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Eosinophils contribute to type II immune responses in helminth infections and allergic diseases; however,their influence on intracellular pathogens is less clear. We previously reported that CCR2(-/-) mice exposed to the intracellular fungal pathogen Histoplasma capsulatum exhibit dampened immunity caused by an early exaggerated interleukin (IL)-4 response. We sought to identify the cellular source promulgating IL-4 in infected mutant animals. Eosinophils were the principal instigators of non-protective IL-4 and depleting this granulocyte population improved fungal clearance in CCR2(-/-) animals. The deleterious impact of eosinophilia on mycosis was also recapitulated in transgenic animals overexpressing eosinophils. Mechanistic examination of IL-4 induction revealed that phagocytosis of H. capsulatum via the pattern recognition receptor complement receptor (CR) 3 triggered the heightened IL-4 response in murine eosinophils. This phenomenon was conserved in human eosinophils; exposure of cells to the fungal pathogen elicited a robust IL-4 response. Thus,our findings elucidate a detrimental attribute of eosinophil biology in fungal infections that could potentially trigger a collapse in host defenses by instigating type II immunity.Mucosal Immunology advance online publication,6 April 2016; doi:10.1038/mi.2016.26. View Publication

Recently,we reported that human neutrophils produce biologically active amounts of IL-6 when incubated with agonists activating TLR8,a receptor recognizing viral single strand RNA. In this study,we demonstrate that IFNα,a cytokine that modulates the early innate immune responses toward viral and bacterial infections,potently enhances the production of IL-6 in neutrophils stimulated with R848,a TLR8 agonist. We also show that such an effect is not caused by an IFNα-dependent induction of TLR7 and its consequent co-activation with TLR8 in response to R848,but,rather,it is substantially mediated by an increased production and release of endogenous TNFα. The latter cytokine,in an autocrine manner,leads to an augmented synthesis of the IkBζ co-activator and an enhanced recruitment of the C/EBPβ transcription factor to the IL-6 promoter. Moreover,we show that neutrophils from SLE patients with active disease state,hence displaying an IFN-induced gene expression signature,produce increased amounts of both IL-6 and TNFα in response to R848 as compared to healthy donors. Altogether,data uncover novel effects that type I IFN exerts in TLR8-activated neutrophils,which therefore enlarge our knowledge on the various biological actions which type I IFN orchestrates during infectious and autoimmune diseases. View Publication

Studies of repertoires of mouse monoclonal CD4(+) T cells have revealed several mechanisms of self-tolerance; however,which mechanisms operate in normal repertoires is unclear. Here we studied polyclonal CD4(+) T cells specific for green fluorescent protein expressed in various organs,which allowed us to determine the effects of specific expression patterns on the same epitope-specific T cells. Peptides presented uniformly by thymic antigen-presenting cells were tolerated by clonal deletion,whereas peptides excluded from the thymus were ignored. Peptides with limited thymic expression induced partial clonal deletion and impaired effector T cell potential but enhanced regulatory T cell potential. These mechanisms were also active for T cell populations specific for endogenously expressed self antigens. Thus,the immunotolerance of polyclonal CD4(+) T cells was maintained by distinct mechanisms,according to self-peptide expression patterns. View Publication

We have established a novel cell line,designated as TF-1,from a patient with erythroleukemia,which showed complete growth dependency on granulocyte-macrophage colony-stimulating factor (GM-CSF) or on interleukin-3 (IL-3) and carried a homogeneous chromosomal abnormality (54X). Erythropoietin (EPO) also sustained the short-term growth of TF-1,but did not induce erythroid differentiation. These three hematopoietic growth factors acted on TF-1 synergistically. Transforming growth factor-beta and interferons inhibited the factor-dependent growth of TF-1 cells in a dose-dependent fashion,and monocyte-colony stimulating factor and interkeukin-1 enhanced the GM-CSF-dependent growth of TF-1. Ultrastructural studies revealed some very immature features in this cell line. Although TF-1 cells do not express glycophorin A or carbonyl anhydrase I,the morphological and cytochemical features,and the constitutive expression of globin genes,indicate the commitment of TF-1 to erythroid lineage. When induced to differentiate,TF-1 entered two different pathways. Specifically,hemin and delta-aminolevulinic acid induced hemoglobin synthesis,whereas TPA induced dramatic differentiation of TF-1 into macrophage-like cells. In summary,TF-1 is a cell line of immature erythroid origin that requires GM-CSF,IL-3,or EPO for its growth and that has the ability to undergo differentiation into either more mature erythroid cells or into macrophage-like cells. TF-1 is a useful tool for analyzing the human receptors for IL-3,GM-CSF,and EPO or the signal transduction of these hemopoietic growth factors. View Publication

The epigenetics of early commitment to embryonal cardiomyocyte is poorly understood. In this work,we compared the effect of thyroid hormone and that of anacardic acid,a naturally occurring histone acetylase inhibitor,or both in combination,on mouse embryonic stem cells (mES) differentiating into embryonal cardiomyocyte by embryoid bodies (EBs) formation. Although the results indicated that anacardic acid (AA) and thyroid hormone were both efficient in promoting cardiomyocyte differentiation,we noticed that a transient exposure of mES to AA alone was sufficient to enlarge the beating areas of EBs compared to those of untreated controls. This effect was associated with changes in the chromatin structure at the promoters of specific cardiomyogenic genes. Among them,a rapid induction of the transcription factor Castor 1 (CASZ1),important for cardiomyocytes differentiation and maturation during embryonic development,was observed in the presence of AA. In contrast,thyroid hormone (T 3) was more effective in stimulating spontaneous firing,thus suggesting a role in the production of a population of cardiomyocyte with pacemaker properties. In conclusion,AA and thyroid hormone both enhanced cardiomyocyte formation along in apparently distinct pathways. View Publication

An 85- to 95 kDa class of lymphocyte surface molecules,defined in man by antibodies of the Hermes series,is involved in lymphocyte binding to high endothelial venules and is likely of central importance in the process of lymphocyte homing. In this report,we have examined the relationship between these Hermes-defined homing-receptors" and two other 80 to 95 kDa lymphocyte surface molecules that have been extensively studied--CD44 [In(Lu)-related p80] defined by mAb A1G3 and A3D8� View Publication

The bioorthogonal keto group has attracted interest for the site-specific chemical conjugation of recombinant proteins under mild conditions,e.g. with aminooxy-functionalised fluorescent probes,radiometal chelates,toxins or polymers. However,the cotranslational incorporation of the corresponding non-canonical amino acid p-acetyl-L-phenylalanine (Apa) into proteins expressed in Escherichia coli by means of amber suppression using a previously described system with a mutated tRNA and an engineered tyrosyl-tRNA synthetase from Methanococcus jannaschii shows limited efficiency and considerable promiscuity towards endogenous amino acids. Employing a one-plasmid system that encodes all three components required for selection,i.e. the modified aminoacyl-tRNA synthetase (aaRS),the cognate amber suppressor tRNA and the enhanced green fluorescent protein equipped with an amber stop codon and serving as reporter,we have generated an Apa-specific aaRS&tRNA pair with considerably improved efficiency (17-fold increased expression) and also fidelity (6-fold). To this end,both the aaRS and the tRNA were subjected to doped random mutagenesis and selection in altogether four evolutionary cycles using fluorescence-activated bacterial cell sorting as well as automated screening of microcultures. The resulting aaRS&tRNA pair was applied to the functionalisation of an Anticalin with specificity towards oncofetal fibronectin by introducing a keto group at a permissible site for subsequent conjugation with a fluorescent dye,thus allowing visualisation of this tumour target under the microscope. View Publication

BACKGROUND: Epithelial-mesenchymal transition (EMT) is involved in important malignant features of cancer cells,like invasion,metastatic potential,anti-apoptotic and stem-cell like phenotypes. Among several transcription factors,SNAI2/SLUG is supposed to play an essential role for EMT. METHODS: Paraffin embedded tumor samples from 63 patients with metastatic non-small cell lung cancer,enrolled in a randomized phase II trial,were prospectively collected,53 samples qualified for further analysis. Automated RNA extraction from paraffin and RT-quantitative PCR was used for evaluation of SNAI2/SLUG,estrogen receptor 1 (ESR1) and matrix-metalloproteinases (MMP) mRNA expression. RESULTS: Clinical features like age,gender,performance status,histological subtype and stage were similarly distributed among SNAI2/SLUG positive and negative patients. SNAI2/SLUG was significantly,inversely correlated with ESR1 mRNA expression (p textless 0.0001). In contrast,MMP2 (p = 0.387),MMP7 (p = 0.396) and MMP9 mRNA expression (p = 0.366) did not correlate with SNAI2/SLUG. Patients with high SNAI2/SLUG expression (grouped by median expression) had a worse outcome. Median overall survival in patients with high SNAI2/SLUG expression was 5.7 months versus 11.6 months with low SNAI2/SLUG expression (p = .038). Inversely,patients with high ESR1 expression (grouped by median expression) had an improved median OS with 10.9 months vs. 5.0 months in the low expression group (p = .032). In multivariate analysis,SNAI2/SLUG2 (p = .022) and ESR1 (p = .017) separately were independent prognostic factors for survival. CONCLUSION: SNAI2/SLUG is prognostic of patients' outcome. The strong inverse correlation with ESR1 indicates a significant impact of estrogen receptor pathway regarding these malignant features. View Publication

The hepatocyte growth factor (HGF)/MNNG HOS transforming gene (MET) pathway regulates cell growth,survival,and migration. MET is mutated or amplified in several malignancies. In myeloma,MET is not mutated,but patients have high plasma concentrations of HGF,high levels of MET expression,and gene copy number,which are associated with poor prognosis and advanced disease. Our previous studies demonstrated that MET is critical for myeloma cell survival and its knockdown induces apoptosis. In our current study,we tested tivantinib (ARQ 197),a small-molecule pharmacological MET inhibitor. At clinically achievable concentrations,tivantinib induced apoptosis by textgreater50% in all 12 human myeloma cell lines tested. This biologic response was associated with down-regulation of MET signaling and inhibition of the mitogen-activated protein kinase and phosphoinositide 3-kinase pathways,which are downstream of the HGF/MET axis. Tivantinib was equally effective in inducing apoptosis in myeloma cell lines resistant to standard chemotherapy (melphalan,dexamethasone,bortezomib,and lenalidomide) as well as in cells that were co-cultured with a protective bone marrow microenvironment or with exogenous cytokines. Tivantinib induced apoptosis in CD138+ plasma cells from patients and demonstrated efficacy in a myeloma xenograft mouse model. On the basis of these data,we initiated a clinical trial for relapsed/refractory multiple myeloma (MM). In conclusion,MET inhibitors may be an attractive target-based strategy for the treatment of MM. View Publication

The recently developed ability to differentiate primary adult stem cells and induced pluripotent stem cells (iPSCs) into cardiomyocytes is providing unprecedented opportunities to produce an unlimited supply of cardiomyocytes for use in patients with heart disease. Here,we examine the evidence for the preclinical use of such cells for successful heart regeneration. We also describe advances in the identification of new cardiac molecular and cellular targets to induce proliferation of cardiomyocytes for heart regeneration. Such new advances are paving the way for a new innovative drug development process for the treatment of heart disease. View Publication