技术资料

ETS2 and ERG are transcription factors,encoded on human chromosome 21 (Hsa21),that have been implicated in human cancer. People with Down syndrome (DS),who are trisomic for Hsa21,are predisposed to acute megakaryoblastic leukemia (AMKL). DS-AMKL blasts harbor a mutation in GATA1,which leads to loss of full-length protein but expression of the GATA-1s isoform. To assess the consequences of ETS protein misexpression on megakaryopoiesis,we expressed ETS2,ERG,and the related protein FLI-1 in wild-type and Gata1 mutant murine fetal liver progenitors. These studies revealed that ETS2,ERG,and FLI-1 facilitated the expansion of megakaryocytes from wild-type,Gata1-knockdown,and Gata1s knockin progenitors,but none of the genes could overcome the differentiation block characteristic of the Gata1-knockdown megakaryocytes. Although overexpression of ETS proteins increased the proportion of CD41(+) cells generated from Gata1s-knockin progenitors,their expression led to a significant reduction in the more mature CD42 fraction. Serial replating assays revealed that overexpression of ERG or FLI-1 immortalized Gata1-knockdown and Gata1s knockin,but not wild-type,fetal liver progenitors. Immortalization was accompanied by activation of the JAK/STAT pathway,commonly seen in megakaryocytic malignancies. These findings provide evidence for synergy between alterations in GATA-1 and overexpression of ETS proteins in aberrant megakaryopoiesis. View Publication

Evidence suggests the transcription factor GATA-2 is a critical regulator of murine hematopoietic stem cells. Here,we explore the relation between GATA-2 and cell proliferation and show that inducing GATA-2 increases quiescence (G(0) residency) of murine and human hematopoietic cells. In human cord blood,quiescent fractions (CD34(+)CD38(-)Hoechst(lo)Pyronin Y(lo)) express more GATA-2 than cycling counterparts. Enforcing GATA-2 expression increased quiescence of cord blood cells,reducing proliferation and performance in long-term culture-initiating cell and colony-forming cell (CFC) assays. Gene expression analysis places GATA-2 upstream of the quiescence regulator MEF,but enforcing MEF expression does not prevent GATA-2-conferred quiescence,suggesting additional regulators are involved. Although known quiescence regulators p21(CIP1) and p27(KIP1) do not appear to be responsible,enforcing GATA-2 reduced expression of regulators of cell cycle such as CCND3,CDK4,and CDK6. Enforcing GATA-2 inhibited human hematopoiesis in vivo: cells with highest exogenous expression (GATA-2(hi)) failed to contribute to hematopoiesis in nonobese diabetic-severe combined immunodeficient (NOD-SCID) mice,whereas GATA-2(lo) cells contributed with delayed kinetics and low efficiency,with reduced expression of Ki-67. Thus,GATA-2 activity inhibits cell cycle in vitro and in vivo,highlighting GATA-2 as a molecular entry point into the transcriptional program regulating quiescence in human hematopoietic stem and progenitor cells. View Publication

Animal models of hematopoietic stem cell transplantation have been used to analyze the turnover of bone marrow-derived cells and to demonstrate the critical role of recipient antigen-presenting cells (APC) in graft versus host disease (GVHD). In humans,the phenotype and lineage relationships of myeloid-derived tissue APC remain incompletely understood. It has also been proposed that the risk of acute GVHD,which extends over many months,is related to the protracted survival of certain recipient APC. Human dermis contains three principal subsets of CD45(+)HLA-DR(+) cells: CD1a(+)CD14(-) DC,CD1a(-)CD14(+) DC,and CD1a(-)CD14(+)FXIIIa(+) macrophages. In vitro,each subset has characteristic properties. After transplantation,both CD1a(+) and CD14(+) DC are rapidly depleted and replaced by donor cells,but recipient macrophages can be found in GVHD lesions and may persist for many months. Macrophages isolated from normal dermis secrete proinflammatory cytokines. Although they stimulate little proliferation of naive or memory CD4(+) T cells,macrophages induce cytokine expression in memory CD4(+) T cells and activation and proliferation of CD8(+) T cells. These observations suggest that dermal macrophages and DC are from distinct lineages and that persistent recipient macrophages,although unlikely to initiate alloreactivity,may contribute to GVHD by sustaining the responses of previously activated T cells. View Publication

There is an enormous gap between the antiproliferative and in vivo antitumor efficacy of gemcitabine in cell line-based models and its clinical efficacy. This may be due to insensitiveness of the precursor,cancer stem cell (CSC) compartment to cytotoxic agents. The hedgehog pathway is associated with CSC signaling and control. We used a direct xenograft model of pancreatic cancer and a two-stage approach was used to test the hypotheses that targeting CSC could increase the efficacy of gemcitabine. Tumors from a gemcitabine-sensitive xenograft were treated with gemcitabine first,and randomized,after tumor regression to continuing treatment with gemcitabine,a hedgehog inhibitor alone or in combination with gemcitabine. We tested markers described as associated with CSC such as CD24,CD44,ALDH,nestin,and the hedgehog pathway. After induction with gemcitabine,treated tumor showed an enrichment in CSC markers such as ALDH and CD24. Subsequently,a release from gemcitabine prompted a repopulation of proliferating cells and a decrease in such markers to equilibrate from pretreatment levels. Combined treatment with gemcitabine and cyclopamine induced tumor regression and decrease in CSC markers and hedgehog signaling. Cytoplasmic CD24 and ALDH were inversely and strongly associated with growth and were expressed in a minority of cells that we propose constitute the CSC compartment. Hedgehog inhibitors as part of a dual compartment therapeutic approach were able to further reduce tumor growth and decreased both static and dynamic markers of CSC. Direct tumor xenografts are a valid platform to test multicompartment therapeutic approaches in pancreatic cancer. View Publication

The basic helix-loop-helix transcription factor achaete-scute complex homologue 1 (ASCL1) is essential for the development of normal lung neuroendocrine cells as well as other endocrine and neural tissues. Small cell lung cancer (SCLC) and non-SCLC with neuroendocrine features express ASCL1,where the factor may play a role in the virulence and primitive neuroendocrine phenotype of these tumors. In this study,RNA interference knockdown of ASCL1 in cultured SCLC resulted in inhibition of soft agar clonogenic capacity and induction of apoptosis. cDNA microarray analyses bolstered by expression studies,flow cytometry,and chromatin immunoprecipitation identified two candidate stem cell marker genes,CD133 and aldehyde dehydrogenase 1A1 (ALDH1A1),to be directly regulated by ASCL1 in SCLC. In SCLC direct xenograft tumors,we detected a relatively abundant CD133(high)-ASCL1(high)-ALDH1(high) subpopulation with markedly enhanced tumorigenicity compared with cells with weak CD133 expression. Tumorigenicity in the CD133(high) subpopulation depended on continued ASCL1 expression. Whereas CD133(high) cells readily reconstituted the range of CD133 expression seen in the original xenograft tumor,CD133(low) cells could not. Our findings suggest that a broad range of SCLC cells has tumorigenic capacity rather than a small discrete population. Intrinsic tumor cell heterogeneity,including variation in key regulatory factors such as ASCL1,can modulate tumorigenicity in SCLC. View Publication

The core-binding factor (CBF) is a master regulator of developmental and differentiation programs,and CBF alterations are frequently associated with acute leukemia. The role of the CBF member RUNX2 in hematopoiesis is poorly understood. Genetic evidence suggests that deregulation of Runx2 may cause myeloid leukemia in mice expressing the fusion oncogene Cbfb-MYH11. In this study,we show that sustained expression of Runx2 modulates Cbfbeta-smooth muscle myosin heavy chain (SMMHC)-mediated myeloid leukemia development. Expression of Runx2 is high in the hematopoietic stem cell compartment and decreases during myeloid differentiation. Sustained Runx2 expression hinders myeloid progenitor differentiation capacity and represses expression of CBF targets Csf1R,Mpo,Cebpd,the cell cycle inhibitor Cdkn1a,and myeloid markers Cebpa and Gfi1. In addition,full-length Runx2 cooperates with Cbfbeta-SMMHC in leukemia development in transplantation assays. Furthermore,we show that the nuclear matrix-targeting signal and DNA-binding runt-homology domain of Runx2 are essential for its leukemogenic activity. Conversely,Runx2 haplo-insufficiency delays the onset and reduces the incidence of acute myeloid leukemia. Together,these results indicate that Runx2 is expressed in the stem cell compartment,interferes with differentiation and represses CBF targets in the myeloid compartment,and modulates the leukemogenic function of Cbfbeta-SMMHC in mouse leukemia. View Publication

PTPN11,which encodes the tyrosine phosphatase SHP2,is mutated in approximately 35% of patients with juvenile myelomonocytic leukemia (JMML) and at a lower incidence in other neoplasms. To model JMML pathogenesis,we generated knockin mice that conditionally express the leukemia-associated mutant Ptpn11(D61Y). Expression of Ptpn11(D61Y) in all hematopoietic cells evokes a fatal myeloproliferative disorder (MPD),featuring leukocytosis,anemia,hepatosplenomegaly,and factor-independent colony formation by bone marrow (BM) and spleen cells. The Lin(-)Sca1(+)cKit(+) (LSK) compartment is expanded and right-shifted� View Publication

Retinoids triggers differentiation of acute promyelocytic leukemia (APL) blasts by transcriptional regulation of myeloid regulatory genes. Using a microarray approach,we have identified a novel retinoid-responsive gene (CXXC5) encoding a nuclear factor,retinoid-inducible nuclear factor (RINF),that contains a CXXC-type zinc-finger motif. RINF expression correlates with retinoid-induced differentiation of leukemic cells and with cytokine-induced myelopoiesis of normal CD34(+) progenitors. Furthermore,short hairpin RNA (shRNA) interference suggests for this gene a regulatory function in both normal and tumoral myelopoiesis. Interestingly,RINF localizes to 5q31.3,a small region often deleted in myeloid leukemia (acute myeloid leukemia [AML]/myelodysplasia [MDS]) and suspected to harbor one or several tumor suppressor gene. View Publication

Antibody-based therapies,such as rituximab and alemtuzumab,have contributed significantly to the treatment of Chronic Lymphocytic leukaemia (CLL). The CD40 antigen is expressed predominantly on B-cells and represents a potential target for immune-based therapies. SGN-40 is a humanized IgG1 monoclonal antibody currently in Phase I/II clinical trials for indolent lymphomas,diffuse large B cell lymphomas and Multiple Myeloma. Its biological effect on CLL cells has not been studied. The present study demonstrated that SGN-40 mediated modest apoptosis in a subset of patients with secondary cross-linking but did not mediate complement-dependent cytotoxicity. SGN-40 also mediated antibody-dependent cellular cytotoxicity (ADCC) predominantly through natural killer (NK) cells. Previous studies by our group and others have demonstrated that lenalidomide upregulates CD40 expression on primary B CLL cells and activates NK-cells. We therefore examined for the combinatorial effect of lenalidomide and SGN-40 and demonstrated that both enhanced direct apoptosis and ADCC against primary CLL B cells. These data together provide justification for clinical trials of SGN-40 and lenalidomide in combination for CLL therapy. View Publication

BACKGROUND: Interest in the biology of endogenous progenitor cells (EPCs) continues to grow as evidence of their role in vascular repair mounts. EPC enumeration requires specialized laboratory techniques and is performed immediately after sample acquisition,limiting the clinical contexts in which EPC enumeration can be performed and the ability to increase sample sizes through multi-center participation. METHODS: We compared the numbers of EPCs enumerated in samples processed immediately after acquisition (n = 36) with EPCs enumerated in specimens stored for 24 hours or after cryopreservation of mononuclear cells (MNC) using two EPC identification strategies: cell surface marker expression (CD133/CD34) and aldehyde dehydrogenase activity (ALDH(br) cells). RESULTS: EPCs assessed in fresh samples correlated with EPCs enumerated after whole blood storage (r = 0.699 for CD133(+)CD34(+) cells,r = 0.880 for ALDH(br) cells,P textless 0.005 and P textless 0.0001,respectively) or mononuclear cryopreservation (r = 0.590 for CD133(+)CD34(+) cells,r = 0.894 for ALDH(br) cells,P textless 0.0001 for each); however,correlation based on assessment of ALDH(br) cells was higher (P textless 0.0003 for comparison of correlation coefficients). Initial results from a multi-site clinical trial suggest that EPC enumeration after mononuclear cell cryopreservation is feasible. CONCLUSION: EPC analysis based on ALDH activity is reproducible,even after extended whole blood storage or MNC cryopreservation. View Publication