技术资料

The immunodeficiency disorder,X-linked agammaglobulinemia (XLA),results from mutations in the gene encoding Bruton tyrosine kinase (Btk). Btk is required for pre-B cell clonal expansion and B-cell antigen receptor signaling. XLA patients lack mature B cells and immunoglobulin and experience recurrent bacterial infections only partially mitigated by life-long antibody replacement therapy. In pursuit of definitive therapy for XLA,we tested ex vivo gene therapy using a lentiviral vector (LV) containing the immunoglobulin enhancer (Emu) and Igbeta (B29) minimal promoter to drive B lineage-specific human Btk expression in Btk/Tec(-/-) mice,a strain that reproduces the features of human XLA. After transplantation of EmuB29-Btk-LV-transduced stem cells,treated mice showed significant,albeit incomplete,rescue of mature B cells in the bone marrow,peripheral blood,spleen,and peritoneal cavity,and improved responses to T-independent and T-dependent antigens. LV-treated B cells exhibited enhanced B-cell antigen receptor signaling and an in vivo selective advantage in the peripheral versus central B-cell compartment. Secondary transplantation showed sustained Btk expression,viral integration,and partial functional responses,consistent with long-term stem cell marking; and serial transplantation revealed no evidence for cellular or systemic toxicity. These findings strongly support pursuit of B lineage-targeted LV gene therapy in human XLA. View Publication

Small intestinal CD103(+) dendritic cells (DCs) have the selective ability to promote de novo generation of regulatory T cells via the production of retinoic acid (RA). Considering that aldehyde dehydrogenase (ALDH) activity controls the production of RA,we used a flow cytometry-based assay to measure ALDH activity at the single-cell level and to perform a comprehensive analysis of the RA-producing DC populations present in lymphoid and nonlymphoid mouse tissues. RA-producing DCs were primarily of the tissue-derived,migratory DC subtype and can be readily found in the skin and in the lungs as well as in their corresponding draining lymph nodes. The RA-producing skin-derived DCs were capable of triggering the generation of regulatory T cells,a finding demonstrating that the presence of RA-producing,tolerogenic DCs is not restricted to the intestinal tract as previously thought. Unexpectedly,the production of RA by skin DCs was restricted to CD103(-) DCs,indicating that CD103 expression does not constitute a universal" marker for RA-producing mouse DCs. Finally� View Publication

PURPOSE: B-cell receptor signaling plays an important role in the pathogenesis of chronic lymphocytic leukemia (CLL). However,blocking B-cell receptor signaling with dasatinib,an inhibitor of SRC kinase,produced variable results in preclinical and clinical studies. We aim to define the molecular mechanisms underlying the differential dasatinib sensitivity and to uncover more effective therapeutic targets in CLL. EXPERIMENTAL DESIGN: Fresh CLL B cells were treated with dasatinib,and cell viability was followed. The CLL cases were then divided into good and poor responders. The cellular response was correlated with the activities of B-cell receptor signaling molecules,as well as with molecular and cytogenetic prognostic factors. RESULTS: Among 50 CLL cases,dasatinib treatment reduced cell viability by 2% to 90%,with an average reduction of 47% on day 4 of culture. The drug induced CLL cell death through the intrinsic apoptotic pathway mediated by reactive oxygen species. Unexpectedly,phosphorylation of SRC family kinases was inhibited by dasatinib in good,as well as poor,responders. As opposed to SRC family kinases,activities of two downstream molecules,SYK and phospholipase Cgamma2,correlate well with the apoptotic response of CLL cells to dasatinib. CONCLUSIONS: Thus,SYK inhibition predicts cellular response to dasatinib. SYK,together with phospholipase Cgamma2,may serve as potential biomarkers to predict dasatinib therapeutic response in patients. From the pathogenic perspective,our study suggests the existence of alternative mechanisms or pathways that activate SYK,independent of SRC kinase activities. The study further implicates that SYK might serve as a more effective therapeutic target in CLL treatment. View Publication

In this study,we have investigated the hypothesis that previously reported beneficial effect of peripheral blood mononuclear cells cultured under angiogenic conditions on cardiovascular function following ischemia is not limited to EPCs but also to monocytes contained therein. We first purified and analyzed the phenotype and secretome of human and murine blood monocytes cultured under angiogenic conditions (named MDs for monocyte derivatives) and tested their effect in a mouse model of myocardial infarction (MI). FACS analysis of MDs shows that these cells express mature endothelial cell markers and that their proliferative capacity is virtually absent,consistent with their end-differentiated monocytic ontogeny. MDs secreted significant levels of HGF,IGF-1,MCP-1,and sTNFR-1 relative to their monocyte precursors. MDs were unable to form vascular networks in vitro when cultured on matrix coated flasks. Treatment of murine HL-1 cardiomyocyte cell line with MD-conditioned medium reduced their death induced by TNF-alpha,staurosporine,and oxidative stress,and this effect was dependent upon MD-derived sTNFR-1,HGF,and IGF-1. We further demonstrate that MD secretome promoted endothelial cell proliferation and capacity to form vessels in vitro and this was dependent upon MD-derived MCP-1,HGF,and IGF-1. Echocardiography analysis showed that MD myocardial implantation improved left ventricle fractional shortening of mouse hearts following MI and was associated with reduced myocardial fibrosis and enhancement of angiogenesis. Transplanted MDs and their secretome participate in preserving functional myocardium after ischemic insult and attenuate pathological remodeling. View Publication

HIV up-regulates cell-surface expression of specific ligands for the activating NKG2D receptor,including ULBP-1,-2,and -3,but not MICA or MICB,in infected cells both in vitro and in vivo. However,the viral factor(s) involved in NKG2D ligand expression still remains undefined. HIV-1 Vpr activates the DNA damage/stress-sensing ATR kinase and promotes G(2) cell-cycle arrest,conditions known to up-regulate NKG2D ligands. We report here that HIV-1 selectively induces cell-surface expression of ULBP-2 in primary CD4(+) T lymphocytes by a process that is Vpr dependent. Importantly,Vpr enhanced the susceptibility of HIV-1-infected cells to NK cell-mediated killing. Strikingly,Vpr alone was sufficient to up-regulate expression of all NKG2D ligands and thus promoted efficient NKG2D-dependent NK cell-mediated killing. Delivery of virion-associated Vpr via defective HIV-1 particles induced analogous biologic effects in noninfected target cells,suggesting that Vpr may act similarly beyond infected cells. All these activities relied on Vpr ability to activate the ATR-mediated DNA damage/stress checkpoint. Overall,these results indicate that Vpr is a key determinant responsible for HIV-1-induced up-regulation of NKG2D ligands and further suggest an immunomodulatory role for Vpr that may not only contribute to HIV-1-induced CD4(+) T-lymphocyte depletion but may also take part in HIV-1-induced NK-cell dysfunction. View Publication

Chemokine receptor CX3CR1(+) dendritic cells (DCs) have been suggested to sample intestinal antigens by extending transepithelial dendrites into the gut lumen. Other studies identified CD103(+) DCs in the mucosa,which,through their ability to synthesize retinoic acid (RA),appear to be capable of generating typical signatures of intestinal adaptive immune responses. We report that CD103 and CX3CR1 phenotypically and functionally characterize distinct subsets of lamina propria cells. In contrast to CD103(+) DC,CX3CR1(+) cells represent a nonmigratory gut-resident population with slow turnover rates and poor responses to FLT-3L and granulocyte/macrophage colony-stimulating factor. Direct visualization of cells in lymph vessels and flow cytometry of mouse intestinal lymph revealed that CD103(+) DCs,but not CX3CR1-expressing cells,migrate into the gut draining mesenteric lymph nodes (LNs) under steady-state and inflammatory conditions. Moreover,CX3CR1(+) cells displayed poor T cell stimulatory capacity in vitro and in vivo after direct injection of cells into intestinal lymphatics and appeared to be less efficient at generating RA compared with CD103(+) DC. These findings indicate that selectively CD103(+) DCs serve classical DC functions and initiate adaptive immune responses in local LNs,whereas CX3CR1(+) populations might modulate immune responses directly in the mucosa and serve as first line barrier against invading enteropathogens. View Publication

To define novel human NK cell markers,we generated two mAbs specific for G-protein-coupled receptor 56 (GPR56),a surface glycoprotein that appears to be involved in cell-to-cell and cell-to-matrix interactions. GPR56 has been described in selected normal tissues,and in certain tumors,while,as yet,its expression on leukocytes is unknown. In this study,we show that anti-GPR56 mAbs,among leukocytes,prevalently recognize NK cells. In particular,these mAbs brightly stain CD56(dull) CD16(+) NK cells while react poorly with CD56(bright) CD16(+/-) NK cells. Consistently,we found that GPR56 was expressed on NK cells populating inflamed peripheral tissues while it was absent in lymph node-derived NK cells. We also show that activating stimuli,such as cytokines or exposure to monocyte-derived dendritic cell,down-regulate NK cell expression of GPR56 both at the protein and at the transcriptional level. Interestingly,IL-18,known to induce de novo expression of CCR7 on CD56(dull) CD16(+) NK cells,displayed the highest capability of modulating GPR56. Thus,together with the identification of GPR56 as a novel marker capable of discriminating different NK cells subsets,our data suggest that GPR56 may take part to the mechanisms regulating NK cell migration through the blood stream,peripheral tissues and lymph nodes. View Publication

Blood of both humans and mice contains 2 main monocyte subsets. Here,we investigated the extent of their similarity using a microarray approach. Approximately 270 genes in humans and 550 genes in mice were differentially expressed between subsets by 2-fold or more. More than 130 of these gene expression differences were conserved between mouse and human monocyte subsets. We confirmed numerous of these differences at the cell surface protein level. Despite overall conservation,some molecules were conversely expressed between the 2 species' subsets,including CD36,CD9,and TREM-1. Other differences included a prominent peroxisome proliferator-activated receptor gamma (PPARgamma) signature in mouse monocytes,which is absent in humans,and strikingly opposed patterns of receptors involved in uptake of apoptotic cells and other phagocytic cargo between human and mouse monocyte subsets. Thus,whereas human and mouse monocyte subsets are far more broadly conserved than currently recognized,important differences between the species deserve consideration when models of human disease are studied in mice. View Publication

Leucocyte function-associated antigen-1 (LFA-1) is known to be involved in immune reactions leading to allograft rejection. The role of deactivating LFA-1 in this context has not been investigated yet,although it is accepted that regulating LFA-1 activity is essential for T-cell function. Expressing LFA-1 locked in an active state in mice (LFA-1(d/d)) allowed us to investigate the in vivo function of LFA-1 deactivation for allograft rejection in a model of heterotopic cardiac transplantation. We provide in vivo evidence that regulating LFA-1 activity from an active to an inactive state controls antigen-specific priming and proliferation of T cells in response to allogeneic stimuli. Consequently,defective LFA-1 deactivation significantly prolonged cardiac allograft survival. Furthermore,reduced numbers of alloantigen-specific T cells and non-allo-specific innate immune cells within allografts of LFA-1(d/d) recipients indicate that expression of active LFA-1 impairs inflammatory responses involving all major leucocyte subpopulations. Taken together,our in vivo data suggest that LFA-1 deactivation is important for the formation of inflammatory lesions and rejection of cardiac allografts. Thus,the dynamic regulation of LFA-1 activity,rather than the mere presence of LFA-1,appears to contribute to the control of immune reactions inducing allogeneic transplant rejection. View Publication

Human CD56(bright) natural killer (NK) cells possess little or no killer immunoglobulin-like receptors (KIRs),high interferon-gamma (IFN-gamma) production,but little cytotoxicity. CD56(dim) NK cells have high KIR expression,produce little IFN-gamma,yet display high cytotoxicity. We hypothesized that,if human NK maturation progresses from a CD56(bright) to a CD56(dim) phenotype,an intermediary NK cell must exist,which demonstrates more functional overlap than these 2 subsets,and we used CD94 expression to test our hypothesis. CD94(high)CD56(dim) NK cells express CD62L,CD2,and KIR at levels between CD56(bright) and CD94(low)CD56(dim) NK cells. CD94(high)CD56(dim) NK cells produce less monokine-induced IFN-gamma than CD56(bright) NK cells but much more than CD94(low)CD56(dim) NK cells because of differential interleukin-12-mediated STAT4 phosphorylation. CD94(high)CD56(dim) NK cells possess a higher level of granzyme B and perforin expression and CD94-mediated redirected killing than CD56(bright) NK cells but lower than CD94(low)CD56(dim) NK cells. Collectively,our data suggest that the density of CD94 surface expression on CD56(dim) NK cells identifies a functional and likely developmental intermediary between CD56(bright) and CD94(low)CD56(dim) NK cells. This supports the notion that,in vivo,human CD56(bright) NK cells progress through a continuum of differentiation that ends with a CD94(low)CD56(dim) phenotype. View Publication

Interleukin-17A (IL-17A) and IL-17F are 2 of several cytokines produced by T helper 17 cells (Th17),which are able to indirectly induce the recruitment of neutrophils. Recently,human Th17 cells have been phenotypically characterized and shown to express discrete chemokine receptors,including CCR2 and CCR6. Herein,we show that highly purified neutrophils cultured with interferon-gamma plus lipopolysaccharide produce the CCL2 and CCL20 chemokines,the known ligands of CCR2 and CCR6,respectively. Accordingly,supernatants from activated neutrophils induced chemotaxis of Th17 cells,which was greatly suppressed by anti-CCL20 and anti-CCL2 antibodies. We also discovered that activated Th17 cells could directly chemoattract neutrophils via the release of biologically active CXCL8. Consistent with this reciprocal recruitment,neutrophils and Th17 cells were found in gut tissue from Crohn disease and synovial fluid from rheumatoid arthritis patients. Finally,we report that,although human Th17 cells can directly interact with freshly isolated or preactivated neutrophils via granulocyte-macrophage colony-stimulating factor,tumor necrosis factor-alpha,and interferon-gamma release,these latter cells cannot be activated by IL-17A and IL-17F,because of their lack of IL-17RC expression. Collectively,our results reveal a novel chemokine-dependent reciprocal cross-talk between neutrophils and Th17 cells,which may represent a useful target for the treatment of chronic inflammatory diseases. View Publication

The lack of natural killer (NK) cell-specific markers,as well as the overlap among several common surface antigens and functional properties,has obscured the delineation between NK cells and dendritic cells. Here,novel subsets of peripheral blood CD3/14/19(neg) NK cells and monocyte/dendritic cell (DC)-like cells were identified on the basis of CD7 and CD4 expression. Coexpression of CD7 and CD56 differentiates NK cells from CD56+ monocyte/DC-like cells,which lack CD7. In contrast to CD7+CD56+ NK cells,CD7(neg)CD56+ cells lack expression of NK cell-associated markers,but share commonalities in their expression of various monocyte/DC-associated markers. Using CD7,we observed approximately 60% of CD4+CD56+ cells were CD7(neg) cells,indicating the actual frequency of activated CD4+ NK cells is much lower in the blood than previously recognized. Functionally,only CD7+ NK cells secrete gamma interferon (IFNgamma) and degranulate after interleukin-12 (IL-12) plus IL-18 or K562 target cell stimulation. Furthermore,using CD7 to separate CD56+ NK cells and CD56+ myeloid cells,we demonstrate that unlike resting CD7+CD56+ NK cells,the CD7(neg)CD56+ myeloid cells stimulate a potent allogeneic response. Our data indicate that CD7 and CD56 coexpression discriminates NK cells from CD7(neg)CD56+ monocyte/DC-like cells,thereby improving our ability to study the intricacies of NK-cell subset phenotypes and functions in vivo. View Publication