技术资料

Multiple myeloma is a highly radiosensitive skeletal malignancy,but bone-seeking radionuclides have not yet found their place in disease management. We previously reported that the proteasome inhibitor PS-341 selectively sensitizes myeloma cells to the lethal effects of ionizing radiation. To extend these observations to an in vivo model,we combined PS-341 with the bone-seeking radionuclide 153-Sm-EDTMP. In vitro clonogenic assays demonstrated synergistic killing of myeloma cells exposed to both PS-341 and 153-Sm-EDTMP. Using the orthotopic,syngeneic 5TGM1 myeloma model,the median survivals of mice treated with saline,2 doses of PS-341 (0.5 mg/kg),or a single nonmyeloablative dose of 153-Sm-EDTMP (22.5 MBq) were 21,22,and 28 days,respectively. In contrast,mice treated with combination therapy comprising 2 doses of PS-341 (0.5 mg/kg),1 day prior to and 1 day following 153-Sm-EDTMP (22.5 MBq) showed a significantly prolonged median survival of 49 days (P textless .001). In addition to prolonged survival,this treatment combination yielded reduced clonogenicity of bone marrow-resident 5TGM1 cells,reduced serum myeloma-associated paraprotein levels,and better preservation of bone mineral density. Myelosuppression,determined by peripheral blood cell counts and clonogenicity assays of hematopoietic progenitors,did not differ between animals treated with 153-Sm-EDTMP alone versus those treated with the combination of PS-341 plus 153-Sm-EDTMP. PS-341 is a potent,selective in vivo radiosensitizer that may substantially affect the efficacy of skeletal-targeted radiotherapy in multiple myeloma. View Publication

It has been shown that Notch signaling mediated by ligands of both Jagged and Delta families expands the hematopoietic stem cell compartment while blocking or delaying terminal myeloid differentiation. Here we show that Delta1- and Jagged1-expressing stromal cells have distinct effects on the clonogenic and differentiation capacities of human CD34(+) CD38(+) cells. Jagged1 increases the number of bipotent colony-forming unit-granulocyte macrophage (CFU-GM) and unipotent progenitors (CFU-granulocytes and CFU-macrophages),without quantitatively affecting terminal cell differentiation,whereas Delta1 reduces the number of CFU-GM and differentiated monocytic cells. Expression analysis of genes coding for Notch receptors,Notch targets,and Notch signaling modulators in supernatant CD34(+) cells arising upon contact with Jagged1 and Delta1 shows dynamic and differential gene expression profiles over time. At early time points,modest upregulation of Notch1,Notch3,and Hes1 was observed in Jagged1-CD34(+) cells,whereas those in contact with Delta1 strikingly upregulated Notch3 and Hes1. Later,myeloid progenitors with strong clonogenic potential emerging upon contact with Jagged1 upregulated Notch1 and Deltex and downregulated Notch signaling modulators,whereas T/NK progenitors originated by Delta1 strikingly upregulated Notch3 and Deltex and,to a lesser extent,Hes1,Lunatic Fringe,and Numb. Together,the data unravel previously unrecognized expression patterns of Notch signaling-related genes in CD34(+) CD38(+) cells as they develop in Jagged1- or Delta1-stromal cell environments,which appear to reflect sequential maturational stages of CD34(+) cells into distinct cell lineages. View Publication

Oligonucleotides with a CpG" motif trigger a proinflammatory response through activation of Toll-like receptor 9 (TLR9) and are being studied to exploit these properties for use as adjuvants and cancer therapies. However� View Publication

Overwhelming evidence from leukemia research has shown that the clonal population of neoplastic cells exhibits marked heterogeneity with respect to proliferation and differentiation. There are rare stem cells within the leukemic population that possess extensive proliferation and self-renewal capacity not found in the majority of the leukemic cells. These leukemic stem cells are necessary and sufficient to maintain the leukemia. Interestingly,the BCR/ABL fusion gene,which is present in chronic myelogenous leukemia (CML),was also detected in the endothelial cells of patients with CML,suggesting that CML might originate from hemangioblastic progenitor cells that can give rise to both blood cells and endothelial cells. Here we isolated fetal liver kinase-1-positive (Flk1+) cells carrying the BCR/ABL fusion gene from the bone marrow of 17 Philadelphia chromosome-positive (Ph+) patients with CML and found that these cells could differentiate into malignant blood cells and phenotypically defined endothelial cells at the single-cell level. These findings provide direct evidence for the first time that rearrangement of the BCR/ABL gene might happen at or even before the level of hemangioblastic progenitor cells,thus resulting in detection of the BCR/ABL fusion gene in both blood and endothelial cells. View Publication

Because of the wide use of pesticides for domestic and industrial purposes,the evaluation of their potential effects is of major concern for public health. The myelotoxicity of the herbicide propanil (3,4-dichloroproprioanilide) and its metabolite 3,4-dichloroaniline (DCA) is well documented in mice,but evidence that pesticides may severely compromise hematopoiesis in humans is lacking. In this study,an interspecies comparison of in vitro toxicity of these two compounds on murine and human burst- and colony-forming unit-erythrocyte (BFU-E,CFU-E) and colony-forming unit-granulocyte/macrophage (CFU-GM) progenitors,has been carried out. Murine bone marrow progenitors and human cord blood cells were exposed to propanil or DCA in doses ranging from 10 micro M to 1000 micro M,and the toxic effect was detected by a clonogenic assay with continuous exposure to the compounds. The results on murine cells indicate that the erythrocytic lineage is the most sensitive target for propanil and DCA. On the other hand,human progenitors seem to be less sensitive to the toxic effects of both compounds than murine progenitors at the same concentrations (IC(50) values are 305.2 +/- 22.6 micro M [total erythroid colonies] and textgreater500 micro M [CFU-GM] for propanil). Propanil was significantly more toxic to human erythroid progenitors than to human CFU-GM progenitors,as was found for the murine cells,emphasizing the role of the heme pathway as the target for propanil. These data confirm the evidence that the compounds investigated interfere with erythroid colony formation at different stages of the differentiation pathway and have different effects according to the dose. View Publication

Neonatal hyperoxia impairs vascular and alveolar growth in mice and decreases endothelial progenitor cells. To determine the role of bone marrow-derived cells in restoration of neonatal lung structure after injury,we studied a novel bone marrow myeloid progenitor cell population from Tie2-green fluorescent protein (GFP) transgenic mice (bone marrow-derived angiogenic cells; BMDAC). We hypothesized that treatment with BMDAC would restore normal lung structure in infant mice during recovery from neonatal hyperoxia. Neonatal mice (1-day-old) were exposed to 80% oxygen for 10 days. BMDACs (1 x 10(5)),embryonic endothelial progenitor cells,mouse embryonic fibroblasts (control),or saline were then injected into the pulmonary circulation. At 21 days of age,saline-treated mice had enlarged alveoli,reduced septation,and a reduction in vascular density. In contrast,mice treated with BMDAC had complete restoration of lung structure that was indistinguishable from room air controls. BMDAC comprised 12% of distal lung cells localized to pulmonary vessels or alveolar type II (AT2) cells and persist (8.8%) for 8 wk postinjection. Coculture of AT2 cells or lung endothelial cells (luEC) with BMDAC augmented AT2 and luEC cell growth in vitro. We conclude that treatment with BMDAC after neonatal hyperoxia restores lung structure in this model of bronchopulmonary dysplasia. View Publication

Adhesion properties of hematopoietic stem cells (HSCs) in the bone marrow (BM) niches control their migration and affect their cell-cycle dynamics. The serum response factor (Srf) regulates growth factor-inducible genes and genes controlling cytoskeleton structures involved in cell spreading,adhesion,and migration. We identified a role for Srf in HSC adhesion and steady-state hematopoiesis. Conditional deletion of Srf in BM cells resulted in a 3-fold expansion of the long- and short-term HSCs and multipotent progenitors (MPPs),which occurs without long-term modification of cell-cycle dynamics. Early differentiation steps to myeloid and lymphoid lineages were normal,but Srf loss results in alterations in mature-cell production and severe thrombocytopenia. Srf-null BM cells also displayed compromised engraftment properties in transplantation assays. Gene expression analysis identified Srf target genes expressed in HSCs,including a network of genes associated with cell migration and adhesion. Srf-null stem cells and MPPs displayed impair expression of the integrin network and decreased adherence in vitro. In addition,Srf-null mice showed increase numbers of circulating stem and progenitor cells,which likely reflect their reduced retention in the BM. Altogether,our results demonstrate that Srf is an essential regulator of stem cells and MPP adhesion,and suggest that Srf acts mainly through cell-matrix interactions and integrin signaling. View Publication

The 8p11 myeloproliferative syndrome (EMS),also referred to as stem cell leukemia/lymphoma,is a chronic myeloproliferative disorder that rapidly progresses into acute leukemia. Molecularly,EMS is characterized by fusion of various partner genes to the FGFR1 gene,resulting in constitutive activation of the tyrosine kinases in FGFR1. To date,no previous study has addressed the functional consequences of ectopic FGFR1 expression in the potentially most relevant cellular context,that of normal primary human hematopoietic cells. Herein,we report that expression of ZMYM2/FGFR1 (previously known as ZNF198/FGFR1) or BCR/FGFR1 in normal human CD34(+) cells from umbilical-cord blood leads to increased cellular proliferation and differentiation toward the erythroid lineage in vitro. In immunodeficient mice,expression of ZMYM2/FGFR1 or BCR/FGFR1 in human cells induces several features of human EMS,including expansion of several myeloid cell lineages and accumulation of blasts in bone marrow. Moreover,bone marrow fibrosis together with increased extramedullary hematopoiesis is observed. This study suggests that FGFR1 fusion oncogenes,by themselves,are capable of initiating an EMS-like disorder,and provides the first humanized model of a myeloproliferative disorder transforming into acute leukemia in mice. The established in vivo EMS model should provide a valuable tool for future studies of this disorder. View Publication

Statin inhibitors,used to control hypercholesterolemia,trigger apoptosis of hematologic tumor cells and therefore have immediate potential as anticancer agents. Evaluations of statins in acute myelogenous leukemia and multiple myeloma have shown that statin efficacy is mixed,with only a subset of tumor cells being highly responsive. Our goal was to distinguish molecular features of statin-sensitive and -insensitive myeloma cells and gain insight into potential predictive markers. We show that dysregulation of the mevalonate pathway is a key determinant of sensitivity to statin-induced apoptosis in multiple myeloma. In sensitive cells,the classic feedback response to statin exposure is lost. This results in deficient up-regulation of 2 isoforms of hydroxymethylglutaryl coenzyme A reductase: the rate-limiting enzyme of the mevalonate pathway and hydroxymethylglutaryl coenzyme A synthase 1. To ascertain the clinical utility of these findings,we demonstrate that a subset of primary myeloma cells is sensitive to statins and that monitoring dysregulation of the mevalonate pathway may distinguish these cancers. We also show statins are highly effective and well tolerated in an orthotopic model of myeloma using cells harboring this dysregulation. This determinant of sensitivity further provides molecular rationale for the significant therapeutic index of statins on these tumor cells. View Publication

Recent data indicate that a variety of regulatory molecules active in embryonic development may also play a role in the regulation of early hematopoiesis. Here we report that the human Vent-like homeobox gene VENTX,a putative homolog of the Xenopus xvent2 gene,is a unique regulatory hematopoietic gene that is aberrantly expressed in CD34(+) leukemic stem-cell candidates in human acute myeloid leukemia (AML). Quantitative RT-PCR documented expression of the gene in lineage positive hematopoietic subpopulations,with the highest expression in CD33(+) myeloid cells. Notably,expression levels of VENTX were negligible in normal CD34(+)/CD38(-) or CD34(+) human progenitor cells. In contrast to this,leukemic CD34(+)/CD38(-) cells from AML patients with translocation t(8,21) and normal karyotype displayed aberrantly high expression of VENTX. Gene expression and pathway analysis demonstrated that in normal CD34(+) cells enforced expression of VENTX initiates genes associated with myeloid development and down-regulates genes involved in early lymphoid development. Functional analyses confirmed that aberrant expression of VENTX in normal CD34(+) human progenitor cells perturbs normal hematopoietic development,promoting generation of myeloid cells and impairing generation of lymphoid cells in vitro and in vivo. Stable knockdown of VENTX expression inhibited the proliferation of human AML cell lines. Taken together,these data extend our insights into the function of embryonic mesodermal factors in human postnatal hematopoiesis and indicate a role for VENTX in normal and malignant myelopoiesis. View Publication

Earlier reports have suggested that the BCR/ABL oncogene,associated with chronic myeloid leukemia,induces a mutator phenotype; however,it is unclear whether this leads to long-term changes in chromosomes and whether the phenotype is found in primary chronic myelogeneous leukemia (CML) cells. We have addressed both these issues. BCR/ABL-expressing cell lines show an increase in DNA breaks after treatment with etoposide as compared to control cells. However,although BCR/ABL-expressing cell lines have an equivalent cell survival,they have an increase in chromosomal translocations after DNA repair as compared to control cells. This demonstrates that BCR/ABL expression decreases the fidelity of DNA repair. To see whether this is true in primary CML samples,normal CD34+ progenitor cells and CML progenitor cells were treated with etoposide. CML progenitor cells have equivalent survival but have an increase in DNA double-strand breaks (DSBs). Spectral karyotyping demonstrates new chromosomal translocations in CML cells,but not normal progenitor cells,consistent with error-prone DNA repair. Taken together,these data demonstrate that BCR/ABL enhances the accumulation of DSBs and alters the apoptotic threshold in CML leading to error-prone DNA repair. View Publication

An attractive target for therapeutic intervention is constitutively activated,mutant FLT3,which is expressed in a subpopulation of patients with acute myelocyic leukemia (AML) and is generally a poor prognostic indicator in patients under the age of 65 years. PKC412 is one of several mutant FLT3 inhibitors that is undergoing clinical testing,and which is currently in late-stage clinical trials. However,the discovery of drug-resistant leukemic blast cells in PKC412-treated patients with AML has prompted the search for novel,structurally diverse FLT3 inhibitors that could be alternatively used to override drug resistance. Here,we report the potent and selective antiproliferative effects of the novel mutant FLT3 inhibitor NVP-AST487 on primary patient cells and cell lines expressing FLT3-ITD or FLT3 kinase domain point mutants. NVP-AST487,which selectively targets mutant FLT3 protein kinase activity,is also shown to override PKC412 resistance in vitro,and has significant antileukemic activity in an in vivo model of FLT3-ITD(+) leukemia. Finally,the combination of NVP-AST487 with standard chemotherapeutic agents leads to enhanced inhibition of proliferation of mutant FLT3-expressing cells. Thus,we present a novel class of FLT3 inhibitors that displays high selectivity and potency toward FLT3 as a molecular target,and which could potentially be used to override drug resistance in AML. View Publication