Human Papillomavirus 16 E7 Inhibits the ability of IFN-γ in Enhancement of MHC Class I Antigen Presentation and CTL Lysis by Affecting IRF-1 Expression in Keratinocytes

Fang Zhou

Unknown Date

The results of experiments aimed at determining whether cytotoxic T lymphocytes (CTLs) can kill keratinocytes (KCs) expressing endogenously loaded antigen indicated that antigen specific cytotoxic T lymphocytes could recognize and kill keratinocytes expressing ovalbumin (OVA) or SIINFEKL peptide. Exposure of the KCs to interferon-gamma (IFN-γ) enhanced this CTL-mediated KC lysis and increased CTL epitope presentation on the surface of target cells. Expression of HPV 16 E7 protein in KCs affected CTL-mediated lysis. Expression of HPV 16 E7 inhibited IFN-γ-mediated up-regulation of SIINFEKL/H-2Kb complexes on keratinocytes, and also inhibited IFN-γ-mediated up-regulation of IRF-1 expression, and consequent up-regulation of TAP1 transcription. Further, overexpression of IRF-1 partially corrected the HPV 16 E7-mediated inhibition of enhanced susceptibility of KC lysis induced by IFN-γ. Thus, the effects of HPV 16 E7 on CTL-mediated lysis of IFN-γ exposed KCs are likely mediated by inhibition of MHC class I antigen presentation by IFN-γ. These findings may help explain why HPV-infected epithelial cells can escape from immune surveillance mediated by CTLs in vivo and in vitro.

Keratinocyte

MHC Class I antigen presentation

CTL epitope

HPV 16 E7

Interferon gamma

Interferon regulatory factor-1 (IRF-1)

Sequenciamento de nova geração do gene IRF4: identificação de variações associadas a fenótipos de pigmentação na população brasileira / Next generation sequencing of gene IRF4: identification of variations associated with pigmentation traits in the Brazilian population

Maria Luiza Guimarães de Oliveira

25 May 2016

O gene fator regulador de interferon 4 (IRF4), localizado na região cromossômica 6p25- p23, é um membro da família de fatores reguladores de interferon (IRF), um grupo de fatores de transcrição de ligação ao DNA, sendo IRF4 primariamente associado ao desenvolvimento e resposta imune e expresso exclusivamente em células do sistema imunológico e em linhagens melanocíticas. Embora muitos estudos tenham associado IRF4 a diversas condições, como melanoma e leucemia linfocítica crônica, um recente Genome-Wide Association Study (GWAS) identificou que alelos do SNP rs12203592 (intron 4) estão associados com variação fenotípica em relação à presença de sardas, pigmentação da pele, cabelos e olhos. Estudos funcionais realizados em células melanocíticas humanas e de camundongos revelaram que este SNP está diretamente envolvido na regulação da expressão de IRF4, sugerindo uma clara função na pigmentação do melanócito. Apesar destes achados, a diversidade das regiões regulatórias e codificadora de IRF4 não foi até o momento analisada em populações miscigenadas. A fim de avaliar se outros sítios de variação ao longo do gene IRF4 podem estar associados à pigmentação humana, as regiões regulatórias (promotora e 3´UTR) e codificadora (9 exons e regiões intrônicas flanqueadoras, incluindo o SNP rs12203592) foram analisadas por sequenciamento de nova geração em uma amostra miscigenada da população brasileira. A amostra populacional foi composta por 228 indivíduos não aparentados de Ribeirão Preto, estado de São Paulo, Brasil, os quais foram estratificados de acordo com a pigmentação da pele (clara, média e escura), olhos (azul, verde, castanho-claros e castanho-escuros), cabelo (ruivo, loiro-claro, loiroescuro, castanho-claro, castanho-escuro e preto) bem como em relação à presença de sardas e intensidade de cabelos grisalhos. Bibliotecas de DNA foram preparadas utilizando o Sistema de Enriquecimento de Alvo Haloplex (Agilent Technologies) e sequenciadas na plataforma MiSeq (Illumina). Os pacotes de software CutAdapt, BWA and GATK foram utilizados, respectivamente, para trimagem das sequências dos adaptadores, alinhamento e identificação de variantes. Haplótipos e alelos não identificados foram inferidos pelo método PHASE, embora a fase conhecida entre os sítios de variação (obtida pelo GATK) tenha sido levada em consideração. Um total de 105 sítios de variação foram identificados. Apenas dois deles apresentaram frequências genotípicas que não atendem ao esperado pelo equilíbrio de Hardy-Weinberg (EHW). Dezoito destes SNPs apresentaram forte associação a pelo menos uma característica de pigmentação. Entretanto, se a conservadora correção de Bonferroni para múltiplos testes for levada em consideração, apenas duas associações, ambas envolvendo o SNP rs12203592, permanecem significativas: a associação do alelo T com pele clara e olhos azuis. Este resultado está de acordo com estudos prévios, que reportam que o alelo rs12203592*T leva a uma menor ativação de IRF4 e a uma expressão reduzida da tirosinase, resultando em sensibilidade ao sol e olhos azuis. Foi inferido um total de 101 haplótipos, estando a distribuição destes de acordo com o esperado pelo EHW. Quando os haplótipos foram divididos em haplótipos da promotora, codificadora e 3´UTR foram observadas, respectivamente, 17, 29 e 37 diferentes combinações haplotípicas. Várias associações foram identificadas, particularmente envolvendo o haplótipo mais frequente da promotora, os dois haplótipos mais frequentes da codificadora e o haplótipo mais frequente da 3´UTR, todos associados com pele clara, olhos azuis, cabelos castanhos e cabelos grisalhos. Estes resultados sugerem que outras variantes além de rs12203592, quando consideradas em um contexto haplotípico, são associadas com a pigmentação humana. / The Interferon Regulatory Factor 4 (IRF4) gene, located at chromosomal region 6p25- p23, is a member of the interferon regulatory factor (IRF) family, a group of DNAbinding transcription factors, with the IRF4 primarily associated with immune system development and response and expressed exclusively in immune system cells and melanocytic lineages. Although many studies have shown that IRF4 is associated with many human conditions, such as melanoma and chronic lymphocytic leukemia, a recent Genome-Wide Association Study (GWAS) identified that alleles from the SNP rs12203592 (intron 4) is also associated with phenotypic variation regarding presence of freckles, hair, eye and skin pigmentation. Functional studies in human and mice melanin-containing cells revealed that such SNP is directly involved in the regulation of IRF4 expression, suggesting a clear role in melanocyte pigmentation. In spite of these findings, the regulatory and coding IRF4 diversities in admixed populations have not been evaluated so far. In order to verify if other variation sites spread across the IRF4 gene may be associated with human pigmentation, the regulatory (promoter and 3\'UTR regions) and coding (9 exons and flanking intronic regions, including the SNP rs12203592) regions were analyzed by next-generation sequencing procedures in a Brazilian admixed population sample. The population sample was composed of 228 unrelated individuals from the Ribeirão Preto area, São Paulo State, Brazil, which were stratified according to eye (blue, green, hazel, light-brown, and dark-brown), hair (red, blond, dark-blond, light-brown, dark-brown and black) and skin (light, intermediate and dark) pigmentation, as well as regarding the presence of freckles and intensity of hair greying. DNA libraries were prepared using the Haloplex Target Enrichment System (Agilent Technologies) and sequenced at the MiSeq platform (Illumina). CutAdapt, BWA and GATK software packages were used for trimming adaptor sequences, alignment and genotype calling, respectively. Missing alleles and haplotypes were inferred by using the PHASE method, although the known phase between variable sites (obtained by GATK) was taken into account. A total of 105 variation sites were identified. Only two of them presented genotype frequencies that did not fit Hardy- Weinberg equilibrium (HWE) expectations. Eighteen of these SNPs presented strong association with at least one pigmentation feature. However, if the conservative Bonferroni correction for multiple tests is taken into account, only two associations, both of them involving the rs12203592 SNP, remain significant: allele T associated with light skin and blue eyes. This result is in agreement with previous reports that the rs12203592*T allele leads to reduced IRF4 activation and reduced tyrosinase expression, leading to sun sensitivity and blue eyes. A total of 101 different haplotypes were inferred, and haplotype distribution was in agreement to HWE expectations. When haplotypes were subdivided in promoter, coding and 3\'UTR haplotypes, 17, 29 and 37 different haplotypes were observed, respectively. Various associations were identified, particularly involving the most frequent promoter haplotype, the two most frequent coding (only one of them with allele rs12203592*T), and the most frequent 3\'UTR, all of them with light skin, blue eyes, brown hair and hair greying. These results suggest that other variation sites besides rs12203592, when considered in a haplotypic background, are associated with human pigmentation.

Brasil

Diversidade genética

Fator regulador de interferon 4

rs12203592

Sequenciamento de nova geração

Brazil

Genetic diversity

Interferon regulatory factor 4

Next generation sequencing

rs12203592

The Linear Ubiquitin Assembly Complex Modulates Latent Membrane Protein 1 Activation of NF-κB and Interferon Regulatory Factor 7

Wang, Ling, Wang, Yujia, Zhao, Juan, Ren, Junping, Hall, Kenton H., Moorman, Jonathon P., Yao, Zhi Q., Ning, Shunbin

01 January 2017

Recently, linear ubiquitin assembly complex (LUBAC)-mediated linear ubiquitination has come into focus due to its emerging role in activation of NF-κB in different biological contexts. However, the role of LUBAC in LMP1 signaling leading to NF-κB and interferon regulatory factor 7 (IRF7) activation has not been investigated. We show here that RNF31, the key component of LUBAC, interacts with LMP1 and IRF7 in Epstein-Barr virus (EBV)-transformed cells and that LUBAC stimulates linear ubiquitination of NEMO and IRF7. Consequently, LUBAC is required for LMP1 signaling to full activation of NF-κB but inhibits LMP1-stimulated IRF7 transcriptional activity. The protein levels of RNF31 and LMP1 are correlated in EBV-transformed cells. Knockdown of RNF31 in EBV-transformed IB4 cells by RNA interference negatively regulates the expression of the genes downstream of LMP1 signaling and results in a decrease of cell proliferation. These lines of evidence indicate that LUBAC-mediated linear ubiquitination plays crucial roles in regulating LMP1 signaling and functions. IMPORTANCE We show here that LUBAC-mediated linear ubiquitination is required for LMP1 activation of NF-κB but inhibits LMP1-mediated IRF7 activation. Our findings provide novel mechanisms underlying EBV-mediated oncogenesis and may have a broad impact on IRF7-mediated immune responses.

Interferon Regulatory Factor-7

Multiprotein Complexes

NF-kappa B

ubiquitin

Viral Matrix Proteins

LUBAC

LMP1

IRF7

ubiquitination

Internal Medicine

Internal Medicine

An essential role of IRF4 in translating TCR a nity-mediated activation and CD8+ e ector T cell fate decisions

Hartung, Anett

07 July 2016

CD8+ T Zellen unterstützen die Beseitigung von Pathogenen und sind somit entscheidend bei der Bekämpfung von Infektionen. Neben der Antigendosis und dem inflammatorischen Zytokinemilieu hat auch die Stimulation durch den TZR einen entscheidenden Einfluss auf die CD8+ T Zellantwort. Das transkriptionelle Programm, die finale Größe und Dauer der klonalen Expansion und der Start der Kontraktionsphase werden durch die TZR-Signalstärke bestimmt. Schwache TZR-Stimulation führt zu einer verminderten Expansion und vermittelt eine frühzeitige Kontraktionsphase, die eine Entwicklung von Gedächtniszellen auf den Kosten der Effektorzellen favorisiert. IRF4 wird nach TZR-Ligand-Interaktion in CD8+ T-Zellen hoch reguliert. Seine Expressionskinetik ist stark von der TZR-Signalstärke der Aktivierung abhängig, übersetzt diese und sorgt für die Umsetzung in ein entsprechendes transkriptionelles und differentielles Programm. In dieser Arbeit konnte erstmals gezeigt werden, dass die IRF4-Defizienz in CD8+ T-Zellen zu einem verfrühten Abbruch der Expansion und zu einem vorzeitigen Beginn der Kontraktion führt, die durch den FAS-vermittelten Tod-induzierenden Signalweg initiiert wird. Außerdem präsentieren IRF4-defiziente CD8+ T-Zellen vermehrt Phosphatidylserine an ihrer Oberfläche und Komplementdeposition, beides begünstigt die Erkennung und Aufnahme durch Phagozyten. Diese Ergebnisse weisen zudem stark darauf hin, dass durch die fehlende Expression von IRF4 in CD8+ T Zellen, ein schwaches TZR-Signal übermittelt wird, unabhängig von der tatsächlichen Stärke und Dauer des aktivierenden Signals, dass zu einer Verkürzung der Expansionsphase führt und eine verfrühte Kontraktionsphase der Effektorzellen auslöst. Diese Arbeit erweitert schon bekanntes Wissen um IRF4 als Schlüsselregulator für die Differenzierung und Funktionalität der ag-spezifischen CD8+ T-Zellen, da es den Beginn der Kontraktionsphase diktiert mittels Aktivierung von verschiedenen Apoptose- und Phagocytose Signalwegen. / CD8+ T cells promote pathogen clearance and play a crucial role in controlling infections. Besides antigen dose and inflammatory cytokine milieu, the TCR stimulation contributes to the programming of the CD8+ T cell response. A distinct developmental program, the final magnitude and duration of clonal expansion, as well as the timing of the onset of T cell contraction, are determined by the TCR signaling strength. Weak TCR stimulation results in a diminished magnitude of expansion and accelerates the onset of contraction, as it favors the development of memory cells at the expense of effector cells. IRF4 is a transcription factor, that is upregulated in CD8+ T cells following TCR stimulation. Furthermore, its expression kinetic is highly dependent on the TCR signaling strength, which initiated activation. Therefore, it translates the strength of the activating signal and transmits it into a proper transcriptional and developmental program. This study provides unique evidence that the absence of IRF4 expression in CD8+ T cells leads to a hasted termination of clonal expansion and a premature contraction, initiated by the FAS-mediated cell death pathway. Moreover, IRF4-deficient CD8+ T cells exposed phosphatidylserine on their cell surface and showed complement deposition, both facilitating their recognition and uptake by phagocytes. The findings of this study additionally strongly indicate that IRF4 deficiency mimics weak TCR engagement and in turn transmits every TCR signal, independent of its actually affinity and duration, into a developmental program, that give rise to an early memory formation and results in a premature onset of effector CD8+ T cell contraction. This data extend previous knowledge of IRF4 being essential for the differentiation and functionality of ag-specific effector CD8+ T cells, as it furthermore dictates the onset of CD8+ T cell contraction via the activation of several death and phagocytosis inducing pathways.

Listerien

CD8+ T Zellen

Interferon regulatory factor 4

CD8+ T Zell-Effektorantwort und Function

T Zell-Rezeptor

TZR-Signalstärke

T cell receptor

CD8+ T cells

Interferon regulatory factor 4

TCR signaling strength

Listeria

570 Biowissenschaften, Biologie

32 Biologie

WF 9895

ddc:570

Využití metody RNA interference (RNAi) ke studiu onkogenních vlastností viru Kaposiho sarkomu (KSHV). / Employing an RNA interference method (RNAi) to sudy oncogenic properties of Kaposi's sarcoma-associated herpesvirus (KSHV)

Riegerová, Petra

January 2017

Kaposi's sarcoma-associated herpesvirus (KSHV) is a DNA tumor virus that has been associated with all epidemiological forms of Kaposi's sarcoma, primary effusion lymphoma (PEL) and multicentric Castleman disease (MCD). Like other herpesviruses, KSHV undergoes two phases of life cycle (latent and lytic replication). During latency, the viral genome persists as a circular episome in the nucleus of the host cell and only a few viral genes are expressed, namely LANA (latency- associated nuclear antigen), Kaposin, vFLIP (viral FLICE inhibitory protein), vCyclin, and vIRF3/LANA2 (viral interferon regulatory factor 3). These viral genes are responsible for regulation of host cell proliferation, prevention of apoptosis, facilitation of immune evasion, and maintenance of the extrachromosomal viral genome during cell divisions. vIRF3 is a multifunctional nuclear protein that is constitutively expressed in KSHV positive PEL cells and Castleman's disease tumors, which expression causes dramatic changes of critical host pathways that are involved in the regulation of apoptosis, cell cycle, antiviral immunity, and tumorigenesis. In our study, we have demonstrated and elucidated predicted mechanism, by which vIRF3 enhances transcription activity of c-Myc. Moreover, we have clarified the previously unappreciated...

Innate Immunity As Mediator of Cell Death and Inflammation in Alcoholic Liver Disease

Iracheta-Vellve, Arvin

01 November 2017

Central driving forces in the pathogenesis of liver disease are hepatocyte death and immune cell-driven inflammation. The interplay between outcomes, stemming from these two major cell types, is present from the earliest ethanol exposure, and are both determinants in advanced stages of liver disease particularly in alcoholic liver disease (ALD). The complexities associated with advanced ALD are many and therapies are limited. Due to the liver’s role in ethanol metabolism and filtering gut-derived products, it is becoming increasingly clear that innate immunity plays a central role in triggering activation of cell death and inflammatory pathways in ALD. We identified interferon regulatory factor 3 (IRF3) activation as a mediator of hepatocyte death as the first event after ethanol exposure, and the inflammasome as a protein complex responsible for the subsequent inflammatory cascade, driven by the NLRP3 inflammasome. Our novel findings in murine samples and human patients with alcoholic hepatitis demonstrate that ethanol-induced inflammasome activity results in Caspase-1-mediated pyroptosis and extracellular ASC aggregates in the liver and circulation. Pyroptosis can be abrogated by therapeutic inhibition of inflammasome components, NLRP3 or Caspase-1. Taken together, the event leading to mtDNA release into the cytoplasm is the inception of the pathogenesis of ALD, triggering hepatocyte death, culminating in a pro-inflammatory cascade driven by the NLRP3 inflammasome and pyroptotic release of ASC.

Alcoholic liver disease

NLRP3 inflammasome

apoptosis

interferon regulatory factor 3

stimulator of interferon genes

unfolded protein response

anakinra

Cellular and Molecular Physiology

Digestive System Diseases

Immunity

Laboratory and Basic Science Research

Molecular Biology

Translational Medical Research