Emerging roles of ATF2 and the dynamic AP1 network in cancer

Cooperation among transcription factors is central for their ability to execute specific transcriptional programmes. The AP1 complex exemplifies a network of transcription factors that function in unison under normal circumstances and during the course of tumour development and progression. This Perspective summarizes our current understanding of the changes in members of the AP1 complex and the role of ATF2 as part of this complex in tumorigenesis.Fil: Lopez Bergami, Pablo Roberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Biología y Medicina Experimental (i); Argentina; ArgentinaFil: Lau, Eric . Burnham Institute for Medical Research; Estados UnidosFil: Ronai, Zeev . Burnham Institute for Medical Research; Estados Unido

Recombinant Helicobacter bilis Protein P167 for Mouse Serodiagnosis in a Multiplex Microbead Assay

Infection of mice with Helicobacter bilis is widespread in research and commercial mouse colonies. Therefore, sensitive, specific, and high-throughput assays are needed for rapid and accurate testing of mice in large numbers. This report describes a novel multiplex assay, based on fluorescent microbeads, for serodetection of H. bilis infection. The assay requires only a few microliters of serum to perform and is amenable to a high-throughput format. Individual microbead sets were conjugated to purified, H. bilis-specific, recombinant proteins P167C and P167D and bacterial membrane extracts from H. bilis and Helicobacter hepaticus. For detecting H. bilis infection in the microbead multiplex assay, P167C and P167D provided significantly higher sensitivities (94 and 100%, respectively) and specificities (100 and 95%, respectively) than membrane extract (78% sensitivity and 65% specificity). Microbead multiplex assay results were validated by enzyme-linked immunosorbent assay. Purified recombinant proteins showed low batch-to-batch variation; this feature allows for ease of quality control, assay robustness, and affordability. Thus, recombinant antigens are highly suitable in the multiplex microbead assay format for serodetection of H. bilis infection

IL-23 and IL-2 activation of STAT5 is required for optimal IL-22 production in ILC3s during colitis

Signal transducer and activator of transcription (STAT) proteins have critical roles in the development and function of immune cells. STAT signaling is often dysregulated in patients with inflammatory bowel disease (IBD), suggesting the importance of STAT regulation during the disease process. Moreover, genetic alterations in and (e.g., deletions, mutations, and single-nucleotide polymorphisms) are associated with an increased risk for IBD. In this study, we elucidated the precise roles of STAT5 signaling in group 3 innate lymphoid cells (ILC3s), a key subset of immune cells involved in the maintenance of gut barrier integrity. We show that mice lacking either STAT5a or STAT5b are more susceptible to -mediated colitis and that interleukin-2 (IL-2)- and IL-23-induced STAT5 drives IL-22 production in both mouse and human colonic lamina propria ILC3s. Mechanistically, IL-23 induces a STAT3-STAT5 complex that binds IL-22 promoter DNA elements in ILC3s. Our data suggest that STAT5a/b signaling in ILC3s maintains gut epithelial integrity during pathogen-induced intestinal disease

Allele-Specific Real-Time PCR System for Detection of Subpopulations of Genotype 1a and 1b Hepatitis C NS5B Y448H Mutant Viruses in Clinical Samples▿

The Y448H mutation in NS5B has been selected by GS-9190 as well as several benzothiadiazine hepatitis C virus (HCV) polymerase inhibitors in vitro and in vivo. However, the level and the evolution kinetics of this resistance mutation prior to and during treatment are poorly understood. In this study, we developed an allele-specific real-time PCR (AS-PCR) assay capable of detecting Y448H when it was present at a level down to 0.5% within an HCV population of genotype 1a or 1b. No Y448H mutation was detected above the assay cutoff of 0.5% in genotype 1b-infected Con-1 replicons prior to in vitro treatment. However, the proportion of replicons with the Y448H mutation rapidly increased in a dose-dependent manner upon treatment with GS-9190. After 3 days of treatment, 1.2%, 6.8%, and >50% of the replicon population expressed Y448H with the use of GS-9190 at 1, 10, and 20 times its 50% effective concentration, respectively. In addition, plasma from 65 treatment-naïve HCV-infected patients (42 and 23 with genotype 1a and 1b, respectively) was tested for the presence of Y448H by AS-PCR and population sequencing. As expected, all patient samples were wild type at NS5B Y448 by population sequencing. AS-PCR results were obtained for 62/65 samples tested, with low levels of Y448H ranging from 0.5% to 3.0% detected in 5/62 (8%) treatment-naïve patient samples. These findings suggest the need for combination therapy with HCV-specific inhibitors to avoid viral rebound of preexisting mutant HCV

LAG3 Regulatory T Cells Restrain Interleukin-23-Producing CX3CR1 Gut-Resident Macrophages during Group 3 Innate Lymphoid Cell-Driven Colitis.

Interleukin-22 (IL-22)-producing group 3 innate lymphoid cells (ILC3) maintains gut homeostasis but can also promote inflammatory bowel disease (IBD). The regulation of ILC3-dependent colitis remains to be elucidated. Here we show that Foxp3 regulatory T cells (Treg cells) prevented ILC3-mediated colitis in an IL-10-independent manner. Treg cells inhibited IL-23 and IL-1β production from intestinal-resident CX3CR1 macrophages but not CD103 dendritic cells. Moreover, Treg cells restrained ILC3 production of IL-22 through suppression of CX3CR1 macrophage production of IL-23 and IL-1β. This suppression was contact dependent and was mediated by latent activation gene-3 (LAG-3)-an immune checkpoint receptor-expressed on Treg cells. Engagement of LAG-3 on MHC class II drove profound immunosuppression of CX3CR1 tissue-resident macrophages. Our study reveals that the health of the intestinal mucosa is maintained by an axis driven by Treg cells communication with resident macrophages that withhold inflammatory stimuli required for ILC3 function

Immune deficiency caused by impaired expression of nuclear factor-kappaB essential modifier (NEMO) because of a mutation in the 5' untranslated region of the NEMO gene.

BACKGROUND: Nuclear factor-κB (NF-κB) is a key transcription factor that regulates both innate and adaptive immunity as well as ectodermal development. Mutations in the coding region of the IκB kinase γ/NF-κB essential modifier (NEMO) gene cause X-linked ectodermal dysplasia with immunodeficiency. OBJECTIVE: To determine the genetic cause of recurrent sinopulmonary infections and dysgammaglobulinemia in a patient with a normal NEMO coding sequence and his affected brother. METHODS: TNF-α and IFN-α production in response to Toll-like receptor (TLR) stimulation was analyzed by ELISA, NEMO mRNA levels were measured by quantitative PCR, and NEMO protein expression was measured by Western blotting. NF-κB activation was assessed by nuclear translocation of p65 and luciferase reporter gene assays. RESULTS: TLR-induced TNF-α and IFN-α production by PBMCs was impaired in the patient and his brother. Sequencing of the patient’s NEMO gene revealed a novel mutation in the 5′ untranslated region, which was also present in the brother, resulting in abnormally spliced transcripts and a 4-fold reduction in mRNA levels. NEMO protein levels in EBV transformed B cells and fibroblasts from the index patient were 8-fold lower than normal controls. NF-κB p65 nuclear translocation in the patient’s EBV B cells after TLR7 ligation was defective. NF-κB–dependent luciferase gene expression in IL-1–stimulated fibroblasts from the patient was impaired. CONCLUSION: This is the first description of immune deficiency resulting from low expression of a normal NEMO protein