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Blood consists of different cell populations with distinct functions and correspondingly,distinct gene expression profiles. In this study,global miRNA expression profiling was performed across a panel of nine human immune cell subsets (neutrophils,eosinophils,monocytes,B cells,NK cells,CD4 T cells,CD8 T cells,mDCs and pDCs) to identify cell-type specific miRNAs. mRNA expression profiling was performed on the same samples to determine if miRNAs specific to certain cell types down-regulated expression levels of their target genes. Six cell-type specific miRNAs (miR-143; neutrophil specific,miR-125; T cells and neutrophil specific,miR-500; monocyte and pDC specific,miR-150; lymphoid cell specific,miR-652 and miR-223; both myeloid cell specific) were negatively correlated with expression of their predicted target genes. These results were further validated using an independent cohort where similar immune cell subsets were isolated and profiled for both miRNA and mRNA expression. miRNAs which negatively correlated with target gene expression in both cohorts were identified as candidates for miRNA/mRNA regulatory pairs and were used to construct a cell-type specific regulatory network. miRNA/mRNA pairs formed two distinct clusters in the network corresponding to myeloid (nine miRNAs) and lymphoid lineages (two miRNAs). Several myeloid specific miRNAs targeted common genes including ABL2,EIF4A2,EPC1 and INO80D; these common targets were enriched for genes involved in the regulation of gene expression (ptextless9.0E-7). Those miRNA might therefore have significant further effect on gene expression by repressing the expression of genes involved in transcriptional regulation. The miRNA and mRNA expression profiles reported in this study form a comprehensive transcriptome database of various human blood cells and serve as a valuable resource for elucidating the role of miRNA mediated regulation in the establishment of immune cell identity. View Publication

HIV elite controllers (EC) are a rare group of HIV-infected patients who are able to maintain undetectable viral loads during a long period of time in the absence of antiretroviral treatment. Adaptive immunity and host genetic factors,although implicated,do not entirely explain this phenomenon. On the other hand,plasmacytoid dendritic cells (pDCs) are the principal type I interferon (IFN) producers in response to viral infection,and it is unknown whether pDCs are involved in the control of HIV infection in EC. In our study,we analyzed peripheral pDC levels and IFN-α production by peripheral blood mononuclear cells (PBMCs) in EC compared to other groups of HIV-infected patients,the ability of pDCs to reduce HIV production in vitro,and the mechanisms potentially involved. We showed preserved pDC counts and IFN-α production in EC. We also observed a higher capacity of pDCs from EC to reduce HIV production and to induce T cell apoptosis,whereas pDCs from viremic patients barely responded without previous Toll-like receptor 9 (TLR-9) stimulus. The preserved functionality of pDCs from EC to reduce viral production may be one of the mechanisms involved in the control of HIV viremia in these subjects. These results demonstrate the importance of innate immunity in HIV pathogenesis,and an understanding of pDC mechanisms would be helpful for the design of new therapies. View Publication

Fibroblast growth factor (FGF) signaling plays an important role in embryonic stem cells and adult tissue homeostasis,but the function of FGFs in mammary gland stem cells is less well defined. Both FGFR1 and FGFR2 are expressed in basal and luminal mammary epithelial cells (MECs),suggesting that together they might play a role in mammary gland development and stem cell dynamics. Previous studies have demonstrated that the deletion of FGFR2 resulted only in transient developmental defects in branching morphogenesis. Using a conditional deletion strategy,we investigated the consequences of FGFR1 deletion alone and then the simultaneous deletion of both FGFR1 and FGFR2 in the mammary epithelium. FGFR1 deletion using a keratin 14 promoter-driven Cre-recombinase resulted in an early,yet transient delay in development. However,no reduction in functional outgrowth potential was observed following limiting dilution transplantation analysis. In contrast,a significant reduction in outgrowth potential was observed upon the deletion of both FGFR1 and FGFR2 in MECs using adenovirus-Cre. Additionally,using a fluorescent reporter mouse model to monitor Cre-mediated recombination,we observed a competitive disadvantage following transplantation of both FGFR1/R2-null MECs,most prominently in the basal epithelial cells. This correlated with the complete loss of the mammary stem cell repopulating population in the FGFR1/R2-attenuated epithelium. FGFR1/R2-null MECs were partially rescued in chimeric outgrowths containing wild-type MECs,suggesting the potential importance of paracrine mechanisms involved in the maintenance of the basal epithelial stem cells. These studies document the requirement for functional FGFR signaling in mammary stem cells during development. View Publication

Juvenile myelomonocytic leukemia (JMML) is a rare aggressive myelodysplastic/myeloproliferative neoplasm of early childhood,initiated by RAS-activating mutations. Genomic analyses have recently described JMML mutational landscape; however,the nature of JMML-propagating cells (JMML-PCs) and the clonal architecture of the disease remained until now elusive. Combining genomic (exome,RNA-seq),Colony forming assay and xenograft studies,we detect the presence of JMML-PCs that faithfully reproduce JMML features including the complex/nonlinear organization of dominant/minor clones,both at diagnosis and relapse. Further integrated analysis also reveals that although the mutations are acquired in hematopoietic stem cells,JMML-PCs are not always restricted to this compartment,highlighting the heterogeneity of the disease during the initiation steps. We show that the hematopoietic stem/progenitor cell phenotype is globally maintained in JMML despite overexpression of CD90/THY-1 in a subset of patients. This study shed new lights into the ontogeny of JMML,and the identity of JMML-PCs,and provides robust models to monitor the disease and test novel therapeutic approaches. View Publication

Foxp3+ Regulatory T cells (Tregs) are pivotal for the maintenance of tolerance. Alterations in their number and/or function have been proposed to occur in the autoimmune-prone non-obese diabetic (NOD) mouse. Comparing the frequencies and absolute numbers of CD4+Foxp3+CD25+ Tregs among 4 to 6-week old NOD,B6,and BALB/c mice,we observed differences in counts and Foxp3 expression in Tregs from secondary lymphoid organs,but not in the thymus. Upon TCR and IL-2 stimulation,NOD Tregs showed lower responses than Tregs from B6 and BALB/c mice. Indeed,NOD Tregs responded with less proliferation and with smaller increments in the expression of CD25,LAP-1,CD39,PD-1,PD-L1,and LAG-3,when in vitro cultured for 3 days with anti-CD3/CD28 in the absence or presence of IL-2,Tregs from NOD mice showed to be highly dependent on IL-2 to maintain Foxp3 expression. Moreover,NOD Tregs become producers of IL-17 and INF-gamma more easily than Tregs from the other strains. In addition,NOD Tregs showed lower responsiveness to IL-2,with significantly reduced levels of pSTAT5,even at high IL-2 doses,with respect to B6 and BALB/c Tregs. Interestingly,NOD Tregs exhibit differences in the expression of SOCS3,GRAIL,and OTUB1 when compared with Tregs from B6 and BALB/c mice. Both,at steady state conditions and also after activation,Tregs from NOD mice showed increased levels of OTUB1 and low levels of GRAIL. In addition,NOD Tregs had differences in the expression of ubiquitin related molecules that play a role in the maintenance of Foxp3 cellular pools. Indeed,significantly higher STUB1/USP7 ratios were detected in NOD Tregs,both at basal conditions and after stimulation,compared to in B6 and BALB/c Tregs. Moreover,the addition of a proteasome inhibitor to cell cultures,conferred NOD Tregs the ability to retain Foxp3 expression. Herein,we provide evidence indicating a differential expression of SOCS3,GRAIL,and STUB1/USP7 in Tregs from NOD mice,factors known to be involved in IL-2R signaling and to affect Foxp3 stability. These findings add to the current knowledge of the immunobiology of Tregs and may be related to the known insufficiency of Tregs from NOD mice to maintain self-tolerance. View Publication

BACKGROUND The combination of serum $\beta$2-microglubulin and albumin levels is highly prognostic in multiple myeloma (MM),defined as the International Staging System (ISS). Recurrent genomic abnormalities present in myeloma cells also have a strong prognostic power. This study aimed to assess,in a routine diagnostic setting,whether genomic aberrations can be used to identify sub-groups in ISS staging,as this system does not incorporate intrinsic myeloma cell variability at the molecular level. MATERIALS AND METHODS A prospective population-based study of 123 patients newly diagnosed with MM with ISS staging were included for karyotyping,interphase nuclei fluorescence in situ hybridization (iFISH) and oligo-based array comparative genomic hybridization (oaCGH) analyses. RESULTS Clonal abnormalities were identified in 27{\%} of analyses by karyotyping,in 83{\%} by iFISH,and in 99{\%} by oaCGH analysis. ISS staging combined with oaCGH aberrations identified ISS sub-groups. CONCLUSION oaCGH analysis is a valuable asset in detecting prognostically relevant genomic abnormalities. The combination of oaCGH data with ISS staging might help define new sub-groups in MM. View Publication

In addition to antigen-driven signals,T cells need co-stimulatory signals for robust activation. Several receptors,including members of the tumor necrosis factor receptor superfamily (TNFRSF),can deliver co-stimulatory signals to T cells. Thioredoxin interacting protein (TXNIP) is an important inhibitor of glucose uptake and cell proliferation,but it is unknown how TXNIP is regulated in T cells. The aim of this study was to determine expression levels and regulation of TXNIP in human T cells. We found that na{\{i}}ve T cells express high levels of TXNIP and that treatment of blood samples with TNF results in rapid down-regulation of TXNIP in the T cells. TNF-induced TXNIP down-regulation correlated with increased glucose uptake. Furthermore we found that density gradient centrifugation (DGC) induced down-regulation of TXNIP. We demonstrate that DGC induced TNF production that paralleled the TXNIP down-regulation. Treatment of blood with toll-like receptor (TLR) ligands induced TNF production and TXNIP down-regulation suggesting that damage-associated molecular patterns (DAMPs) such as endogenous TLR ligands released during DGC play a role in DGC-induced TXNIP down-regulation. Finally we demonstrate that TNF-induced TXNIP down-regulation is dependent on caspase activity and is caused by caspase-mediated cleavage of TXNIP." View Publication

MicroRNAs (miRNA) are small noncoding RNAs that regulate gene expression by targeting mRNAs in a sequence specific manner,thereby determining their degradation or inhibiting translation. They are involved in processes such as proliferation,differentiation and apoptosis by fine-tuning the expression of genes underlying such events. The expression of specific miRNAs is involved in hematopoietic differentiation and their deregulation contributes to the development of hematopoietic malignancies such as acute myeloid leukemia (AML). miR-130a is over-expressed in AML. Here we show that miR-130a is physiologically expressed in myeloblasts and down-regulated during monocyte differentiation. Gain- and loss-of-function experiments performed on CD34+ human hematopoietic stem cells confirmed that expression of miR-130a inhibits monocyte differentiation by interfering with the expression of key transcription factors HOXA10,IRF8,KLF4,MAFB and PU-1. The data obtained in this study highlight that the correct modulation of miR-130a is necessary for normal differentiation to occur and confirming that deregulation of this miRNA might underlie the differentiation block occurring in AML. View Publication

Environmental factors contribute to Type 1 diabetes (T1D) susceptibility. The gut microbiome,which includes bacteria,viruses,and fungi,contributes to this environmental influence,and can induce immunological changes. The gut viral component of the microbiome,related to T1D has mostly focused on coxsackieviruses and rotavirus. The role of norovirus,another common enteric virus,in susceptibility to T1D was hitherto unknown. Norovirus is highly infectious and encountered by many children. We studied the mouse norovirus 4 (MNV4),related to human noroviruses,in the Non-obese diabetic (NOD) mouse model,to determine its role in influencing susceptibility to T1D. We infected MNV-free NOD mice with MNV4 by exposing the mice to MNV4-positive bedding from an endemically-infected mouse colony to mimic a natural infection. Control MNV-free NOD mice were exposed to MNV-free bedding from the same colony. Interestingly,MNV4 infection protected NOD mice from the development of T1D and was associated with an expansion of Tregs and reduced proinflammatory T cells. We also found MNV4 significantly modified the gut commensal bacteria composition,promoting increased $\alpha$-diversity and Firmicutes/Bacteroidetes ratio. To elucidate whether T1D protection was directly related to MNV4,or indirectly through modulating gut microbiota,we colonized germ-free (GF) NOD mice with the MNV4-containing or non-MNV4-containing viral filtrate,isolated from filtered fecal material. We found that MNV4 induced significant changes in mucosal immunity,including altered Tuft cell markers,cytokine secretion,antiviral immune signaling markers,and the concentration of mucosal antibodies. Systemically,MNV4-infection altered the immune cells including B cell subsets,macrophages and T cells,and especially induced an increase in Treg number and function. Furthermore,in vitro primary exposure of the norovirus filtrate to na{\{i}}ve splenocytes identified significant increases in the proportion of activated and CTLA4-expressing Tregs. Our data provide novel knowledge that norovirus can protect NOD mice from T1D development by inducing the expansion of Tregs and reducing inflammatory T cells. Our study also highlights the importance of distinguishing the mucosal immunity mediated by bacteria from that by enteric viruses." View Publication

As the prognosis of invasive aspergillosis remains unacceptably poor in patients undergoing hematopoietic stem cell transplantation (HSCT),there is a growing interest in the adoptive transfer of antifungal effector cells,such as Natural Killer (NK) cells. Because immunosuppressive agents are required in most HSCT recipients,knowledge of the impact of these compounds on the antifungal activity of NK cells is a prerequisite for clinical trials. We,therefore,assessed the effect of methylprednisolone (mPRED),cyclosporin A (CsA) and mycophenolic acid (MPA) at different concentrations on proliferation,apoptosis/necrosis,and the direct and indirect anti-Aspergillus activity of human NK cells. Methylprednisolone decreased proliferation and increased apoptosis of NK cells in a significant manner. After seven days,a reduction of viable NK cells was seen for all three immunosuppressants,which was significant for MPA only. Cyclosporin A significantly inhibited the direct hyphal damage by NK cells in a dose-dependent manner. None of the immunosuppressive compounds had a major impact on the measured levels of interferon-$\gamma$,granulocyte-macrophage colony-stimulating factor and RANTES (regulated on activation,normal T cell expressed and secreted; CCL5). Our data demonstrate that commonly used immunosuppressive compounds have distinct effects on proliferation,viability and antifungal activity of human NK cells,which should be considered in designing studies on the use of NK cells for adoptive antifungal immunotherapy. View Publication

Immunosuppression increases the risk of cancers that are associated with viral infection1. In particular,the risk of squamous cell carcinoma of the skin-which has been associated with beta human papillomavirus ($\beta$-HPV) infection-is increased by more than 100-fold in immunosuppressed patients2-4. Previous studies have not established a causative role for HPVs in driving the development of skin cancer. Here we show that T cell immunity against commensal papillomaviruses suppresses skin cancer in immunocompetent hosts,and the loss of this immunity-rather than the oncogenic effect of HPVs-causes the markedly increased risk of skin cancer in immunosuppressed patients. To investigate the effects of papillomavirus on carcinogen-driven skin cancer,we colonized several strains of immunocompetent mice with mouse papillomavirus type 1 (MmuPV1)5. Mice with natural immunity against MmuPV1 after colonization and acquired immunity through the transfer of T cells from immune mice or by MmuPV1 vaccination were protected against skin carcinogenesis induced by chemicals or by ultraviolet radiation in a manner dependent on CD8+ T cells. RNA and DNA in situ hybridization probes for 25 commensal $\beta$-HPVs revealed a significant reduction in viral activity and load in human skin cancer compared with the adjacent healthy skin,suggesting a strong immune selection against virus-positive malignant cells. Consistently,E7 peptides from $\beta$-HPVs activated CD8+ T cells from unaffected human skin. Our findings reveal a beneficial role for commensal viruses and establish a foundation for immune-based approaches that could block the development of skin cancer by boosting immunity against the commensal HPVs present in all of our skin. View Publication

Diffuse large B cell lymphoma (DLBCL) is the commonest disorder derived from the B-lymphocytes. Inhibiting the immune checkpoint through naturalizing programmed death-1 (PD-1) and programmed death ligand 1 (PD-L1) is proved to be a successful therapeutic regime for lymphoma. Long non-coding RNAs (lncRNAs) are unceasingly reported to be promising biological targets for the cancer therapies. This study planned to explore the regulation of small nucleolar RNA host gene 14 (SNHG14) on DLBCL. SNHG14 level in DLBCL samples and cell lines was analyzed by GEPIA bioinformatics tool and RT-qPCR. Biological functions of SNHG14 in DLBCL were detected by CCK-8,colony formation,and transwell invasion assays. Molecular interaction was determined by RNA immunoprecipitation (RIP) and luciferase reporter assays. MiR-5590-3p-related pathway was identified through KEGG pathway analysis applying DAVID6.8 online bioinformatics tool. Effect of SNHG14 on CD8+ T cells was detected by flow cytometry. Results depicted that SNHG14 was upregulated in DLBCL and its depletion retarded proliferation,migration and epithelial-to-mesenchymal transition (EMT). Mechanistically,SNHG14 sponged miR-5590-3p to upregulate Zinc finger E-box binding homeobox 1 (ZEB1),and ZEB1 transcriptionally activated SNHG14 and PD-L1 to promote the immune evasion of DLBCL cells. In conclusion,we firstly showed that SNHG14/miR-5590-3p/ZEB1 positive feedback loop promoted diffuse large B cell lymphoma progression and immune evasion through regulating PD-1/PD-L1 checkpoint,indicating that targeting SNHG14 was a potential approach to improve the efficacy of immunotherapy in DLBCL. View Publication