Your search keyword '"INTERFERON regulatory factor genetics"' showing total 26 results

1. Distinctive Roles for Type I and Type II Interferons and Interferon Regulatory Factors in the Host Cell Defense against Varicella-Zoster Virus.

Author

Sen, Nandini, Sung, Phillip, Panda, Arjun, and Arvina, Ann M.

Subjects

*INTERFERON regulatory factor genetics, *VARICELLA-zoster virus, *HERPESVIRUS diseases, *ANTIVIRAL agents, *ANTINEOPLASTIC agents

Abstract

Both type I and type II interferons (IFNs) have been implicated in the host defense against varicella-zoster virus (VZV), a common human herpesvirus that causes varicella and zoster. The purpose of this study was to compare their contributions to the control of VZV replication, to identify the signaling pathways that are critical for mediating their antiviral activity, and to define the mechanisms by which the virus counteracts their effects. Gamma interferon (IFN-α) was much more potent than IFN-α in blocking VZV infection, which was associated with a differential induction of the interferon regulatory factor (IRF) proteins IRF1 and IRF9, respectively. These observations account for the clinical experience that while the formation of VZV skin lesions is initially controlled by local immunity, adaptive virus-specific T cell responses are required to prevent life-threatening VZV infections. IMPORTANCE While both type I and type II IFNs are involved in the control of herpesvirus infections in the human host, to our knowledge, their relative contributions to the restriction of viral replication and spread have not been assessed. We report that IFN-γ has more potent activity than IFN-α against VZV. Findings from this comparative analysis show that the IFN-κ-IRF9 axis functions as a first line of defense to delay the onset of viral replication and spread, whereas the IFN-γ-IRF1 axis has the capacity to block the infectious process. Our findings underscore the importance of IRFs in IFN regulation of herpesvirus infection and account for the clinical experience of the initial control of VZV skin infection attributable to IFN-α production, together with the requirement for induction of adaptive IFN-γ-producing VZV-specific T cells to resolve the infection. [ABSTRACT FROM AUTHOR]

Published

2018

2. IFN Regulatory Factor 2 Inhibits Expression of Glycolytic Genes and Lipopolysaccharide-Induced Proinflammatory Responses in Macrophages.

Author

Huachun Cui, Banerjee, Sami, Sijia Guo, Na Xie, and Gang Liu

Subjects

*INTERFERON regulatory factor genetics, *GENE expression, *LIPOPOLYSACCHARIDES, *IMMUNOLOGY of inflammation, *MACROPHAGES

Abstract

Rapid initiation and timely resolution of inflammatory response in macrophages are synergistic events that are known to be equally critical to optimal host defense against pathogen infections. However, the regulation of these processes, in particular by a specific cellular metabolic program, has not been well understood. In this study, we found that IFN regulatory factor 2 (IRF2) underwent an early degradation in a proteasome-mediated pathway in LPS-treated mouse macrophages, followed by a later recovery of the expression via transactivation. We showed that IRF2 was anti-inflammatory in that knockdown of this protein promoted the production of LPS-induced proinflammatory mediators. Mechanistically, although IRF2 apparently did not target the proximal cytoplasmic signaling events upon LPS engagements, it inhibited HIF-1a-dependent expression of glycolytic genes and thereby cellular glycolysis, sequential events necessary for the IRF2 anti-inflammatory activity. We found that macrophages in endotoxin tolerant state demonstrated deficiency in LPS-augmented glycolysis, which was likely caused by failed downregulation of IRF2 and the ensuing upregulation of the glycolytic genes in these cells. In contrast to observations with LPS, knockdown of IRF2 decreased IL-4-induced macrophage alternative activation. The pro-IL-4 activity of IRF2 was dependent on KLF4, a key mediator of the alternative activation, which was transcriptionally induced by IRF2. In conclusion, our data suggest that IRF2 is an important regulator of the proinflammatory response in macrophages by controlling HIF-1a-dependent glycolytic gene expression and glycolysis. This study also indicates IRF2 as a novel therapeutic target to treat inflammatory disorders associated with dysregulations of macrophage activations. The Journal of Immunology, 2018, 200: 3218-3230. [ABSTRACT FROM AUTHOR]

Published

2018

3. IRF1 Is a Transcriptional Regulator of ZBP1 Promoting NLRP3 Inflammasome Activation and Cell Death during Influenza Virus Infection.

Author

Kuriakose, Teneema, Min Zheng, Kanneganti, Thirumala-Devi, and Neale, Geoffrey

Subjects

*INTERFERON regulatory factor genetics, *DNA-binding proteins, *INFLUENZA A virus, *NLRP3 protein, *CELL death, *INFLUENZA, *GENETICS

Abstract

Innate immune sensing of influenza A virus (IAV) induces activation of various immune effector mechanisms, including the nucleotide and oligomerization domain, leucine-rich repeat-containing protein family, pyrin domain containing 3 (NLRP3) inflammasome and programmed cell death pathways. Although type I IFNs are identified as key mediators of inflammatory and cell death responses during IAV infection, the involvement of various IFN-regulated effectors in facilitating these responses are less studied. In this study, we demonstrate the role of IFN regulatory factor (IRF)1 in promoting NLRP3 inflammasome activation and cell death during IAV infection. Both inflammasome-dependent responses and induction of apoptosis and necroptosis are reduced in cells lacking IRF1 infected with IAV. The observed reduction in inflammasome activation and cell death in IRF1-deficient cells during IAV infection correlates with reduced levels of Z-DNA binding protein 1 (ZBP1), a key molecule mediating IAV-induced inflammatory and cell death responses. We further demonstrate IRF1 as a transcriptional regulator of ZBP1. Overall, our study identified IRF1 as an upstream regulator of NLRP3 inflammasome and cell death during IAV infection and further highlights the complex and multilayered regulation of key molecules controlling inflammatory response and cell fate decisions during infections. [ABSTRACT FROM AUTHOR]

Published

2018

4. IFN Regulatory Factor 3 Balances Th1 and T Follicular Helper Immunity during Nonlethal Blood-Stage Plasmodium Infection.

Author

Liligeto, Urijah N., Nair, Arya Sheela, Fogg, Lily G., Best, Shannon E., Lansink, Lianne I. M., James, Kylie R., Soon, Megan S. F., Sebina, Ismail, Edwards, Chelsea L., Haque, Ashraful, Fernandez-Ruiz, Daniel, Davey, Gayle, Heath, William R., Schroder, Kate, Engwerda, Christian R., Wilson, Jane A. C., Suhrbier, Andreas, Austin, Rebecca, Lane, Steven W., and Hill, Geoffrey R.

Subjects

*INTERFERON regulatory factor genetics, *T helper cells, *MALARIA immunology, *CD4 antigen, *CELL differentiation, *PLASMODIUM

Abstract

Differentiation of CD4+ Th cells is critical for immunity to malaria. Several innate immune signaling pathways have been implicated in the detection of blood-stage Plasmodium parasites, yet their influence over Th cell immunity remains unclear. In this study, we used Plasmodium-reactive TCR transgenic CD4+ T cells, termed PbTII cells, during nonlethal P. chabaudi chabaudi AS and P. yoelii 17XNL infection in mice, to examine Th cell development in vivo. We found no role for caspase1/11, stimulator of IFN genes, or mitochondrial antiviral-signaling protein, and only modest roles for MyD88 and TRIF-dependent signaling in controlling PbTII cell expansion. In contrast, IFN regulatory factor 3 (IRF3) was important for supporting PbTII expansion, promoting Th1 over T follicular helper (Tfh) differentiation, and controlling parasites during the first week of infection. IRF3 was not required for early priming by conventional dendritic cells, but was essential for promoting CXCL9 and MHC class II expression by inflammatory monocytes that supported PbTII responses in the spleen. Thereafter, IRF3-deficiency boosted Tfh responses, germinal center B cell and memory B cell development, parasite-specific Ab production, and resolution of infection. We also noted a B cell-intrinsic role for IRF3 in regulating humoral immune responses. Thus, we revealed roles for IRF3 in balancing Th1- and Tfh-dependent immunity during nonlethal infection with blood-stage Plasmodium parasites. [ABSTRACT FROM AUTHOR]

Published

2018

5. The clinical significance and biological function of interferon regulatory factor 1 in cholangiocarcinoma.

Author

Wan, Peiqi, Zhang, Junhong, Du, Qiang, and Geller, David A.

Subjects

*INTERFERON regulatory factor genetics, *CHOLANGIOCARCINOMA, *PROTEIN expression, *TUMOR suppressor proteins, *GENETICS, *THERAPEUTICS

Abstract

Interferon regulatory factor 1 (IRF1) has been suggested to act as a tumor suppressor in human cancers. However, the clinical significance and biological function of IRF1 in cholangiocarcinoma is poorly understood. In our results, IRF1 mRNA and protein expressions were decreased in cholangiocarcinoma tissues and cell lines compared with paired normal hepatic tissues and intrahepatic bile duct epithelial cell line. IRF1 protein low-expression was associated with tumor stage, tumor size, vascular invasion and metastasis and served as a poor independent prognostic parameter in cholangiocarcinoma patients. Up-regulation of IRF1 expression suppressed cholangiocarcinoma cells proliferation, migration and invasion, and blocked cell cycle progression, but has no effect on apoptosis. In conclusion, IRF1 is low-expressed in cholangiocarcinoma tissues and cell lines, and correlated with malignant status and prognosis in cholangiocarcinoma patients. IRF1 served as tumor suppressor in the regulation of cholangiocarcinoma cells proliferation, cell cycle, migration and invasion. [ABSTRACT FROM AUTHOR]

Published

2018

6. Disrupted IRF6-NME1/2 Complexes as a Cause of Cleft Lip/Palate.

Author

Parada-Sanchez, M. T., Chu, E. Y., Cox, L. L., Undurty, S. S., Standley, J. M., Murray, J. C., and Cox, T. C.

Subjects

INTERFERON regulatory factor genetics, CLEFT lip, HUMAN abnormality etiology, GENETIC mutation, CLEFT palate, GENETIC polymorphisms, HUMAN abnormality genetics, PROTEIN genetics, GENETICS, PHYSIOLOGY

Abstract

Mutations and common polymorphisms in interferon regulatory factor 6 ( IRF6) are associated with both syndromic and nonsyndromic forms of cleft lip/palate (CLP). To date, much of the focus on this transcription factor has been on identifying its direct targets and the gene regulatory network in which it operates. Notably, however, IRF6 is found predominantly in the cytoplasm, with its import into the nucleus tightly regulated like other members of the IRF family. To provide further insight into the role of IRF6 in the pathogenesis of CLP, we sought to identify direct IRF6 protein interactors using a combination of yeast 2-hybrid screens and co-immunoprecipitation assays. Using this approach, we identified NME1 and NME2, well-known regulators of Rho-type GTPases, E-cadherin endocytosis, and epithelial junctional remodeling, as bona fide IRF6 partner proteins. The NME proteins co-localize with IRF6 in the cytoplasm of primary palatal epithelial cells in vivo, and their interaction with IRF6 is significantly enhanced by phosphorylation of key serine residues in the IRF6 C-terminus. Furthermore, CLP associated IRF6 missense mutations disrupt the ability of IRF6 to bind the NME proteins and result in elevated activation of Rac1 and RhoA, compared to wild-type IRF6, when ectopically expressed in 293T epithelial cells. Significantly, we also report the identification of 2 unique missense mutations in the NME proteins in patients with CLP (NME1 R18Q in an IRF6 and GRHL3 mutation-negative patient with van der Woude syndrome and NME2 G71V in a patient with nonsyndromic CLP). Both variants disrupted the ability of the respective proteins to interact with IRF6. The data presented suggest an important role for cytoplasmic IRF6 in regulating the availability or localization of the NME1/2 complex and thus the dynamic behavior of epithelia during lip/palate development. [ABSTRACT FROM AUTHOR]

Published

2017

7. IRF6 and SPRY4 Signaling Interact in Periderm Development.

Author

Kousa, Y. A., Roushangar, R., Patel, N., Walter, A., Marangoni, P., Krumlauf, R., Klein, O. D., and Schutte, B. C.

Subjects

INTERFERON regulatory factor genetics, CELL communication, EPIDERMIS, VAN der Woude syndrome, GENETIC mutation, CLEFT palate, TRANSCRIPTION factors, CLEFT lip, GENETICS, PHYSIOLOGY

Abstract

Rare mutations in IRF6 and GRHL3 cause Van der Woude syndrome, an autosomal dominant orofacial clefting disorder. Common variants in IRF6 and GRHL3 also contribute risk for isolated orofacial clefting. Similarly, variants within genes that encode receptor tyrosine kinase (RTK) signaling components, including members of the FGF pathway, EPHA3 and SPRY2, also contribute risk for isolated orofacial clefting. In the mouse, loss of Irf6 or perturbation of Fgf signaling leads to abnormal oral epithelial adhesions and cleft palate. Oral adhesions can result from a disruption of periderm formation. Here, we find that IRF6 and SPRY4 signaling interact in periderm function. We crossed Irf6 heterozygous ( Irf6+/-) mice with transgenic mice that express Spry4 in the basal epithelial layer ( TgKRT14::Spry4). While embryos with either of these mutations can have abnormal oral adhesions, using a new quantitative assay, we observed a nonadditive effect of abnormal oral epithelial adhesions in the most severely affected double mutant embryos ( Irf6+/-;TgKRT14::Spry4). At the molecular level, the sites of abnormal oral adhesions maintained periderm-like cells that express keratin 6, but we observed abnormal expression of GRHL3. Together, these data suggest that Irf6 and RTK signaling interact in regulating periderm differentiation and function, as well as provide a rationale to screen for epistatic interactions between variants in IRF6 and RTK signaling pathway genes in human orofacial clefting populations. [ABSTRACT FROM AUTHOR]

Published

2017

8. Hsa-miR-513b-5p suppresses cell proliferation and promotes P53 expression by targeting IRF2 in testicular embryonal carcinoma cells.

Author

Wang, Xiaorong, Wang, Lu, Lin, Yu, Sun, Fei, Zhang, Xiansheng, and Wang, Guishuan

Subjects

*MICRORNA genetics, *SERUM albumin, *EMBRYONAL tumors, *TESTICULAR cancer, *INTERFERON regulatory factor genetics, *GENE targeting, *GENETIC overexpression, *CELL proliferation

Abstract

Previous studies have reported the miR-513b is located on the X chromosome and is preferentially expressed in testis. However, the underlying mechanisms of miR-513b involved in spermatogenesis remains unknown. In this study, we found that hsa-miR-513b-5p was highly expressed in the testes of infertile males with maturation arrest compared with normal controls. Overexpression of hsa-miR-513b-5p suppressed testicular embryonal carcinoma (NT2) cell proliferation and induced apoptosis in vitro, whereas silencing of hsa-miR-513b-5p reversed these effects. In addition, we found that interferon regulatory transcription factor 2 (IRF2) was a direct and functional target of hsa-miR-513b-5p. Silencing of endogenous IRF2 enhanced hsa-miR-513b-5p-mediated effects on cell proliferation in NT2 cells, whereas overexpression of IRF2 reversed these effects. Moreover, immunoblotting showed that overexpression of hsa-miR-513b-5p or silencing of endogenous IRF2 could promote the expression of P53. Moreover, overexpression of hsa-miR-513b-5p in the absence of p53 could also induce cell apoptosis. Together, our results suggest that hsa-miR-513b-5p suppresses NT2 cell proliferation and promotes P53 protein expression by targeting IRF2, and abnormal testicular hsa-miR-513b-5p expression may contribute to maturation arrest. [ABSTRACT FROM AUTHOR]

Published

2017

9. Interferon regulatory factors: A key to tumour immunity.

Author

Chen, Yan-Jie, Li, Jing, Lu, Nan, and Shen, Xi-Zhong

Subjects

*INTERFERON regulatory factor genetics, *TUMOR immunology, *CELLULAR immunity, *IMMUNOREGULATION, *CELL cycle

Abstract

Interferon regulatory factors (IRFs), which have 10 members, belong to the transcription factor family and were named because of the regulation of interferon expression. They play important roles in the immune regulation, cell differentiation, cell apoptosis, and cell cycle regulation. This article will review the functional characteristics and immune activity of the family members, especially in the role of cell differentiation and autoimmune diseases. Intensive studies will help uncover the pathogenesis of the disease in a more comprehensive view, and provide novel targets for disease treatment. But the most important problems yet to solve is IRFs function in the development processes of tumour, and whether IRFs can be an important regulator in tumour immune treatment. [ABSTRACT FROM AUTHOR]

Published

2017

10. Up-Regulation of Interferon Regulatory Factor 3 Involves in Neuronal Apoptosis After Intracerebral Hemorrhage in Adult Rats.

Author

Tao, Xuelei, Xie, Lili, Duan, Chengwei, Dai, Shirong, Ren, Jianbing, Yan, Yaohua, Shen, Jianhong, Lu, Hongjian, and Ge, Jianbin

Subjects

*INTERFERON regulatory factor genetics, *APOPTOSIS, *CEREBRAL hemorrhage, *GENETIC regulation, *NATURAL immunity, *LABORATORY rats

Abstract

Interferon regulatory factor 3 (IRF3) is a member of IRF family which plays a significant role in the innate immune response, apoptosis, and oncogenesis. Mounting evidence has demonstrated that IRF3 was involved in central nervous system disease such as cerebral ischemic injury through promoting neuronal apoptosis. However, it remains unclear about the underlying mechanisms of IRF3 upon neuronal apoptosis following intracerebral hemorrhage (ICH). In the present study, we established an adult rat ICH model by injecting autologous whole blood into the right basal ganglia and evaluated their neurological deficits by behavioral tests. IRF3 protein level was up-regulated adjacent to the hematoma following ICH when compared with the sham brain cortex by western blot and immunohistochemistry. Immunofluorescent staining indicated IRF3 was mainly localized in neurons, a few in astrocytes. In addition, we also detected that IRF3 co-localized with active caspase-3 which is a neuronal apoptosis marker. Furthermore, in vitro study, knocking down IRF3 by using IRF3 interference in primary cortical neurons reduced the expression of active caspase-3 and Bax while increased Bcl-2. In conclusion, we speculated that IRF3 might exert pro-apoptotic function in neurons after ICH. [ABSTRACT FROM AUTHOR]

Published

2016

11. POSTERS: FUNCTIONAL GENOMICS.

Subjects

*INTERFERON regulatory factor genetics, *FUNCTIONAL genomics, *BIOMARKERS

Abstract

The article presents abstract on medical topics including variation of goat interferon regulatory factor 3 gene, functional annotation of the equine genome, and blood biomarkers for residual feed intake in pigs.

Published

2016

12. Mangiferin inhibits macrophage classical activation via downregulating interferon regulatory factor 5 expression.

Author

ZHIQUAN WEI, LI YAN, YIXIN CHEN, CHUANHONG BAO, JING DENG, and JIAGANG DENG

Subjects

*CHINESE medicine, *INTERFERON regulatory factor genetics, *ASYMPTOTIC homogenization, *MANGIFERIN, *FLOW cytometry

Abstract

Mangiferin is a natural polyphenol and the predominant effective component of Mangifera indica Linn. leaves. For hundreds of years, Mangifera indica Linn. leaf has been used as an ingredient in numerous traditional Chinese medicine preparations for the treatment of bronchitis. However, the pharmacological mechanism of mangiferin in the treatment of bronchitis remains to be elucidated. Macrophage classical activation is important role in the process of bronchial airway inflammation, and interferon regulatory factor 5 (IRF5) has been identified as a key regulatory factor for macrophage classical activation. The present study used the THP-1 human monocyte cell line to investigate whether mangiferin inhibits macrophage classical activation via suppressing IRF5 expression in vitro. THP-1 cells were differentiated to macrophages by phorbol 12-myristate 13-acetate. Macrophages were polarized to M1 macrophages following stimulation with lipopolysaccharide (LPS)/interferon-γ (IFN-γ). Flow cytometric analysis was conducted to detect the M1 macrophages. Reverse transcription-quantitative polymerase chain reaction was used to investigate cellular IRF5 gene expression. Levels of proinflammatory cytokines and IRF5 were assessed following cell culture and cellular homogenization using enzyme-linked immunosorbent assay. IRF5 protein and nuclei co-localization was performed in macrophages with laser scanning confocal microscope immunofluorescence analysis. The results of the present study demonstrated that mangiferin significantly inhibits LPS/IFN-γ stimulation-induced classical activation of macrophages in vitro and markedly decreases proinflammatory cytokine release. In addition, cellular IRF5 expression was markedly downregulated. These results suggest that the inhibitory effect of mangiferin on classical activation of macrophages may be exerted via downregulation of cellular IRF5 expression levels. [ABSTRACT FROM AUTHOR]

Published

2016

13. Immunomodulatory drugs inhibit TLR4-induced type-1 interferon production independently of Cereblon via suppression of the TRIF/IRF3 pathway.

Author

Millrine, David, Haruhiko Miyata, Mami Tei, Dubey, Praveen, Nyati, Kishan, Taisuke Nakahama, Yohannes Gemechu, Ripley, Barry, and Tadamitsu Kishimoto

Subjects

*TOLL-like receptors, *TYPE I interferons, *INTERFERON regulatory factor genetics, *THALIDOMIDE, *INFLAMMATION treatment, *TUMOR necrosis factor genetics

Abstract

Thalidomide and its derivatives, collectively referred to as immunomodulatory drugs (IMiDs), are effective inhibitors of inflammation and are known to inhibit TLR-induced TNFα production. The identification of Cereblon as the receptor for these compounds has led to a rapid advancement in our understanding of IMiD properties; however, there remain no studies addressing the role of Cereblon in mediating the suppressive effect of IMiDs on TLR responses. Here, we developed Cereblon-deficient mice using the CRISPR-Cas9 system. TLR-induced cytokine responses were unaffected by Cereblon deficiency in vivo. Moreover, IMiD treatment inhibited cytokine production even in the absence of Cereblon. The IMiD-induced suppression of cytokine production therefore occurs independently of Cereblon in mice. Further investigation revealed that IMiDs are potent inhibitors of TLR-induced type-1 interferon production via suppression of the TRIF/IRF3 pathway. These data suggest that IMiDs may prove effective in the treatment of disorders characterized by the ectopic production of type-1 interferon. Significantly, these properties are mediated separately from thalidomide's teratogenic receptor, Cereblon. Thus, certain therapeutic properties of Thalidomide can be separated from its harmful side effects. [ABSTRACT FROM AUTHOR]

Published

2016

14. Retinoic Acid Modulates Interferon-γ Production by Hepatic Natural Killer T Cells via Phosphatase 2A and the Extracellular Signal-Regulated Kinase Pathway.

Author

Chang, Heng-Kwei and Hou, Wu-Shiun

Subjects

*RETINOIC acid receptors, *INTERFERON regulatory factor genetics, *INTERFERON genetics, *T cell receptors, *KINASE genetics, *KINASE inhibitors

Abstract

Retinoic acid (RA), an active metabolite converted from vitamin A, plays an active role in immune function, such as defending against infections and immune regulation. Although RA affects various types of immune cells, including antigen-presenting cells, B lymphocytes, and T lymphocytes, whether it affects natural killer T (NKT) cells remain unknown. In this study, we found that RA decreased interferon (IFN)-γ production by activated NKT cells through T-cell receptor (TCR) and CD28. We also found that RA reduced extracellular signal-regulated kinase (ERK) phosphorylation, but increased phosphatase 2A (PP2A) activity in TCR/CD28-stimulated NKT cells. The increased PP2A activity, at least partly, contributed to the reduction of ERK phosphorylation. Since inhibition of ERK activation decreases IFN-γ production by TCR/CD28-stimulated NKT cells, RA may downregulate IFN-γ production by TCR/CD28-stimulated NKT cells through the PP2A-ERK pathway. Our results demonstrated a novel function of RA in modulating the IFN-γ expression by activated NKT cells. [ABSTRACT FROM AUTHOR]

Published

2015

15. The regulation role of interferon regulatory factor-1 gene and clinical relevance.

Author

Dou, Lei, Liang, Hui-Fang, Geller, David A., Chen, Yi-Fa, and Chen, Xiao-Ping

Subjects

*INTERFERON regulatory factor genetics, *GENETIC regulation, *TRANSCRIPTION factors, *NUCLEOTIDE sequence, *VIRUS diseases, *CARCINOGENESIS, *IMMUNE system

Abstract

IRF-1, a kind of transcription factors, is expressed constitutively in all cells types except early embryonal cells. By virtue of its interaction with specific DNA sequence, IRF-1 regulates the transcription of a set of target genes which play essential roles in various physiological and pathological processes, including viral infection, tumor immune surveillance, pro-inflammatory injury, development of immunity system. What’s more, IRF-1 also interacts with other transcription factors to regulate the specific genes transcription in the nucleus. In immunity system, IRF-1 is suggested to provide a link between innate and adoptive immune system. Although IRF-1 has been demonstrated with essential role in human immunity, the comprehensive understanding of the role of IRF-1 has been restrained because of extensive target genes, Here, we review the clinical relevance of IRF-1 and underlying mechanism based on the latest researches. [ABSTRACT FROM AUTHOR]

Published

2014

16. Interferon stimulated gene 15 expression at the human embryo−maternal interface.

Author

Schanz, Andrea, Baston-Büst, Dunja, Heiss, Christian, Beyer, Ines, Krüssel, Jan, and Hess, Alexandra

Subjects

*GENE expression, *INTERFERON regulatory factor genetics, *PLACENTA development, *ENDOMETRIUM, *HUMAN embryology, *IMMUNOHISTOCHEMISTRY, *ANIMAL models in research

Abstract

Purpose: In early pregnancy the dialogue between maternal endometrium and embryo is a key process in establishing a receptive decidua and placental network. Decidual ISG15 induction is thought to promote pregnancy maintenance and development. ISG15 is involved in RNA splicing, cytoskeletal organization, stress response and further intracellular processes. Methods: ISG15 expression was examined immunohistologically in paraffin-embedded human placental and decidual tissue samples of all pregnancy trimesters on adjacent sections (first trimester n = 5, second n = 5, third n = 3). Samples were processed using a protocol applying a rabbit polyclonal ISG15 antibody. A mouse monoclonal cytokeratin seven antibody was utilized to identify the different placental departments and decidual glands. Staining results and anatomical features were evaluated blindly with strict rating criteria. Results: ISG15 expression was identified in first and second trimester tissue samples. ISG15 localized especially to the extravillous cytotrophoblasts in the maternal wall and in maternal blood vessel. Expression was detected in cytotrophoblast progenitor cells in the placental villi and the cell column with a maximum in the first trimester. The syncytial layer stained positive in first and second trimester samples. Third trimester samples showed no expression of ISG15 at all. Conclusions: ISG15 abundance in the human placenta is an interesting finding, with implications for placental development, fetal growth and potential defense mechanism against infections. The maximal expression of ISG15 in the first and second trimester of pregnancy suggests that ISG function is needed when placental and embryo development is enormous and embryo susceptibility to external influences is high. [ABSTRACT FROM AUTHOR]

Published

2014

17. Persistent prion infection disturbs the function of Oct-1, resulting in the down-regulation of murine interferon regulatory factor-3.

Author

Takujiro Homma, Daisuke Ishibashi, Takehiro Nakagaki, Takayuki Fuse, Kazunori Sano, Katsuya Satoh, Ryuichiro Atarashi, and Noriyuki Nishida

Subjects

*PRION diseases, *INTERFERON genetics, *GLYCOPROTEIN genetics, *INTERFERON receptors, *INTERFERON regulatory factor genetics, *GENETICS

Abstract

As a prompt response against invasion of various viruses, interferon regulatory factor-3 (IRF-3) is initially phosphorylated to become activated and upregulates mainly Type I Interferons (IFN-I) in most cell types. We previously reported that IRF-3-dependent host innate immune responses partially interfere in infection of prions. Here, we found that stable infection of prion suppressed IRF-3 gene-expression. The decreased promoter activity of IRF-3 was significantly restored along with treatment of anti-prion drugs in the prion-infected cells, suggesting that infection of prion directly influence the regulation of IRF-3 transcription. We further investigated promoter activity of 5'- flanking region of murine IRF-3 using a luciferase reporter system and found that the nucleotides -119 to -1 were indispensable for the promoter activity. Within this region, mutations in the Oct-1 binding site significantly reduced the promoter activity and chromatin immunoprecipitation (ChIP) assay revealed that Oct-1 indeed binds to the region. In addition, overexpression of Oct-1 increased the promoter activity of IRF-3. Intriguingly, Oct-1 protein was significantly reduced in prion-infected cells and mice brains compared with uninfected groups. Taken together, we concluded that prion infection could interfere in the function of Oct-1, resulting in the down-regulation of IRF-3. [ABSTRACT FROM AUTHOR]

Published

2014

18. Molecular Effects of Autoimmune-Risk Promoter Polymorphisms on Expression, Exon Choice, and Translational Efficiency of Interferon Regulatory Factor 5.

Author

Clark, Daniel N., Lambert, Jared P., Till, Rodney E., Argueta, Lissenya B., Greenhalgh, Kathryn E., Henrie, Brandon, Bills, Trieste, Hawkley, Tyson F., Roznik, Marinya G., Sloan, Jason M., Mayhew, Vera, Woodland, Loc, Nelson, Eric P., Tsai, Meng-Hsuan, and Poole, Brian D.

Subjects

*INTERFERON regulatory factor genetics, *GENETIC translation, *MOLECULAR genetics, *AUTOIMMUNE diseases, *SINGLE nucleotide polymorphisms, *DISEASE susceptibility, *DISEASE risk factors

Abstract

The rs2004640 single nucleotide polymorphism and the CGGGG copy-number variant (rs77571059) are promoter polymorphisms within interferon regulatory factor 5 ( IRF5). They have been implicated as susceptibility factors for several autoimmune diseases. IRF5 uses alternative promoter splicing, where any of 4 first exons begin the mRNA. The CGGGG indel is in exon 1A's promoter; the rs2004640 allele creates a splicing recognition site, enabling usage of exon 1B. This study aimed at characterizing alterations in IRF5 mRNA due to these polymorphisms. Cells with risk polymorphisms exhibited ∼2-fold higher levels of IRF5 mRNA and protein, but demonstrated no change in mRNA stability. Quantitative PCR demonstrated decreased usage of exons 1C and 1D in cell lines with the risk polymorphisms. RNA folding analysis revealed a hairpin in exon 1B; mutational analysis showed that the hairpin shape decreased translation 5-fold. Although translation of mRNA that uses exon 1B is low due to a hairpin, increased IRF5 mRNA levels in individuals with the rs2004640 risk allele lead to higher overall protein expression. In addition, several new splice variants of IRF5 were sequenced. IRF5's promoter polymorphisms alter first exon usage and increase transcription levels. High levels of IRF5 may bias the immune system toward autoimmunity. [ABSTRACT FROM AUTHOR]

Published

2014

19. Van der Woude syndrome: A review of 11 cases seen at the Lagos University Teaching Hospital.

Author

James, Olutayo, Adeyemo, Wasiu L., Emeka, Christian I., Ogunlewe, Mobolanle O., Ladeinde, Akinola L., and Butali, Azeez

Subjects

*VAN der Woude syndrome, *INTERFERON regulatory factor genetics, *CLEFT lip, *CLEFT palate, *DATA analysis

Abstract

Background: Van der Woude syndrome (VWS), an autosomal dominant condition associated with clefts of the lip and/or palate and lower lip pits and is caused by mutations in interferon regulatory factor six gene. It is reported to be the most common syndromic cleft worldwide. Non-penetrance for the lip pit phenotype is found in at least 10% of affected individuals and those without the pits are phenocopies for non-syndromic clefting. The aim of this study is to present the phenotypic characteristic of VWS seen at the Lagos University Teaching Hospital (LUTH) cleft clinic. Materials and Methods: A review of cases of patients with VWS that attended the cleft lip and palate clinic at the LUTH Idi- Araba, Lagos, from January 2007 to December 2012 was conducted. Data analyses included sex of affected patients, types of cleft, presence of lower lip pits and history of lower lip pits/cleft in the family. Results: A total of 11 cases were seen during the period (male = 4; female = 7). Age at presentation ranged between 1 week and 12 years, with majority (n = 10) less than 2 years of age. Bilateral cleft lip and palate (BCLP) was seen in six patients, isolated soft palatal cleft (n = 3) and unilateral cleft lip and alveolus (n = 1) and cleft of hard and soft palate (n = 1). Bilateral lower lips were presented in 10 out of the 11 cases. The mother of the only patient without lip pits presented with bilateral lower lip pits. No family history of cleft/lip pits was elicited in 10 other cases. Conclusion: Most of the cases of VWS presented with BCLP and lower lip pits. Non-penetrance for the lip pits was seen in one out of 11 cases. Our study emphasizes the need to screen family members in all cleft cases, especially clinically diagnosed non-syndromic cases who may be VWS with no lip pits. Future studies are required to investigate the genetic causes of this syndrome in our population. [ABSTRACT FROM AUTHOR]

Published

2014

20. The Structure of Classical Swine Fever Virus Npro: A Novel Cysteine Autoprotease and Zinc-Binding Protein Involved in Subversion of Type I Interferon Induction.

Author

Gottipati, Keerthi, Ruggli, Nicolas, Gerber, Markus, Tratschin, Jon-Duri, Benning, Matthew, Bellamy, Henry, and Choi, Kyung H.

Subjects

*CLASSICAL swine fever, *CLASSICAL swine fever virus, *CYSTEINE, *INTERFERON beta-1a, *INTERFERON regulatory factor genetics

Abstract

Pestiviruses express their genome as a single polypeptide that is subsequently cleaved into individual proteins by host- and virus-encoded proteases. The pestivirus N-terminal protease (Npro) is a cysteine autoprotease that cleaves between its own C-terminus and the N-terminus of the core protein. Due to its unique sequence and catalytic site, it forms its own cysteine protease family C53. After self-cleavage, Npro is no longer active as a protease. The released Npro suppresses the induction of the host's type-I interferon-α/β (IFN-α/β) response. Npro binds interferon regulatory factor-3 (IRF3), the key transcriptional activator of IFN-α/β genes, and promotes degradation of IRF3 by the proteasome, thus preventing induction of the IFN-α/β response to pestivirus infection. Here we report the crystal structures of pestivirus Npro. Npro is structurally distinct from other known cysteine proteases and has a novel “clam shell” fold consisting of a protease domain and a zinc-binding domain. The unique fold of Npro allows auto-catalysis at its C-terminus and subsequently conceals the cleavage site in the active site of the protease. Although many viruses interfere with type I IFN induction by targeting the IRF3 pathway, little information is available regarding structure or mechanism of action of viral proteins that interact with IRF3. The distribution of amino acids on the surface of Npro involved in targeting IRF3 for proteasomal degradation provides insight into the nature of Npro's interaction with IRF3. The structures thus establish the mechanism of auto-catalysis and subsequent auto-inhibition of trans-activity of Npro, and its role in subversion of host immune response. [ABSTRACT FROM AUTHOR]

Published

2013

21. A Genomic Regulatory Element That Directs Assembly and Function of Immune-Specific AP-1– IRF Complexes.

Author

Gtasmacher, Elke, Agrawat, Smita, Chang, Abraham B., Murphy, Theresa L., Wenwen Zeng, Vander Lugt, Bryan, Khan, Aly A., Ciofani, Maria, Spooner, Chauncey J., Rutz, Sascha, Hackney, Jason, Nurieva, Roza, Escatante, Cartos R., Wenjun Ouyang, Littman, Dan R., Murphy, Kenneth M., and Singh, Hannder

Subjects

*INTERFERON regulatory factor genetics, *PROTEIN research, *IMMUNOPRECIPITATION, *DENDRITIC cells, *CHROMATIN, *IMMUNOREGULATION, *CELL differentiation, *MACROPHAGES

Abstract

Interferon regulatory factor 4 (IRF4) and IRF8 regulate B, T, macrophage, and dendritic cell differentiation. They are recruited to cis-regulatory Ets-IRF composite elements by PU.1 or Spi-B. How these IRFs target genes in most I cells is enigmatic given the absence of specific Ets partners. Chromatin immunoprecipitation sequencing in T helper 17 (TH17) cells reveals that IRF4 targets sequences enriched for activating protein 1 (AP-1)-IRF composite elements (AICEs) that are co-bound by BATF, an AP-1 factor required for TH17, B, and dendritic cell differentiation. IRF4 and BATF bind cooperatively to structurally divergent AICEs to promote gene activation and TH17 differentiation. The AICE motif directs assembly of IRF4 or IRF8 with BATF heterodimers and is also used in TH2. B, and dendritic cells. This genomic regulatory element and cognate factors appear to have evolved to integrate diverse immunomodulatory signals. [ABSTRACT FROM AUTHOR]

Published

2012

22. Association of IRF5 polymorphism with MPO-ANCA-positive vasculitis in a Japanese population.

Author

Kawasaki, A, Inoue, N, Ajimi, C, Sada, K-e, Kobayashi, S, Yamada, H, Furukawa, H, Sumida, T, Tohma, S, Miyasaka, N, Matsuo, S, Ozaki, S, Hashimoto, H, Makino, H, Harigai, M, and Tsuchiya, N

Subjects

*AUTOIMMUNE disease treatment, *GENETICS of autoimmune diseases, *INTERFERON regulatory factor genetics, *CELLULAR signal transduction, *GENETIC transcription, *MYELOPEROXIDASE, *JAPANESE people, *DISEASES

Abstract

Interferon regulatory factor 5 (IRF5) and signal transducer and activator of transcription 4 (STAT4) are shared susceptibility genes for various autoimmune diseases. In this study, we investigated whether these genes also contribute to susceptibility to anti-neutrophil cytoplasmic antibody (ANCA)-associated vasculitis (AAV) in a Japanese population. A case-control study was carried out on IRF5 rs10954213 and STAT4 rs7574865 in 232 Japanese myeloperoxidase (MPO)-ANCA-positive AAV patients, including 177 microscopic polyangiitis and 710 healthy controls. IRF5 rs10954213G was significantly increased in MPO-ANCA-positive AAV (additive model, P=0.023, odds ratio=1.27, 95% confidence interval=1.03-1.57). The risk allele was previously shown to be associated with lower mRNA level of IRF5. On the other hand, significant association of STAT4 rs7574865T with AAV was not detected. These observations suggested that IRF5 may contribute to susceptibility to MPO-ANCA-positive AAV in a Japanese population. [ABSTRACT FROM AUTHOR]

Published

2013

23. The IRF4 Gene Regulatory Module Functions as a Read-Write Integrator to Dynamically Coordinate T Helper Cell Fate.

Author

Krishnamoorthy, Veena, Kannanganat, Sunil, Maienschein-Cline, Mark, Cook, Sarah L., Chen, Jianjun, Bahroos, Neil, Sievert, Evelyn, Corse, Emily, Chong, Anita, and Sciammas, Roger

Subjects

*IMMUNE response, *INTERFERON regulatory factor genetics, *T helper cells, *IMMUNOGLOBULINS, *INFLAMMATION, *ANTIBIOSIS

Abstract

Summary Transcriptional regulation during CD4 + T cell fate decisions enables their differentiation into distinct states, guiding immune responses toward antibody production via Tfh cells or inflammation by Teff cells. Tfh-Teff cell fate commitment is regulated by mutual antagonism between the transcription factors Bcl6 and Blimp-1. Here we examined how T cell receptor (TCR) signals establish and arbitrate Bcl6-Blimp-1 counter-antagonism. We found that the TCR-signal-induced transcription factor Irf4 is essential for the differentiation of Bcl6-expressing Tfh and Blimp-1-expressing Teff cells. Increased TCR signaling raised Irf4 amounts and promoted Teff cell fates at the expense of Tfh ones. Importantly, orthogonal induction of Irf4 expression redirected Tfh cell fate trajectories toward those of Teff. Mechanistically, we linked greater Irf4 abundance with its recruitment toward low-affinity binding sites within Teff cell cis -regulatory elements, including those of Prdm1 . We propose that the Irf4 locus functions as the “reader” of TCR signal strength, and in turn, concentration-dependent activity of Irf4 “writes” T helper fate choice. [ABSTRACT FROM AUTHOR]

Published

2017

24. Bad gene cripples flu defenses.

Author

Leslie, Mitch

Subjects

*INFLUENZA research, *GENETIC mutation, *INTERFERON regulatory factor genetics, *INFLUENZA viruses, *IMMUNE response, *DISEASE susceptibility, *PHYSIOLOGY

Abstract

The article reports on a study by physician Jean-Laurent Casanova of Rockefeller University and colleagues which found a mutated version of the interferon regulatory factor 7 (IRF7) gene has crippled defenses of a French girl against influenza virus. It says that the girl, who was diagnosed with severe influenza, nearly died from the disease because of the faulty gene. It discusses the effect of mutations on cells that are attacked by the flu virus and the susceptibility to severe flu.

Published

2015

25. 75: Interferon Regulatory Factor 4 (IRF4) mediates IFN-β and λ1 expression upon TLR4 and MR challenge in human alternatively activated macrophages.

Author

Perreault, Roger, McGinnis, Gwendolyn J., and Rabin, Ronald L.

Subjects

*INTERFERON regulatory factor genetics, *GENE expression, *TOLL-like receptors, *MACROPHAGE activation, *CYTOKINES, *LUCIFERASES, *GENE silencing

Abstract

Alternative pathway of macrophage activation (AAM) sustains or enhances the inflammation associated with chronic asthma. Using the THP-1 cell line, we have successfully established a model of “classically” and “alternatively” activated macrophages (THP-CAM and THP-AAM, respectively), each of which expresses the appropriate signature cytokines and chemokines. We demonstrate that in response to TLR4 challenge by LPS, THP-AAM had attenuated IFN α/β pathway genes including STAT1/2, MyD88, Mx1, CXCL10, OAS1, and ISG1. In addition, THP-AAM poorly expressed IFN-β, IFN-λ1, and specific subtypes of IFN-α coupled with reduced ability to drive NF-κB driven luciferase reporter, compared to their CAM counterparts. On the other hand, THP-AAM preferentially expressed both mannose receptor (MR) and IRF4. THP-AAM exhibit an MR-dependent expression of IFN-β, λ1, and IL-10 upon binding to house dust mite protein Dermatophagoides pteronyssinus (Derp1). This binding and subsequent cytokine signature expression is compromised upon MR silencing or blocking MR with mannan. IRF4 is critical for expression of key AAM genes including MR and STAT6, and for AAM reduced phagocytosis of Staphylococcus aureus. IRF4 can regulate expression of IFN-β and IFN-λ1 in response to TLR4 and MR challenge by LPS or Derp1 respectively, pointing to a potential role of IRF4 in mediating the AAM phenotype. Taken together, our data demonstrate that THP-AAM is a critical tool to investigate cytokines and chemokines expression profile, in particular IFN α/β pathway genes and type I and III IFN subtypes, in this phenotype. In addition, we demonstrate that IRF4 plays a critical role in mediating AAM response to bacterial and allergen challenge. These findings may provide the basis of a novel IRF4 or MR targeted therapy to decrease allergic. [ABSTRACT FROM AUTHOR]

Published

2013

26. Differential Impact of Interferon Regulatory Factor 7 in Initiation of the Type I Interferon Response in the Lymphocytic Choriomeningitis Virus-Infected Central Nervous System versus the Periphery.

Author

Christensen, Jeanette Erbo, Fenger, Christina, Issazadeh-Navikas, Shohreh, Krug, Anna, Liljestrøme, Peter, Goriely, Stanislas, Paludan, Søren Riis, Finsen, Bente, Christensen, Jan Pravsgaard, and Thomsen, Allan Randrup

Subjects

*INTERFERON regulatory factor genetics, *LYMPHOCYTIC choriomeningitis, *TRANSCRIPTION factors, *GENETIC regulation, *ANTIVIRAL agents, *INFLAMMATION, CENTRAL nervous system infections

Abstract

Interferon (IFN) regulatory factors (IRFs) are a family of transcription factors involved in regulating type I IFN genes and other genes participating in the early antiviral host response. To better understand the mechanisms involved in virus-induced central nervous system (CNS) inflammation, we studied the influence of IRF1, -3, -7, and -9 on the transcriptional activity of key genes encoding antiviral host factors in the CNS of mice infected with lymphocytic choriomeningitis virus (LCMV). A key finding is that neither IRF3 nor IRF7 is absolutely required for induction of a type I IFN response in the LCMV-infected CNS, whereas concurrent elimination of both factors markedly reduces the virus-induced host response. This is unlike the situation in the periphery, where deficiency of IRF7 almost eliminates the LCMV-induced production of the type I IFNs. This difference is seemingly related to the local environment, as peripheral production of type I IFNs is severely reduced in intracerebrally (i.c.) infected IRF7-deficient mice, which undergo a combined infection of the CNS and peripheral organs, such as spleen and lymph nodes. Interestingly, despite the redundancy of IRF7 in initiating the type I IFN response in the CNS, the response is not abolished in IFN-ß-deficient mice, as might have been expected. Collectively, these data demonstrate that the early type I IFN response to LCMV infection in the CNS is controlled by a concerted action of IRF3 and -7. Consequently this work provides strong evidence for differential regulation of the type I IFN response in the CNS versus the periphery during viral infection [ABSTRACT FROM AUTHOR]

Published

2012