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Fibroblastic reticular cells (FRCs) are a subpopulation of stromal cells modulating the immune environments in health and disease. We have previously shown that activation of TLR9 signaling in FRC in fat-associated lymphoid clusters (FALC) regulate peritoneal immunity via suppressing immune cell recruitment and peritoneal resident macrophage (PRM) retention. However,FRCs are heterogeneous across tissues and organs. The functions of each FRC subset and the regulation of TLR9 in distinct FRC subsets are unknown. Here,we confirmed that specific deletion of TLR9 in FRC improved bacterial clearance and survival during peritoneal infection. Furthermore,using single-cell RNA sequencing,we found two subsets of FRCs (CD55 hi and CD55 lo ) in the mesenteric FALC. The CD55 hi FRCs were enriched in gene expression related to extracellular matrix formation. The CD55 lo FRCs were enriched in gene expression related to immune response. Interestingly,we found that TLR9 is dominantly expressed in the CD55 lo subset. Activation of TLR9 signaling suppressed proliferation,cytokine production,and retinoid metabolism in the CD55 lo FRC,but not CD55 hi FRC. Notably,we found that adoptive transfer of Tlr9 -/– CD55 lo FRC from mesenteric FALC more effectively improved the survival during peritonitis compared with WT-FRC or Tlr9 -/– CD55 hi FRC. Furthermore,we identified CD55 hi and CD55 lo subsets in human adipose tissue-derived FRC and confirmed the suppressive effect of TLR9 on the proliferation and cytokine production in the CD55 lo subset. Therefore,inhibition of TLR9 in the CD55 lo FRCs from adipose tissue could be a useful strategy to improve the therapeutic efficacy of FRC-based therapy for peritonitis. View Publication

UNLABELLED The effects of oleuropein on the processes of osteoblastogenesis and adipogenesis in mesenchymal stem cells (MSCs) from human bone marrow have been studied. We report that oleuropein,a polyphenol abundant in olive tree products,reduces the expression of peroxisome proliferator-activated receptor gamma (PPAR$\gamma$),inhibits adipocyte differentiation,and enhances differentiation into osteoblast. INTRODUCTION Age-related bone loss is associated with osteoblast insufficiency during continuous bone remodeling. It has been suggested that the formation of osteoblasts in bone marrow is closely associated with adipogenesis,and age-related changes in this relationship could be responsible for the progressive adiposity of bone marrow which occurs with osteoporosis. In addition,the consumption of oleuropein,a major polyphenol in olive leaves and olive oil,has been associated with a reduction in bone loss. METHODS We have analyzed the effects of oleuropein-at concentrations between 10(-6) and 10(-4) M-on the processes of osteoblastogenesis and adipogenesis in MSCs from human bone marrow. RESULTS The results show an increase in osteoblast differentiation and a decrease in adipocyte differentiation when there is oleuropein in the culture media. The gene expression of osteoblastogenesis markers,RUNXII,osterix,collagen type I,osteocalcin,or alkaline phosphatase (ALP),was higher in osteoblast-induced oleuropein-treated cells. Also,the ALP activity and extracellular matrix mineralization were higher when oleuropein was present in the media. Oleuropein in MSCs induced adipocytes to produce a decrease in the expression of the genes involved in adipogenesis,the PPAR$\gamma$,lipoprotein lipase,or fatty acid-binding protein 4,and minor fat accumulation. CONCLUSION Our data suggest that oleuropein,highly abundant in olive tree products included in the traditional Mediterranean diet,could prevent age-related bone loss and osteoporosis. View Publication

Caveolae,specialized flask-shaped lipid rafts on the cell surface,are composed of cholesterol,sphingolipids,and structural proteins termed caveolins; functionally,these plasma membrane microdomains have been implicated in signal transduction and transmembrane transport. In the present study,we examined the role of caveolin-1 in multiple myeloma cells. We show for the first time that caveolin-1,which is usually absent in blood cells,is expressed in multiple myeloma cells. Analysis of myeloma cell-derived plasma membrane fractions shows that caveolin-1 is co-localized with interleukin-6 receptor signal transducing chain gp130 and with insulin-like growth factor-I receptor. Cholesterol depletion by beta-cyclodextrin results in the loss of caveola structure in myeloma cells,as shown by transmission electron microscopy,and loss of caveolin-1 function. Interleukin-6 and insulin-like growth factor-I,growth and survival factors in multiple myeloma,induce caveolin-1 phosphorylation,which is abrogated by pre-treatment with beta-cyclodextrin. Importantly,inhibition of caveolin-1 phosphorylation blocks both interleukin-6-induced protein complex formation with caveolin-1 and downstream activation of the phosphatidylinositol 3-kinase/Akt-1 pathway. beta-Cyclodextrin also blocks insulin-like growth factor-I-induced tyrosine phosphorylation of insulin-responsive substrate-1 and downstream activation of the phosphatidylinositol 3-kinase/Akt-1 pathway. Therefore,cholesterol depletion by beta-cyclodextrin abrogates both interleukin-6- and insulin-like growth factor-I-triggered multiple myeloma cell survival via negative regulation of caveolin-1. Taken together,this study identifies caveolin-1 and other structural membrane components as potential new therapeutic targets in multiple myeloma. View Publication

BackgroundmicroRNAs (miRNAs) have been implicated in the control of many biological processes and their deregulation has been associated with many cancers. In recent years,the cancer stem cell (CSC) concept has been applied to many cancers including pediatric. We hypothesized that a common signature of deregulated miRNAs in the CSCs fraction may explain the disrupted signaling pathways in CSCs.Methodology/ResultsUsing a high throughput qPCR approach we identified 26 CSC associated differentially expressed miRNAs (DEmiRs). Using BCmicrO algorithm 865 potential CSC associated DEmiR targets were obtained. These potential targets were subjected to KEGG,Biocarta and Gene Ontology pathway and biological processes analysis. Four annotated pathways were enriched: cell cycle,cell proliferation,p53 and TGF-beta/BMP. Knocking down hsa-miR-21-5p,hsa-miR-181c-5p and hsa-miR-135b-5p using antisense oligonucleotides and small interfering RNA in cell lines led to the depletion of the CSC fraction and impairment of sphere formation (CSC surrogate assays).ConclusionOur findings indicated that CSC associated DEmiRs and the putative pathways they regulate may have potential therapeutic applications in pediatric cancers. View Publication

PURPOSE FK506-binding protein like (FKBPL) and its peptide derivative,AD-01,have already shown tumor growth inhibition and CD44-dependent antiangiogenic activity. Here,we explore the ability of AD-01 to target CD44-positive breast cancer stem cells (BCSC). EXPERIMENTAL DESIGN Mammosphere assays and flow cytometry were used to analyze the effect of FKBPL overexpression/knockdown and AD-01 treatment ± other anticancer agents on BCSCs using breast cancer cell lines (MCF-7/MDA-231/ZR-75),primary patient samples,and xenografts. Delays in tumor initiation were evaluated in vivo. The anti-stem cell mechanisms were determined using clonogenic assays,quantitative PCR (qPCR),and immunofluorescence. RESULTS AD-01 treatment was highly effective at inhibiting the BCSC population by reducing mammosphere-forming efficiency and ESA(+)/CD44(+)/CD24(-) or aldehyde dehydrogenase (ALDH)(+) cell subpopulations in vitro and tumor initiation in vivo. The ability of AD-01 to inhibit the self-renewal capacity of BCSCs was confirmed; mammospheres were completely eradicated by the third generation. The mechanism seems to be due to AD-01-mediated BCSC differentiation shown by a significant decrease in the number of holoclones and an associated increase in meroclones/paraclones; the stem cell markers,Nanog,Oct4,and Sox2,were also significantly reduced. Furthermore,we showed additive inhibitory effects when AD-01 was combined with the Notch inhibitor,DAPT. AD-01 was also able to abrogate a chemo- and radiotherapy-induced enrichment in BCSCs. Finally,FKBPL knockdown led to an increase in Nanog/Oct4/Sox2 and an increase in BCSCs,highlighting a role for endogenous FKBPL in stem cell signaling. CONCLUSIONS AD-01 has dual antiangiogenic and anti-BCSC activity,which will be advantageous as this agent enters clinical trial. View Publication

Neurodegenerative diseases are characterized by chronic and progressive structural or functional loss of neurons. Limitations related to the animal models of these human diseases have impeded the development of effective drugs. This emphasizes the need to establish disease models using human-derived cells. The discovery of induced pluripotent stem cell (iPSC) technology has provided novel opportunities in disease modeling,drug development,screening,and the potential for patient-matched" cellular therapies in neurodegenerative diseases. In this study� View Publication

The hepatitis C virus (HCV) infects ∼200 million people worldwide. The majority of infected individuals develop persistent infection,resulting in chronic inflammation and liver disease,including cirrhosis and hepatocellular carcinoma. The ability of HCV to establish persistent infection is partly due to its ability to evade the immune response through multiple mechanisms,including suppression of NK cells. NK cells control HCV replication during the early phase of infection and regulate the progression to chronic disease. In particular,IFN-$\gamma$ produced by NK cells limits viral replication in hepatocytes and is important for the initiation of adaptive immune responses. However,NK cell function is significantly impaired in chronic HCV patients. The cellular and molecular mechanisms responsible for impaired NK cell function in HCV infection are not well defined. In this study,we analyzed the interaction of human NK cells with CD33(+) PBMCs that were exposed to HCV. We found that NK cells cocultured with HCV-conditioned CD33(+) PBMCs produced lower amounts of IFN-$\gamma$,with no effect on granzyme B production or cell viability. Importantly,this suppression of NK cell-derived IFN-$\gamma$ production was mediated by CD33(+)CD11b(lo)HLA-DR(lo) myeloid-derived suppressor cells (MDSCs) via an arginase-1-dependent inhibition of mammalian target of rapamycin activation. Suppression of IFN-$\gamma$ production was reversed by l-arginine supplementation,consistent with increased MDSC arginase-1 activity. These novel results identify the induction of MDSCs in HCV infection as a potent immune evasion strategy that suppresses antiviral NK cell responses,further indicating that blockade of MDSCs may be a potential therapeutic approach to ameliorate chronic viral infections in the liver. View Publication

Not provided. View Publication

Autosomal dominant vitreoretinochoroidopathy (ADVIRC) is a rare,early-onset retinal dystrophy characterised by distinct bands of circumferential pigmentary degeneration in the peripheral retina and developmental eye defects. ADVIRC is caused by mutations in the Bestrophin1 (BEST1) gene,which encodes a transmembrane protein thought to function as an ion channel in the basolateral membrane of retinal pigment epithelial (RPE) cells. Previous studies suggest that the distinct ADVIRC phenotype results from alternative splicing of BEST1 pre-mRNA. Here,we have used induced pluripotent stem cell (iPSC) technology to investigate the effects of an ADVIRC associated BEST1 mutation (c.704T textgreater C,p.V235A) in patient-derived iPSC-RPE. We found no evidence of alternate splicing of the BEST1 transcript in ADVIRC iPSC-RPE,however in patient-derived iPSC-RPE,BEST1 was expressed at the basolateral membrane and the apical membrane. During human eye development we show that BEST1 is expressed more abundantly in peripheral RPE compared to central RPE and is also expressed in cells of the developing retina. These results suggest that higher levels of mislocalised BEST1 expression in the periphery,from an early developmental stage,could provide a mechanism that leads to the distinct clinical phenotype observed in ADVIRC patients. View Publication

Type I and type III interferons (IFNs) are crucial components of the first-line antiviral host response. While specific receptors for both IFN types exist,intracellular signaling shares the same Jak-STAT pathway. Due to its receptor expression,IFN-λ responsiveness is restricted mainly to epithelial cells. Here,we display IFN-stimulated gene induction at the single cell level to comparatively analyze the activities of both IFN types in intestinal epithelial cells and mini-gut organoids. Initially,we noticed that the response to both types of IFNs at low concentrations is based on a single cell decision-making determining the total cell intrinsic antiviral activity. We identified histone deacetylase (HDAC) activity as a crucial restriction factor controlling the cell frequency of IFN-stimulated gene (ISG) induction upon IFN-λ but not IFN-β stimulation. Consistently,HDAC blockade confers antiviral activity to an elsewise non-responding subpopulation. Second,in contrast to the type I IFN system,polarization of intestinal epithelial cells strongly enhances their ability to respond to IFN-λ signaling and raises the kinetics of gene induction. Finally,we show that ISG induction in mini-gut organoids by low amounts of IFN is characterized by a scattered heterogeneous responsiveness of the epithelial cells and HDAC activity fine-tunes exclusively IFN-λ activity. This study provides a comprehensive description of the differential response to type I and type III IFNs and demonstrates that cell polarization in gut epithelial cells specifically increases IFN-λ activity. View Publication

Cell enrichment methods that deal with larger volumes of peripheral blood and BM are needed for increased sensitivity of detection,characterization and quantification of isolated tumor cells (ITC). This study was designed to evaluate a new procedure,the RosetteSep-Applied Imaging Rare Event (RARE) detection method,which depletes the majority of the erythrocytes and leucocytes in a peripheral blood (PB) sample,thereby negatively enriching tumor cells if present. This enrichment procedure allows for increased sensitivity,by analyzing a 5-10 fold larger volume of blood,compared with a direct immunocytochemical (ICC) technique,with minimal impact on laboratory workload. Model experiments showed comparable tumor cell recoveries between the two tested methods,both in PB and BM. Clinical samples were evaluated using paired PB and BM samples from 95 carcinoma patients. Analysis of PB results showed that 25.3% had textgreater or = 1 tumor cell detected by the RARE procedure,compared with 5.2% after direct ICC analysis,analyzing a 10-fold larger volume by the RARE procedure. The direct ICC analysis of BM from the same patients revealed 16.8% positive. The ITC detection differed both quantitatively and qualitatively between BM and PB,as samples with high numbers of ITC in BM were still negative in PB. The clinical significance of ITC in blood still needs to be established. However,the easy access of peripheral blood,and the increased sensitivity obtained by increasing the sample volume with the RARE procedure,suggests that the value of peripheral blood analysis should be tested in parallel in studies where ITC detection in BM is performed. View Publication

Interleukin-6 (IL-6) and its soluble receptor (sIL-6R) are major factors for maintenance and expansion of hematopoietic stem cells (HSCs). Sensitivity of HSCs to IL-6 has been previously studied,in part by measuring the expression of IL-6R on the membrane (mIL-6R). Several studies have described the regulation of cell surface expression of IL-6R by several cytokines,but the role of glycoprotein 130 activation has not yet been investigated. In this study,CD133(+) cells were purified from adult peripheral blood and were precultured in the absence or presence of 5-fluorouracil (5-FU) for selection of quiescent HSCs. Cells were cultured with continuous or pulsed stimulations of an IL-6-sIL-6R fusion protein (hyperinterleukin-6 [HIL-6]) to 1) detect mIL-6R by flow cytometry,2) assess mIL-6R and sIL-6R RNAs by reverse transcription-polymerase chain reaction,3) measure sIL-6R in supernatants by enzyme-linked immunosorbent assay,4) analyze cell-cycle status,and 5) perform long-term culture-initiating cell assays. The level of mIL-6R(-) cells was preserved by 5-FU incubation. HIL-6 increased steady-state mIL-6R RNA and expression rate on HSCs,independently of treatment with 5-FU. Enhanced production of sIL-6R was observed with short pulses of HIL-6 on CD133(+) 5-FU-pretreated cells. This overproduction of sIL-6R was abrogated by tumor necrosis factor-alpha protease inhibitor-1,an inhibitor of a disintegrin and metalloprotease proteases,suggesting the shedding of mIL-6R. This phenomenon was mediated through the phosphatidylinositol-3'-kinase pathway and was involved in the maintenance of primitive HSCs. In conclusion,expression and production of IL-6R are tightly regulated and stage specific. We assume that sIL-6R produced by shedding should be involved in autocrine and paracrine loops in the HSC microenvironment. View Publication