Negative Feedback Regulation of NF-κB Action by CITED2 in the Nucleus

Lou, Xiwen; Sun, Shaogang; Chen, Wei; Zhou, Yi; Huang, Yao‐Zeng; Liu, Xing; Shan, Yufei; Wang, Chen

doi:10.4049/jimmunol.1001650

Cited by 59 publications

(61 citation statements)

References 46 publications

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“…The exact mechanism through which GILZ impacts on DNA binding remains unclear. However, it is known that posttranslational modifications (e.g., phosphorylation and acetylation) of NF-kB are absolutely required for its optimal transcriptional activity (36)(37)(38), and, in many cases, these posttranslational modifications are able to alter transcriptional activity without affecting nuclear translocation (39)(40)(41).…”

Section: Discussionmentioning

confidence: 99%

GILZ Overexpression Inhibits Endothelial Cell Adhesive Function through Regulation of NF-κB and MAPK Activity

Cheng

Fan

Ngo

et al. 2013

The Journal of Immunology

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Glucocorticoid-induced leucine zipper (GILZ) is an anti-inflammatory protein first identified in T lymphocytes. We recently observed that GILZ is highly expressed in synovial endothelial cells in rheumatoid arthritis. However, the function of GILZ in endothelial cells is unknown. To investigate the actions of GILZ in this cell type, we induced GILZ expression in HUVECs via transient transfection. GILZ overexpression significantly reduced the capacity of TNF-stimulated HUVECs to support leukocyte rolling, adhesion, and transmigration. These effects were associated with decreased expression of E-selectin, ICAM-1, CCL2, CXCL8, and IL-6. Experiments in a human microvascular endothelial cell line demonstrated that TNF-inducible NF-κB activity was significantly inhibited by overexpression of GILZ. Exogenous GILZ inhibited TNF-induced NF-κB p65 DNA binding, although this occurred in the absence of an effect on p65 nuclear translocation, indicating that the mechanism of action of exogenous GILZ in endothelial cells differs from that reported in other cell types. GILZ overexpression also inhibited TNF-induced activation of p38, ERK, and JNK MAPKs, as well as increased expression of the MAPK inhibitory phosphatase, MKP-1. In contrast, silencing endogenous GILZ in glucocorticoid-treated HUVECs did not alter their capacity to support leukocyte interactions. These data demonstrate that exogenous GILZ exerts inhibitory effects on endothelial cell adhesive function via a novel pathway involving modulation of NF-κB p65 DNA binding and MAPK activity. Induction of GILZ expression in endothelial cells may represent a novel therapeutic modality with the potential to inhibit inflammatory leukocyte recruitment.

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Section: Discussionmentioning

confidence: 99%

GILZ Overexpression Inhibits Endothelial Cell Adhesive Function through Regulation of NF-κB and MAPK Activity

Cheng

Fan

Ngo

et al. 2013

The Journal of Immunology

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“…We demonstrated that Introduction 47 Hypoxia inducible factors (HIF) 1 1 and 2 are crucial to mediate 48 the cellular adaptation in response to hypoxia [1]. HIF-1 and HIF-2 49 are heterodimers formed by the oxygen-sensitive subunits, HIF-1a 50 and HIF-2a, and a constitutive subunit referred to as HIF-1b or 51 Arnt1. Under normoxic conditions, the oxygen, 2-oxoglutarate and 52 iron-dependent prolyl hydroxylases (PHDs) catalyse the hydroxyla- 53 tion of two key proline residues present in the oxygen-dependent 54 degradation domain (ODDD) of HIF-1a and HIF-2a, promoting their 55 recognition by the von Hippel-Lindau protein (pVHL) E3 ligase and 56 their subsequent degradation by the proteasome [2].…”

mentioning

confidence: 98%

“…665 Of particular interest, yeast two-hybrid screenings have pointed 666 out a potential interaction between FBXL5 and p300 in the human 667 liver protein network [47]. tion might also indirectly affect the acetylation process of tran-683 scription factors by CBP/p300, such as p53 and NF-jB [49,50]. 684 Since cellular iron and oxygen deprivation destabilizes FBXL5 and 685 promotes its own degradation by the proteasome [27,28], the 686 interaction between CITED2 and the CH1 domain of CBP/p300 687 might also be modulated by the cellular availability of iron and 688 oxygen.…”

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confidence: 99%

FBXL5 modulates HIF-1α transcriptional activity by degradation of CITED2

Machado-Oliveira

Guerreiro

Matias

et al. 2015

Archives of Biochemistry and Biophysics

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“…Bone marrow-derived macrophages (BMDMs) were obtained, as described previously (29). BMDMs were harvested after ∼6∼10 d and recultured in 12-well plates for small interfering RNA (siRNA) transfection using lipofectamine 2000 (Invitrogen) and further experiments.…”

Section: Cell Culture and Manipulation Of Primary Cellsmentioning

confidence: 99%

UXT-V1 Facilitates the Formation of MAVS Antiviral Signalosome on Mitochondria

Huang

Liu

et al. 2012

The Journal of Immunology

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Virus infection induces the MAVS–TNFR-associated factor (TRAF) 3 signaling axis on mitochondria. It remains to elucidate the corresponding regulatory processes. In this study, we identify UXT-V1 as a novel TRAF3-binding protein. UXT-V1 is critical for the virus-induced activation of NF-κB and IFN regulatory factor 3. Reduction of UXT-V1 impairs the induction of IFN-β and attenuates the host antiviral responses. The N-terminal TRAF-binding motif of UXT-V1 binds to the C-terminal TRAF domain of TRAF3, thus facilitating the interaction between TRAF3 and MAVS. Notably, TRAF3 and TNFR-associated death domain protein are recruited onto mitochondria upon virus infection. These translocations are blocked when knocking down UXT-V1. Thus, UXT-V1 represents a novel integral component of the MAVS signalosome on mitochondria, mediating the innate antiviral signal transduction.

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Negative Feedback Regulation of NF-κB Action by CITED2 in the Nucleus

Cited by 59 publications

References 46 publications

GILZ Overexpression Inhibits Endothelial Cell Adhesive Function through Regulation of NF-κB and MAPK Activity

GILZ Overexpression Inhibits Endothelial Cell Adhesive Function through Regulation of NF-κB and MAPK Activity

FBXL5 modulates HIF-1α transcriptional activity by degradation of CITED2

UXT-V1 Facilitates the Formation of MAVS Antiviral Signalosome on Mitochondria

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