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Query: UMLS:C0021051 (
immunodeficiency
)
71,517
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
DNA binding by NFAT1 as a dimer has been implicated in the activation of host and viral genes. Here we report a crystal structure of NFAT1 bound cooperatively as a dimer to the highly conserved kappa B site from the human
immunodeficiency
virus 1 (HIV-1) long terminal repeat (LTR). This structure reveals a new mode of dimerization and protein-DNA recognition by the Rel homology region (RHR) of NFAT1. The two NFAT1 monomers form a complete circle around the kappa B DNA through protein-protein interactions mediated by both their N- and C-terminal subdomains. The major dimer interface, formed by the C-terminal domain, is asymmetric and substantially different from the symmetric dimer interface seen in other Rel family proteins. Comparison to other NFAT structures, including
NFAT5
and the NFAT1-Fos-Jun-ARRE2 complex, reveals that NFAT1 adopts different conformations and its protein surfaces mediate distinct protein-protein interactions in the context of different DNA sites.
...
PMID:Structure of NFAT1 bound as a dimer to the HIV-1 LTR kappa B element. 1294 93
To replicate, HIV-1 capitalizes on endogenous cellular activation pathways resulting in recruitment of key host transcription factors to its viral enhancer. RNA interference has been a powerful tool for blocking key checkpoints in HIV-1 entry into cells. Here we apply RNA interference to HIV-1 transcription in primary macrophages, a major reservoir of the virus, and specifically target the transcription factor NFAT5 (nuclear factor of activated T cells 5), which is the most evolutionarily divergent NFAT protein. By molecularly cloning and sequencing isolates from multiple viral subtypes, and performing DNase I footprinting, electrophoretic mobility shift, and promoter mutagenesis transfection assays, we demonstrate that
NFAT5
functionally interacts with a specific enhancer binding site conserved in HIV-1, HIV-2, and multiple simian
immunodeficiency
viruses. Using small interfering RNA to ablate expression of endogenous NFAT5 protein, we show that the replication of three major HIV-1 viral subtypes (B, C, and E) is dependent upon
NFAT5
in human primary differentiated macrophages. Our results define a novel host factor-viral enhancer interaction that reveals a new regulatory role for
NFAT5
and defines a functional DNA motif conserved across HIV-1 subtypes and representative simian
immunodeficiency
viruses. Inhibition of the
NFAT5
-LTR interaction may thus present a novel therapeutic target to suppress HIV-1 replication and progression of AIDS.
...
PMID:NFAT5 regulates HIV-1 in primary monocytes via a highly conserved long terminal repeat site. 1717 80
Immune cells rely on the transcription factor NFAT5 to adapt to hypertonic stress. The hypertonicity-dependent role of
NFAT5
in T cells in vivo remains unclear because mouse models of
NFAT5
deficiency have produced substantially different T cell phenotypes. In this study, we analyzed the T cell compartment in
NFAT5
-null and T cell-specific
NFAT5
knockout mice. We found that
NFAT5
-null mice had constitutive, pronounced hypernatremia and suffered a severe
immunodeficiency
, with T cell lymphopenia, altered CD8 naive/memory homeostasis, and inability to reject allogeneic tumors. By contrast, T cell-specific
NFAT5
knockout mice had normal plasma tonicity, rejected allogeneic tumors, and exhibited only a mild, low-penetrance memory bias in CD8 cells. Notably, when T cells from these mice were cultured ex vivo in hypernatremic media, they exhibited features found in
NFAT5
-null mice, with pronounced naive/memory imbalance and impaired homeostatic survival in response to IL-7, as well as a severe inhibition of their mitogen-induced proliferation. By analyzing surface receptors whose expression might be affected in
NFAT5
-deficient cells, we identified CD24 as a novel
NFAT5
target induced by hypertonicity both in vitro and in vivo, and required to sustain T cell expansion under osmostress.
NFAT5
bound to the Cd24 promoter in response to hypertonicity facilitated the local derepression of chromatin and enhanced the expression of CD24 mRNA and protein. Altogether, our results indicate that the systemic hypernatremia of
NFAT5
-null mice is a major contributor to their
immunodeficiency
, and highlight the role of
NFAT5
and CD24 in the homeostasis of T cells under osmostress in vivo.
...
PMID:NFAT5 regulates T lymphocyte homeostasis and CD24-dependent T cell expansion under pathologic hypernatremia. 2103 89
Studies on human genetic variations are a useful source of knowledge about human
immunodeficiency
virus (HIV)-1 infection. The Langerin protein, found at the surface of Langerhans cells, has an important protective role in HIV-1 infection. Differences in Langerin function due to host genetic factors could influence susceptibility to HIV-1 infection. To verify the frequency of mutations in the Langerin gene, 118 samples from HIV-1-infected women and 99 samples from HIV-1-uninfected individuals were selected for sequencing of the promoter and carbohydrate recognition domain (CRD)-encoding regions of the Langerin gene. Langerin promoter analysis revealed two single nucleotide polymorphisms (SNPs) and one mutation in both studied groups, which created new binding sites for certain transcription factors, such as
NFAT5
, HOXB9.01 and STAT6.01, according to MatInspector software analysis. Three SNPs were observed in the CRD-encoding region in HIV-1-infected and uninfected individuals: p.K313I, c.941C>T and c.983C>T. This study shows that mutations in the Langerin gene are present in the analysed populations at different genotypic and allelic frequencies. Further studies should be conducted to verify the role of these mutations in HIV-1 susceptibility.
...
PMID:Genetic characterisation of Langerin gene in human immunodeficiency virus-1-infected women from Bahia, Brazil. 2467 66
The link between autoimmune diseases and primary
immunodeficiency
syndromes has been increasingly appreciated. Immunologic evaluation of a young man with autoimmune enterocolopathy and unexplained infections revealed evidence of
immunodeficiency
, including IgG subclass deficiency, impaired Ag-induced lymphocyte proliferation, reduced cytokine production by CD8(+) T lymphocytes, and decreased numbers of NK cells. Genetic evaluation identified haploinsufficiency of
NFAT5
, a transcription factor regulating immune cell function and cellular adaptation to hyperosmotic stress, as a possible cause of this syndrome. Inhibition or deletion of
NFAT5
in normal human and murine cells recapitulated several of the immune deficits identified in the patient. These results provide evidence of a primary
immunodeficiency
disorder associated with organ-specific autoimmunity linked to
NFAT5
deficiency.
...
PMID:Immunodeficiency and autoimmune enterocolopathy linked to NFAT5 haploinsufficiency. 2566 16
B lymphocytes, as a central part of adaptive immune responses, have the ability to fight against an almost unlimited numbers of pathogens. Impairment of B cell development, activation and differentiation to antibody secreting plasma cells can lead to malignancy, allergy, autoimmunity and
immunodeficiency
. However, the impact of environmental factors, such as hyperosmolality or osmotic stress caused by varying salt concentrations in different lymphoid organs, on these processes is not well-understood. Here, we report that B cells respond to osmotic stress in a biphasic manner. Initially, increased osmolality boosted B cell activation and differentiation as shown by an untimely downregulation of Pax5 as well as upregulation of CD138. However, in the second phase, we observed an increase in cell death and impaired plasmablast differentiation. Osmotic stress resulted in impaired class switch to IgG1, inhibition of phosphorylation of p38 mitogen-activated kinase and a delayed
NFAT5
response. Overall, these findings demonstrate the importance of microenvironmental hyperosmolality and osmotic stress caused by NaCl for B cell activation and differentiation.
...
PMID:The Impact of Hyperosmolality on Activation and Differentiation of B Lymphoid Cells. 3105 51
