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Bone marrow (BM) failure syndrome encompasses a group of disorders characterized by BM stem cell dysfunction,resulting in varying degrees of hypoplasia and blood pancytopenia,and in many patients is autoimmune and inflammatory in nature. The important role of T helper 1 (Th1) polarized CD4+ T cells in driving BM failure has been clearly established in several models. However,animal model data demonstrating a functional role for CD8+ T cells in BM dysfunction is largely lacking and our objective was to test the hypothesis that CD8+ T cells play a non-redundant role in driving BM failure. Clinical evidence implicates a detrimental role for CD8+ T cells in BM failure and a beneficial role for Foxp3+ regulatory T cells (Tregs) in maintaining immune tolerance in the BM. We demonstrate that IL-2-deficient mice,which have a deficit in functional Tregs,develop spontaneous BM failure. Furthermore,we demonstrate a critical role for CD8+ T cells in the development of BM failure,which is dependent on the cytokine,IFNgamma$. CD8+ T cells promote hematopoietic stem cell dysfunction and depletion of myeloid lineage progenitor cells,resulting in anemia. Adoptive transfer experiments demonstrate that CD8+ T cells dramatically expedite disease progression and promote CD4+ T cell accumulation in the BM. Thus,BM dysregulation in IL-2-deficient mice is mediated by a Th1 and IFNgamma$-producing CD8+ T cell (Tc1) response. View Publication

BackgroundThere is substantial evidence that signaling through Toll-like receptor 4 (TLR4) contributes to the pathogenesis of necrotizing enterocolitis (NEC). Pregnane X receptor (PXR),a xenobiotic sensor and signaling intermediate for certain host-bacterial metabolites,has been shown to negatively regulate TLR4 signaling. Here we investigated the relationship between PXR and TLR4 in the developing murine intestine and explored the capacity of PXR to modulate inflammatory pathways involved in experimental NEC.MethodsWild-type and PXR-/- mice were studied at various time points of development in an experimental model of NEC. In addition,we studied the ability of the secondary bile acid lithocholic acid (LCA),a known PXR agonist in liver,to activate intestinal PXR and reduce NEC-related intestinal inflammation.ResultsWe found a reciprocal relationship between the developmental expression of PXR and TLR4 in wild-type murine intestine,with PXR acting to reduce TLR4 expression by decreasing TLR4 mRNA stability. In addition,PXR-/- mice exhibited a remarkably heightened severity of disease in experimental NEC. Moreover,LCA attenuated intestinal proinflammatory responses in the early stages of experimental NEC.ConclusionThese findings provide proactive insights into the regulation of TLR4 in the developing intestine. Targeting PXR may be a novel approach for NEC prevention. View Publication

Understanding the mechanisms of CD4 memory T cell (Tmem) differentiation in malaria is critical for vaccine development. However,the metabolic regulation of CD4 Tmem differentiation is not clear,particularly in persistent infections. In this study,we investigated the role of fatty acid synthesis (FAS) in Tmem development in Plasmodium chabaudi chronic mouse malaria infection. We show that T cell-specific deletion and early pharmaceutical inhibition of acetyl CoA carboxylase 1,the rate limiting step of FAS,inhibit generation of early memory precursor effector T cells (MPEC). To compare the role of FAS during early differentiation or survival of Tmem in chronic infection,a specific inhibitor of acetyl CoA carboxylase 1,5-(tetradecyloxy)-2-furoic acid,was administered at different times postinfection. Strikingly,the number of Tmem was only reduced when FAS was inhibited during T cell priming and not during the Tmem survival phase. FAS inhibition during priming increased effector T cell (Teff) proliferation and strongly decreased peak parasitemia,which is consistent with improved Teff function. Conversely,MPEC were decreased,in a T cell-intrinsic manner,upon early FAS inhibition in chronic,but not acute,infection. Early cure of infection also increased mitochondrial volume in Tmem compared with Teff,supporting previous reports in acute infection. We demonstrate that the MPEC-specific effect was due to the higher fatty acid content and synthesis in MPEC compared with terminally differentiated Teff. In conclusion,FAS in CD4 T cells regulates the early divergence of Tmem from Teff in chronic infection. View Publication

Background and Aims Disturbance of intestinal homeostasis is associated with the development of inflammatory bowel disease (IBD),and TGF-beta$ signaling impairment in mononuclear phagocytes (MPs) causes murine colitis with goblet cell depletion. Here,we examined an organoid-MP co-culture system to study the role of MPs in intestinal epithelial differentiation and homeostasis. Methods Intestinal organoids were co-cultured with lamina propria leukocytes and bone marrow-derived dendritic cells (BMDCs) from CD11c-cre Tgfbr2fl/fl mice. Organoid-MP adhesive interactions were evaluated by microscopy,RT-PCR,and flow cytometry. Murine colitis models (dextran sodium sulphate (DSS),CD11c-cre Tgfbr2fl/fl,T-cell-transfer) were used for histological and immunohistochemical analysis. Anti-E-cadherin antibody treatment or CD11c+-cell-specific CDH1 gene deletion were performed for E-cadherin neutralization or knockout. Colonic biopsies from patients with ulcerative colitis were analyzed by flow cytometry. Results Intestinal organoids co-cultured with CD11c+ lamina propria leukocytes or BMDCs from CD11c-cre Tgfbr2fl/fl mice showed morphological changes and goblet cell depletion with Notch signal activation,analogous to CD11c-cre Tgfbr2fl/fl colitis. E-cadherin was upregulated in CD11c+ MPs,especially CX3CR1+CCR2+ monocytes,of CD11c-cre Tgfbr2fl/fl mice. E-cadherin-mediated BMDC adhesion promoted Notch activation and cystic changes in organoids. Anti-E-cadherin antibody treatment attenuated colitis in CD11c-cre Tgfbr2fl/fl and T-cell-transferred mice. In addition,E-cadherin deletion in CD11c+ cells attenuated colitis in both CD11c-cre Tgfbr2fl/fl and DSS-treated mice. In patients with ulcerative colitis,E-cadherin expressed by intestinal CD11c+ leukocytes was enhanced compared with that in healthy controls. Conclusions E-cadherin-mediated MP-epithelium adhesion is associated with the development of colitis,and blocking these adhesions may have therapeutic potential for IBD. View Publication

The airways are lined by secretory and multiciliated cells which function together to remove particles and debris from the respiratory tract. The transcriptome of multiciliated cells has been extensively studied,but the function of many of the genes identified is unknown. We have established an assay to test the ability of over-expressed transcripts to promote multiciliated cell differentiation in mouse embryonic tracheal explants. Overexpression data indicated that Fibronectin type 3 and ankyrin repeat domains 1 (Fank1) and JAZF zinc finger 1 (Jazf1) promoted multiciliated cell differentiation alone,and cooperatively with the canonical multiciliated cell transcription factor Foxj1. Moreover,knock-down of Fank1 or Jazf1 in adult mouse airway epithelial cultures demonstrated that these factors are both required for ciliated cell differentiation in vitro This analysis identifies Fank1 and Jazf1 as novel regulators of multiciliated cell differentiation. Moreover,we show that they are likely to function downstream of IL6 signalling and upstream of Foxj1 activity in the process of ciliated cell differentiation. In addition,our in vitro explant assay provides a convenient method for preliminary investigation of over-expression phenotypes in the developing mouse airways.This article has an associated First Person interview with the first author of the paper. View Publication

We hypothesized that the neonatal rat heart would bring transplanted human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) to maturity as it grows to adult size. In neonatal rat heart,engrafted hiPSC derivatives developed partially matured myofibrils after 3 months,with increasing cell size and sarcomere length. There was no difference between grafts from hiPSC-CMs or hiPSC-derived cardiac progenitors (hiPSC-CPs) at 3 months,nor was maturation influenced by infarction. Interestingly,the infarcted adult heart induced greater human cardiomyocyte hypertrophy and induction of cardiac troponin I expression than the neonatal heart. Although human cardiomyocytes at all time points were significantly smaller than the host rat cardiomyocytes,transplanted neonatal rat cardiomyocytes reached adult size and structure by 3 months. Thus,the adult rat heart induces faster maturation than the neonatal heart,and human cardiomyocytes mature more slowly than rat cardiomyocytes. The slower maturation of human cardiomyocytes could be related to environmental mismatch or cell-autonomous factors. View Publication

Enteric pathogens including Salmonella enteric serovar Typhimurium can breach the epithelial barrier of the host and spread to systemic tissues. In response to infection,the host activates innate immune receptors via the signaling molecule MyD88,which induces protective inflammatory and antimicrobial responses. Most of these innate immune responses have been studied in hematopoietic cells,but the role of MyD88 signaling in other cell types remains poorly understood. Surprisingly,we found that Dermo1-Cre;Myd88fl/fl mice with mesenchymal cell-specific deficiency of MyD88 were less susceptible to orogastric and i.p. STyphimurium infection than their Myd88fl/fl littermates. The reduced susceptibility of Dermo1-Cre;Myd88fl/fl mice to infection was associated with lower loads of S. Typhimurium in the liver and spleen. Mutant analyses revealed that S. Typhimurium employs its virulence type III secretion system 2 to promote its growth through MyD88 signaling pathways in mesenchymal cells. Inflammatory monocytes function as a major cell population for systemic dissemination of S. Typhimurium Mechanistically,mesenchymal cell-specific MyD88 signaling promoted CCL2 production in the liver and spleen and recruitment of inflammatory monocytes to systemic organs in response to STyphimurium infection. Consistently,MyD88 signaling in mesenchymal cells enhanced the number of phagocytes including Ly6ChiLy6G- inflammatory monocytes harboring STyphimurium in the liver. These results suggest that S. Typhimurium promotes its systemic growth and dissemination through MyD88 signaling pathways in mesenchymal cells. View Publication

Retinal ganglion cells (RGCs) are the projection neurons of the retina and transmit visual information to postsynaptic targets in the brain. While this function is shared among nearly all RGCs,this class of cell is remarkably diverse,comprised of multiple subtypes. Previous efforts have identified numerous RGC subtypes in animal models,but less attention has been paid to human RGCs. Thus,efforts of this study examined the diversity of RGCs differentiated from human pluripotent stem cells (hPSCs) and characterized defined subtypes through the expression of subtype-specific markers. Further investigation of these subtypes was achieved using single-cell transcriptomics,confirming the combinatorial expression of molecular markers associated with these subtypes,and also provided insight into more subtype-specific markers. Thus,the results of this study describe the derivation of RGC subtypes from hPSCs and will support the future exploration of phenotypic and functional diversity within human RGCs. View Publication

The hypothalamus contains neurons that integrate hunger and satiety endocrine signals from the periphery and are implicated in the pathophysiology of obesity. The limited availability of human hypothalamic neurons hampers our understanding of obesity disease mechanisms. To address this,we generated human induced pluripotent stem cells (hiPSCs) from multiple normal body mass index (BMI; BMI ≤ 25) subjects and super-obese (OBS) donors (BMI ≥ 50) with polygenic coding variants in obesity-associated genes. We developed a method to reliably differentiate hiPSCs into hypothalamic-like neurons (iHTNs) capable of secreting orexigenic and anorexigenic neuropeptides. Transcriptomic profiling revealed that,although iHTNs maintain a fetal identity,they respond appropriately to metabolic hormones ghrelin and leptin. Notably,OBS iHTNs retained disease signatures and phenotypes of high BMI,exhibiting dysregulated respiratory function,ghrelin-leptin signaling,axonal guidance,glutamate receptors,and endoplasmic reticulum (ER) stress pathways. Thus,human iHTNs provide a powerful platform to study obesity and gene-environment interactions. View Publication

Vascular abnormalities are a common component of eye diseases that often lead to vision loss. Vaso-obliteration is associated with inherited retinal degenerations,since photoreceptor atrophy lowers local metabolic demands and vascular support to those regions is no longer required. Given the degree of neurovascular crosstalk in the retina,it may be possible to use one cell type to rescue another cell type in the face of severe stress,such as hypoxia or genetically encoded cell-specific degenerations. Here,we show that intravitreally injected human endothelial colony-forming cells (ECFCs) that can be isolated and differentiated from cord blood in xeno-free media collect in the vitreous cavity and rescue vaso-obliteration and neurodegeneration in animal models of retinal disease. Furthermore,we determined that a subset of the ECFCs was more effective at anatomically and functionally preventing retinopathy; these cells expressed high levels of CD44,the hyaluronic acid receptor,and IGFBPs (insulin-like growth factor-binding proteins). Injection of cultured media from ECFCs or only recombinant human IGFBPs also rescued the ischemia phenotype. These results help us to understand the mechanism of ECFC-based therapies for ischemic insults and retinal neurodegenerative diseases. View Publication

Colony-stimulating factor 1 (CSF1) controls the growth and differentiation of macrophages.CSF1R signaling has been implicated in the maintenance of the intestinal stem cell niche and differentiation of Paneth cells,but evidence of expression of CSF1R within the crypt is equivocal. Here we show that CSF1R-dependent macrophages influence intestinal epithelial differentiation and homeostasis. In the intestinal lamina propria CSF1R mRNA expression is restricted to macrophages which are intimately associated with the crypt epithelium,and is undetectable in Paneth cells. Macrophage ablation following CSF1R blockade affects Paneth cell differentiation and leads to a reduction of Lgr5+ intestinal stem cells. The disturbances to the crypt caused by macrophage depletion adversely affect the subsequent differentiation of intestinal epithelial cell lineages. Goblet cell density is enhanced,whereas the development of M cells in Peyer's patches is impeded. We suggest that modification of the phenotype or abundance of macrophages in the gut wall alters the development of the intestinal epithelium and the ability to sample gut antigens. View Publication

Neurotoxicity testing still relies on ethically debated,expensive and time consuming in vivo experiments,which are unsuitable for high-throughput toxicity screening. There is thus a clear need for a rapid in vitro screening strategy that is preferably based on human-derived neurons to circumvent interspecies translation. Recent availability of commercially obtainable human induced pluripotent stem cell (hiPSC)-derived neurons and astrocytes holds great promise in assisting the transition from the current standard of rat primary cortical cultures to an animal-free alternative. We therefore composed several hiPSC-derived neuronal models with different ratios of excitatory and inhibitory neurons in the presence or absence of astrocytes. Using immunofluorescent stainings and multi-well micro-electrode array (mwMEA) recordings we demonstrate that these models form functional neuronal networks that become spontaneously active. The differences in development of spontaneous neuronal activity and bursting behavior as well as spiking patterns between our models confirm the importance of the presence of astrocytes. Preliminary neurotoxicity assessment demonstrates that these cultures can be modulated with known seizurogenic compounds,such as picrotoxin (PTX) and endosulfan,and the neurotoxicant methylmercury (MeHg). However,the chemical-induced effects on different parameters for neuronal activity,such as mean spike rate (MSR) and mean burst rate (MBR),may depend on the ratio of inhibitory and excitatory neurons. Our results thus indicate that hiPSC-derived neuronal models must be carefully designed and characterized prior to large-scale use in neurotoxicity screening. View Publication