技术资料

The HOXA9 homeoprotein exerts dramatic effects in hematopoiesis. Enforced expression of HOXA9 enhances proliferation of primitive blood cells,expands hematopoietic stem cells (HSCs),and leads to myeloid leukemia. Conversely,loss of HOXA9 inhibits proliferation and impairs HSC function. The pathways by which HOXA9 acts are largely unknown,and although HOXA9 is a transcription factor,few direct target genes have been identified. Our previous study suggested that HOXA9 positively regulates Pim1,an oncogenic kinase. The hematologic phenotypes of Hoxa9- and Pim1-deficient animals are strikingly similar. Here we show that HOXA9 protein binds to the Pim1 promoter and induces Pim1 mRNA and protein in hematopoietic cells. Pim1 protein is diminished in Hoxa9(-/-) cells,and Hoxa9 and Pim1 mRNA levels track together in early hematopoietic compartments. Induction of Pim1 protein by HOXA9 increases the phosphorylation and inactivation of the proapoptotic BAD protein,a target of Pim1. Hoxa9(-/-) cells show increased apoptosis and decreased proliferation,defects that are ameliorated by reintroduction of Pim1. Thus Pim1 appears to be a direct transcriptional target of HOXA9 and a mediator of its antiapoptotic and proproliferative effects in early cells. Since HOXA9 is frequently up-regulated in acute myeloid leukemia,Pim1 may be a therapeutic target in human disease. View Publication

Murine megakaryocytes (MKs) are defined by CD41/CD61 expression and acetylcholinesterase (AChE) activity; however,their stages of differentiation in bone marrow (BM) have not been fully elucidated. In murine lineage-negative (Lin(-))/CD45(+) BM cells,we found CD41(+) MKs without AChE activity (AChE(-)) except for CD41(++) MKs with AChE activity (AChE(+)),in which CD61 expression was similar to their CD41 level. Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs could differentiate into AChE(+),with an accompanying increase in CD41/CD61 during in vitro culture. Both proplatelet formation (PPF) and platelet (PLT) production for Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs were observed later than for Lin(-)/CD41(++)/CD45(+)/AChE(+) MKs,whereas MK progenitors were scarcely detected in both subpopulations. GeneChip and semiquantitative polymerase chain reaction analyses revealed that the Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs are assigned at the stage between the progenitor and PPF preparation phases in respect to the many MK/PLT-specific gene expressions,including beta1-tubulin. In normal mice,the number of Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs was 100 times higher than that of AChE(+) MKs in BM. When MK destruction and consequent thrombocytopenia were caused by an antitumor agent,mitomycin-C,Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs led to an increase in AChE(+) MKs and subsequent PLT recovery with interleukin-11 administration. It was concluded that MKs in murine BM at least in part consist of immature Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs and more differentiated Lin(-)/CD41(++)/CD45(+)/AChE(+) MKs. Immature Lin(-)/CD41(+)/CD45(+)/AChE(-) MKs are a major MK population compared with AChE(+) MKs in BM and play an important role in rapid PLT recovery in vivo. View Publication

Infection with a recombinant murine-feline gammaretrovirus,MoFe2,or with the parent virus,Moloney murine leukemia virus,caused significant reduction in B-lymphoid differentiation of bone marrow at 2 to 8 weeks postinfection. The suppression was selective,in that myeloid potential was significantly increased by infection. Analysis of cell surface markers and immunoglobulin H gene rearrangements in an in vitro model demonstrated normal B-lymphoid differentiation after infection but significantly reduced viability of differentiating cells. This reduction in viability may confer a selective advantage on undifferentiated lymphoid progenitors in the bone marrow of gammaretrovirus-infected animals and thereby contribute to the establishment of a premalignant state. View Publication

BACKGROUND: ALDH(br) cells express high aldehyde dehydrogenase (ALDH) activity and have progenitor cell activity in several contexts. We characterized human BM ALDH(br) cells to determine whether cell sorting based on ALDH activity isolates potentially useful populations for cell therapy. METHOD: We measured the expression of ALDH and cell-surface Ag by flow cytometry and compared the ability of sorted ALDH(br),and BM populations remaining after ALDH(br) cells were removed (ALDH(dim) populations),to develop into several cell lineages in culture. RESULTS: The ALDH(br) population comprised 1.2+/-0.8% (mean+/-SD,n=30) nucleated cells and was enriched in cells expressing CD34,CD117,CD105,CD127,CD133 and CD166,and in primitive CD34(+) CD38(-) and CD34(+) CD133(+) progenitors. Most of the CD34(+) and CD133(+) cells were ALDH(dim). ALDH(br) populations had 144-fold more hematopoietic colony-forming activity than ALDH(dim) cells and included all megakaryocyte progenitors. ALDH(br) populations readily established endothelial cell monolayers in cultures. Cells generating endothelial colonies in 7 days were 435-fold more frequent in ALDH(br) than ALDH(dim) populations. CFU-F were 9.5-fold more frequent in ALDH(br) than ALDH(dim) cells,and ALDH(br) cells gave rise to multipotential mesenchymal cell cultures that could be driven to develop into adipocytes,osteoblasts and chondrocytes. DISCUSSION: Hematopoietic,endothelial and mesenchymal progenitor cells can be isolated simultaneously from human BM by cell sorting based on ALDH activity. BM ALDH(br) populations may be useful in several cell therapy applications. View Publication

Mast cells (MCs) play an important role in the regulation of protective adaptive immune responses against pathogens. However,it is still unclear whether MCs promote such host defense responses via direct effects on T cells or rather by modifying the functions of antigen-presenting cells. To identify the underlying mechanisms of the immunoregulatory capacity of MCs,we investigated the impact of MCs on dendritic cell (DC) maturation and function. We found that murine peritoneal MCs underwent direct crosstalk with immature DCs that induced DC maturation as evidenced by enhanced expression of costimulatory molecules. Furthermore,the MC/DC interaction resulted in the release of the T-cell modulating cytokines IFN-γ,IL-2,IL-6 and TGF-β into coculture supernatants and increased the IL-12p70,IFN-γ,IL-6 and TGF-β secretion of LPS-matured DCs. Such MC-primed" DCs subsequently induced efficient CD4+ T-cell proliferation. Surprisingly� View Publication

We recently demonstrated that lack of type I IFN signaling (IFNAR knockout) in lymphocyte-deficient mice (IFrag(-/-)) results in bone marrow (BM) failure after Pneumocystis lung infection,whereas lymphocyte-deficient mice with intact IFNAR (RAG(-/-)) had normal hematopoiesis. In the current work,we performed studies to define further the mechanisms involved in the induction of BM failure in this system. BM chimera experiments revealed that IFNAR expression was required on BM-derived but not stroma-derived cells to prevent BM failure. Signals elicited after day 7 postinfection appeared critical in determining BM cell fate. We observed caspase-8- and caspase-9-mediated apoptotic cell death,beginning with neutrophils. Death of myeloid precursors was associated with secondary oxidative stress,and decreasing colony-forming activity in BM cell cultures. Treatment with N-acetylcysteine could slow the progression of,but not prevent,BM failure. Type I IFN signaling has previously been shown to expand the neutrophil life span and regulate the expression of some antiapoptotic factors. Quantitative RT-PCR demonstrated reduced mRNA abundance for the antiapoptotic factors BCL-2,IAP2,MCL-1,and others in BM cells from IFrag(-/-) compared with that in BM cells from RAG(-/-) mice at day 7. mRNA and protein for the proapoptotic cytokine TNF-α was increased,whereas mRNA for the growth factors G-CSF and GM-CSF was reduced. In vivo anti-TNF-α treatment improved precursor cell survival and activity in culture. Thus,we propose that lack of type I IFN signaling results in decreased resistance to inflammation-induced proapoptotic stressors and impaired replenishment by precursors after systemic responses to Pneumocystis lung infection. Our finding may have implications in understanding mechanisms underlying regenerative BM depression/failure during complex immune deficiencies such as AIDS. View Publication

We studied leukemic stem cells (LSCs) in a Smad4(-/-) mouse model of acute myelogenous leukemia (AML) induced either by the HOXA9 gene or by the fusion oncogene NUP98-HOXA9. Although Hoxa9-Smad4 complexes accumulate in the cytoplasm of normal hematopoietic stem cells and progenitor cells (HSPCs) transduced with these oncogenes,there is no cytoplasmic stabilization of HOXA9 in Smad4(-/-) HSPCs,and as a consequence increased levels of Hoxa9 is observed in the nucleus leading to increased immortalization in vitro. Loss of Smad4 accelerates the development of leukemia in vivo because of an increase in transformation of HSPCs. Therefore,the cytoplasmic binding of Hoxa9 by Smad4 is a mechanism to protect Hoxa9-induced transformation of normal HSPCs. Because Smad4 is a potent tumor suppressor involved in growth control,we developed a strategy to modify the subcellular distribution of Smad4. We successfully disrupted the interaction between Hoxa9 and Smad4 to activate the TGF-β pathway and apoptosis,leading to a loss of LSCs. Together,these findings reveal a major role for Smad4 in the negative regulation of leukemia initiation and maintenance induced by HOXA9/NUP98-HOXA9 and provide strong evidence that antagonizing Smad4 stabilization by these oncoproteins might be a promising novel therapeutic approach in leukemia. View Publication

A population of CD133(+)Lin(-)CD45(-) very small embryonic/epiblast-like stem cells (VSELs) has been purified by multiparameter sorting from umbilical cord blood (UCB). To speed up isolation of these cells,we employed anti-CD133-conjugated paramagnetic beads followed by staining with Aldefluor to detect aldehyde dehydrogenase (ALDH) activity; we subsequently sorted CD45(-)/GlyA(-)/CD133(+)/ALDH(high) and CD45(-)/GlyA(-)/CD133(+)/ALDH(low) cells,which are enriched for VSELs,and CD45(+)/GlyA /CD133(+)/ALDH(high) and CD45(+)/GlyA(-)/CD133(+)/ALDH(low) cells,which are enriched for hematopoietic stem/progenitor cells (HSPCs). Although freshly isolated CD45(-) VSELs did not grow hematopoietic colonies,the same cells,when activated/expanded over OP9 stromal support,acquired hematopoietic potential and grew colonies composed of CD45(+) hematopoietic cells in methylcellulose cultures. We also observed that CD45(-)/GlyA(-)/CD133(+)/ALDH(high) VSELs grew colonies earlier than CD45(-)/GlyA(-)/CD133(+)/ALDH(low) VSELs,which suggests that the latter cells need more time to acquire hematopoietic commitment. In support of this possibility,real-time polymerase chain reaction analysis confirmed that,whereas freshly isolated CD45(-)/GlyA(-)/CD133(+)/ALDH(high) VSELs express more hematopoietic transcripts (for example,c-myb),CD45(-)/GlyA(-)/CD133(+)/ALDH(low) VSELs exhibit higher levels of pluripotent stem cell markers (for example,Oct-4). More importantly,hematopoietic cells derived from VSELs that were co-cultured over OP9 support were able to establish human lympho-hematopoietic chimerism in lethally irradiated non-obese diabetic/severe combined immunodeficiency mice 4-6 weeks after transplantation. Overall,our data suggest that UCB-VSELs correspond to the most primitive population of HSPCs in UCB. View Publication

Recent evidence suggests that enhanced aldehyde dehydrogenase (ALDH) activity is a hallmark of cancer stem cells (CSC) measurable by the aldefluor assay. ALDH1A1,one of 19 ALDH isoforms expressed in humans,was generally believed to be responsible for the ALDH activity of CSCs. More recently,experiments with murine hematopoietic stem cells,murine progenitor pancreatic cells,and human breast CSCs indicate that other ALDH isoforms,particularly ALDH1A3,significantly contribute to aldefluor positivity,which may be tissue and cancer specific. Therefore,potential prognostic application involving the use of CSC prevalence in tumor tissue to predict patient outcome requires the identification and quantification of specific ALDH isoforms. Herein we review the suggested roles of ALDH in CSC biology and the immunohistological studies testing the potential application of ALDH isoforms as novel cancer prognostic indicators. View Publication

CREB-binding protein (CREBBP) is important for the cell-autonomous regulation of hematopoiesis,including the stem cell compartment. In the present study,we show that CREBBP plays an equally pivotal role in microenvironment-mediated regulation of hematopoiesis. We found that the BM microenvironment of Crebbp(+/-) mice was unable to properly maintain the immature stem cell and progenitor cell pools. Instead,it stimulates myeloid differentiation,which progresses into a myeloproliferation phenotype. Alterations in the BM microenvironment resulting from haploinsufficiency of Crebbp included a marked decrease in trabecular bone that was predominantly caused by increased osteoclastogenesis. Although CFU-fibroblast (CFU-F) and total osteoblast numbers were decreased,the bone formation rate was similar to that found in wild-type mice. At the molecular level,we found that the known hematopoietic modulators matrix metallopeptidase-9 (MMP9) and kit ligand (KITL) were decreased with heterozygous levels of Crebbp. Lastly,potentially important regulatory proteins,endothelial cell adhesion molecule 1 (ESAM1) and cadherin 5 (CDH5),were increased on Crebbp(+/-) endothelial cells. Our findings reveal that a full dose of Crebbp is essential in the BM microenvironment to maintain proper hematopoiesis and to prevent excessive myeloproliferation. View Publication

Acute myeloid leukemia (AML) is an aggressive malignancy with a relapse rate approaching 50%,despite aggressive chemotherapy. New therapies for AML are targeted at signal transduction pathways known to support blast survival,such as the Stat3 pathway. Aberrant activation of Stat3 has been demonstrated in many different malignancies,including AML,and this finding is frequently associated with more aggressive disease. The objectives of this study were: (1) to characterize Stat3 signaling patterns in AML cells lines and primary pediatric samples; and (2) to test the efficacy and potency of a novel Stat3 inhibitor in inducing apoptosis in AML cells. We found that Stat3 was constitutively activated in 6 of 7 AML cell lines and 6 of 18 primary pediatric AML samples. Moreover,constitutively phosphorylated Stat3 was frequent in samples with normal karyotype but uncommon in samples with t(8;21). Most cell lines and primary samples responded to G-CSF stimulation,although the sensitivity and magnitude of the response varied dramatically. Our novel small-molecule Stat3 inhibitor,C188-9,inhibited G-CSF-induced Stat3 phosphorylation,induced apoptosis in AML cell lines and primary samples,and inhibited AML blast colony formation with potencies in the low micromolar range. Therefore,Stat3 inhibition may be a valuable strategy for targeted therapies for AML. View Publication

4-Hydroxy-5-methoxy-2,3-dihydro-1H-[1,3]benzodioxolo[5,6-c]pyrrolo[1,2-f]-phenanthridium chloride (NK314) is a benzo[c] phenanthridine alkaloid that inhibits topoisomerase IIα,leading to the generation of DNA double-strand breaks (DSBs) and activating the G(2) checkpoint pathway. The purpose of the present studies was to investigate the DNA intercalating properties of NK314,to evaluate the DNA repair mechanisms activated in cells that may lead to resistance to NK314,and to develop mechanism-based combination strategies to maximize the antitumor effect of the compound. A DNA unwinding assay indicated that NK314 intercalates in DNA,a property that likely cooperates with its ability to trap topoisomerase IIα in its cleavage complex form. The consequence of this is the formation of DNA DSBs,as demonstrated by pulsed-field gel electrophoresis and H2AX phosphorylation. Clonogenic assays demonstrated a significant sensitization in NK314-treated cells deficient in DNA-dependent protein kinase (DNA-PK) catalytic subunit,Ku80,ataxia telangiectasia mutated (ATM),BRCA2,or XRCC3 compared with wild-type cells,indicating that both nonhomologous end-joining and homologous recombination DNA repair pathways contribute to cell survival. Furthermore,both the DNA-PK inhibitor 8-(4-dibenzothienyl)-2-(4-morpholinyl)-4H-1-benzopyran-4-one (NU7441) and the ATM inhibitor 2-(4-morpholinyl)-6-(1-thianthrenyl)-4H-pyran-4-one (KU55933) significantly sensitized cells to NK314. We conclude that DNA-PK and ATM contribute to cell survival in response to NK314 and could be potential targets for abrogating resistance and maximizing the antitumor effect of NK314. View Publication