/RelA (p65/p65) NF-kB complexes binding the TNF-a response element (TaRE) located in the region [7252/7230], with RelA acting as the transcriptional activator. Finally, we provide de®nitive evidence for the role of both TGF-b and TNF-a response elements as enhancer sequences, functioning in the context of a heterologous promoter in an additive manner in response to TGF-b and TNF-a. This study provides the ®rst identi®cation of a functional interaction between the two immediate-early transcription factors, SMAD and NFkB, to activate the expression of an extracellular matrixrelated gene, COL7A1.

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“…In T cells, NFATp and NFATc appear to be the major NFAT proteins expressed and regulated during the T cell activation process. NFAT3, on the other hand, has not been detected in the immune system, and NFAT4, whose mRNA levels are elevated in thymus and in nonlymphoid tissues (1), is found at low levels in resting or activated peripheral blood T cells (23). Whereas the putative kinase that could regulate the nuclear exit of NFATp has not yet been identified, GSK3 has been reported to enhance the nuclear export of NFATc (24).…”

mentioning

confidence: 99%

A Role for the p38 MAP Kinase Pathway in the Nuclear Shuttling of NFATp

Arco¹,

Martı́nez-Martı́nez²,

Maldonado³

et al. 2000

Journal of Biological Chemistry

142

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Calcium signals lead to the translocation of nuclear factor of activated T cells (NFAT) from the cytoplasm to the nucleus. This process is regulated by the calciumactivated phosphatase calcineurin, which can be cotransported with NFAT to the nucleus to maintain it transcriptionally active for the duration of calcium signaling. When the calcium signal ceases, NFAT is exported to the cytoplasm, and different NFAT kinases have been reported to oppose calcineurin activities and regulate the nuclear export of NFAT. Here we show that p38 MAPK phosphorylates in vitro and interacts in vivo with NFATp. Furthermore, the activation of this pathway in HeLa cells by cotransfection with activated MKK6 and p38 counteracts the calcium-induced nuclear accumulation of NFATp but not that of NFATc. By contrast, activation of JNK or ERK pathways failed to modify the nuclear shuttling of NFATp. Consistently, activation of p38, but not the JNK MAPK pathway, results in the inhibition of NFATp-driven transcription. In addition, the inhibition of the nuclear accumulation of NFATp by p38 appears to be mediated through the activation of NFATp nuclear export and takes place in a Leptomycin B-sensitive fashion, suggesting the involvement of the exportin CRM1 in this process. Thus, the p38 signal transduction pathway appears to play an important role in the regulation of the nuclear shuttling of NFATp and in cellular homeostasis.

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Expression of NFAT-Family Proteins in Normal Human T Cells

Cited by 162 publications

References 45 publications

The Duration of Nuclear Residence of NFAT Determines the Pattern of Cytokine Expression in Human SCID T Cells

The Duration of Nuclear Residence of NFAT Determines the Pattern of Cytokine Expression in Human SCID T Cells

Cooperation between SMAD and NF-κB in growth factor regulated type VII collagen gene expression

A Role for the p38 MAP Kinase Pathway in the Nuclear Shuttling of NFATp

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