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Hematopoiesis is a carefully controlled process that is regulated by complex networks of transcription factors that are,in part,controlled by signals resulting from ligand binding to cell-surface receptors. To further understand hematopoiesis,we have compared gene expression profiles of human erythroblasts,megakaryocytes,B cells,cytotoxic and helper T cells,natural killer cells,granulocytes,and monocytes using whole genome microarrays. A bioinformatics analysis of these data was performed focusing on transcription factors,immunoglobulin superfamily members,and lineage-specific transcripts. We observed that the numbers of lineage-specific genes varies by 2 orders of magnitude,ranging from 5 for cytotoxic T cells to 878 for granulocytes. In addition,we have identified novel coexpression patterns for key transcription factors involved in hematopoiesis (eg,GATA3-GFI1 and GATA2-KLF1). This study represents the most comprehensive analysis of gene expression in hematopoietic cells to date and has identified genes that play key roles in lineage commitment and cell function. The data,which are freely accessible,will be invaluable for future studies on hematopoiesis and the role of specific genes and will also aid the understanding of the recent genome-wide association studies. View Publication

We describe here the effects of three drugs that are either approved or have the potential for treating multiple sclerosis (MS) patients through the in vitro activities of human natural killer (NK) cells and dendritic cells (DCs). Our results indicate that 1,25(OH)2D3,the biologically active metabolite of vitamin D3,calcipotriol and FTY720 augment IL-2-activated NK cell lysis of K562 and RAJI tumor cell lines as well as immature (i) and mature (m) DCs,with variable efficacies. These results are corroborated with the ability of the drugs to up-regulate the expression of NK cytotoxicity receptors NKp30 and NKp44,as well as NKG2D on the surfaces of NK cells. Also,they down-regulate the expression of the killer inhibitory receptor CD158. The three drugs down-regulate the expression of CCR6 on the surface of iDCs,whereas vitamin D3 and calcipotriol tend to up-regulate the expression of CCR7 on mDCs,suggesting that they may influence the migration of DCs into the lymph nodes. Finally,vitamin D3,calcipotriol and FTY720 enhance NK17/NK1 cell lysis of K562 cells,suggesting that a possible mechanism of action for these drugs is via activating these newly described cells. In conclusion,our results show novel mechanisms of action for vitamin D3,calcipotriol and FTY720 on cells of the innate immune system. View Publication

In humans,recent clinical and experimental data from hematopoietic stem cell transplantation revealed that donor-derived alloreactive NK cells exert a beneficial graft versus leukemia effect. The existence of donor-derived alloreactive NK cells can be predicted on the basis of donor killer cell Ig-like receptor (KIR) gene profile and HLA class I typing of both donor and recipient. Moreover,the size of the alloreactive NK cell population can be directly assessed by the combined use of anti-KIR-specific mAb. In this study,in an attempt to improve the definition of alloreactive NK cell subsets,we assessed the KIR genotype and phenotype in a cohort of 44 donors. This approach allowed the identification of two different KIR2DL3 alleles (KIR2DL3*005 and the novel allele KIR2DL3*015) that did not react with the anti-KIR2DL3-specific ECM41 mAb. In contrast,both alleles were recognized at the cell surface by several mAb reacting with KIR2DL2/L3/S2. Notably,KIR2DL3*005 was also stained by the anti-KIR2DL1/S1-specific EB6B and 11PB6 mAb. Functional analysis revealed that,despite its particular mAb reactivity,the specificity of KIR2DL3*005 for HLA-C molecules did not differ from that of other KIR2DL2/L3 alleles. Finally,site-directed mutagenesis demonstrated that glutamine at position 35 is required for ECM41 staining,whereas glutamic acid 35 and arginine 50 are relevant for staining with EB6B or 11PB6 mAb. Our present data represent a substantial progress in the characterization of the NK cell repertoire and an improved phenotypic/functional definition of given KIR(+) subsets. View Publication

Langerhans cell histiocytosis (LCH) is a rare disease with an unknown etiology characterized by heterogeneous lesions containing CD207+CD1a+ cells that can arise in almost any tissue and cause significant morbidity and mortality. Precursors of pathological Langerhans cells have yet to be defined. Our aim was to identify circulating CD207+CD1a+ cells and their inducers in LCH. Expression of CD207 and CD1a in the blood myeloid compartment as well as thymic stromal lymphopoietin (TSLP) and transforming growth factor β (TGF-β) plasma levels were measured in 22 pediatric patients with active disease (AD) or nonactive disease (NAD). In patients with AD vs those with NAD,the myeloid compartment showed an increased CD11b (CD11bhigh plus CD11b+) fraction (39.7 ± 3.6 vs 18.6 ± 1.9),a higher percentage of circulating CD11bhighCD11c+CD207+ cells (44.5 ± 11.3 vs 3.2 ± 0.5),and the presence of CD11chighCD207+CD1a+ cells (25.0 ± 9.1 vs 2.3 ± 0.5). Blood CD207+CD1a+ cells were not observed in adult controls or umbilical cord. Increased TSLP and TGF-β levels were detected in patients with AD. Interestingly,plasma from patients with AD induces CD207 expression on CD14+ monocytes. We conclude that CD207+CD1a+ cells are circulating in patients with active LCH,and TSLP and TGF-β are potential drivers of Langerhans-like cells in vivo. View Publication

Dendritic cells (DCs) are potent mediators of the immune response,and can be activated by exogenous pathogen components. Galectin-1 is a member of the conserved beta-galactoside-binding lectin family that binds galactoside residues on cell surface glycoconjugates. Galectin-1 is known to play a role in immune regulation via action on multiple immune cells. However,its effects on human DCs are unknown. In this study,we show that galectin-1 induces a phenotypic and functional maturation in human monocyte-derived DCs (MDDCs) similar to but distinct from the activity of the exogenous pathogen stimuli,LPS. Immature human MDDCs exposed to galectin-1 up-regulated cell surface markers characteristic of DC maturation (CD40,CD83,CD86,and HLA-DR),secreted high levels of IL-6 and TNF-alpha,stimulated T cell proliferation,and showed reduced endocytic capacity,similar to LPS-matured MDDCs. However,unlike LPS-matured DCs,galectin-1-treated MDDCs did not produce the Th1-polarizing cytokine IL-12. Microarray analysis revealed that in addition to modulating many of the same DC maturation genes as LPS,galectin-1 also uniquely up-regulated a significant subset of genes related to cell migration through the extracellular matrix (ECM). Indeed,compared with LPS,galectin-1-treated human MDDCs exhibited significantly better chemotactic migration through Matrigel,an in vitro ECM model. Our findings show that galectin-1 is a novel endogenous activator of human MDDCs that up-regulates a significant subset of genes distinct from those regulated by a model exogenous stimulus (LPS). One unique effect of galectin-1 is to increase DC migration through the ECM,suggesting that galectin-1 may be an important component in initiating an immune response. View Publication

In this study,we analyzed IL-2-activated polyclonal natural killer (NK) cells derived from 2 patients affected by leukocyte adhesion deficiency type I (LAD1),an immunodeficiency characterized by mutations of the gene coding for CD18,the beta subunit shared by major leukocyte integrins. We show that LAD1 NK cells express normal levels of various triggering NK receptors (and coreceptors) and that mAb-mediated engagement of these receptors results in the enhancement of both NK cytolytic activity and cytokine production. Moreover,these activating NK receptors were capable of recognizing their specific ligands on target cells. Thus,LAD1 NK cells,similarly to normal NK cells,were capable of killing most human tumor cells analyzed and produced high amounts of IFN-gamma when cocultured in presence of target cells. Murine target cells represented a common exception,as they were poorly susceptible to LAD1 NK cells. Finally,LAD1 NK cells could efficiently kill or induce maturation of monocyte-derived immature dendritic cells (DCs). Altogether our present study indicates that in LAD1 patients,3 important functions of NK cells (eg,cytotoxicity,IFN-gamma production,and DC editing) are only marginally affected and provides new insight on the cooperation between activating receptors and LFA-1 in the induction of NK cell activation and function. View Publication

Retinoic acid (RA) produced by intestinal dendritic cells (DCs) imprints gut-homing specificity on lymphocytes and enhances Foxp3(+) regulatory T-cell differentiation. The expression of aldehyde dehydrogenase (ALDH) 1A in these DCs is essential for the RA production. However,it remains unclear how the steady-state ALDH1A expression is induced under specific pathogen-free (SPF) conditions. Here,we found that bone marrow-derived dendritic cells (BM-DCs) generated with granulocyte-macrophage colony-stimulating factor (GM-CSF) expressed Aldh1a2,an isoform of Aldh1a,but that fms-related tyrosine kinase 3 ligand-generated BM-DCs did not. DCs from mesenteric lymph nodes (MLN) and Peyer's patches (PP) of normal SPF mice expressed ALDH1A2,but not the other known RA-producing enzymes. Employing a flow cytometric method,we detected ALDH activities in 10-30% of PP-DCs and MLN-DCs. They were CD11c(high)CD4(-/low)CD8alpha(intermediate)CD11b(-/low) F4/80(low/intermediate)CD45RB(low)CD86(high)MHC class II(high)B220(-)CD103(+). Equivalent levels of aldehyde dehydrogenase activity (ALDHact) and ALDH1A2 expression were induced synergistically by GM-CSF and IL-4 in splenic DCs in vitro. In BM-DCs,however,additional signals via Toll-like receptors or RA receptors were required for inducing the equivalent levels. The generated ALDH1A2(+) DCs triggered T cells to express gut-homing receptors or Foxp3. GM-CSF receptor-deficient or vitamin A-deficient mice exhibited marked reductions in the ALDHact in intestinal DCs and the T cell number in the intestinal lamina propria,whereas IL-4 receptor-mediated signals were dispensable. GM-CSF(+)CD11c(-)F4/80(+) cells existed constitutively in the intestinal tissues. The results suggest that GM-CSF and RA itself are pivotal among multiple microenvironment factors that enable intestinal DCs to produce RA. View Publication

The regulatory properties of B cells have been studied in autoimmune diseases; however,their role in allergic diseases is poorly understood. We demonstrate that Semaphorin 4C (Sema4C),an axonal guidance molecule,plays a crucial role in B cell regulatory function. Mice deficient in Sema4C exhibited increased airway inflammation after allergen exposure,with massive eosinophilic lung infiltrates and increased Th2 cytokines. This phenotype was reproduced by mixed bone marrow chimeric mice with Sema4C deficient only in B cells,indicating that B lymphocytes were the key cells affected by the absence of Sema4C expression in allergic inflammation. We determined that Sema4C-deficient CD19(+)CD138(+) cells exhibited decreased IL-10 and increased IL-4 expression in vivo and in vitro. Adoptive transfer of Sema4c(-/-) CD19(+)CD138(+) cells induced marked pulmonary inflammation,eosinophilia,and increased bronchoalveolar lavage fluid IL-4 and IL-5,whereas adoptive transfer of wild-type CD19(+)CD138(+)IL-10(+) cells dramatically decreased allergic airway inflammation in wild-type and Sema4c(-/-) mice. This study identifies a novel pathway by which Th2-mediated immune responses are regulated. It highlights the importance of plasma cells as regulatory cells in allergic inflammation and suggests that CD138(+) B cells contribute to cytokine balance and are important for maintenance of immune homeostasis in allergic airways disease. Furthermore,we demonstrate that Sema4C is critical for optimal regulatory cytokine production in CD138(+) B cells. View Publication