技术资料

Here we report the discovery of ON044580,an α-benzoyl styryl benzyl sulfide that possesses potent inhibitory activity against two unrelated kinases,JAK2 and BCR-ABL,and exhibits cytotoxicity to human tumor cells derived from chronic myelogenous leukemia (CML) and myelodysplasia (MDS) patients or cells harboring a mutant JAK2 kinase. This novel spectrum of activity is explained by the non-ATP-competitive inhibition of JAK2 and BCR-ABL kinases. ON044580 inhibits mutant JAK2 kinase and the proliferation of JAK2(V617F)-positive leukemic cells and blocks the IL-3-mediated phosphorylation of JAK2 and STAT5. Interestingly,this compound also directly inhibits the kinase activity of both wild-type and imatinib-resistant (T315I) forms of the BCR-ABL kinase. Finally,ON044580 effectively induces apoptosis of imatinib-resistant CML patient cells. The apparently unrelated JAK2 and BCR-ABL kinases share a common substrate,STAT5,and such substrate competitive inhibitors represent an alternative therapeutic strategy for development of new inhibitors. The novel mechanism of kinase inhibition exhibited by ON044580 renders it effective against mutant forms of kinases such as the BCR-ABL(T315I) and JAK2(V617F). Importantly,ON044580 selectively reduces the number of aneuploid cells in primary bone marrow samples from monosomy 7 MDS patients,suggesting another regulatory cascade amenable to this agent in these aberrant cells. Data presented suggest that this compound could have multiple therapeutic applications including monosomy 7 MDS,imatinib-resistant CML,and myeloproliferative neoplasms that develop resistance to ATP-competitive agents. View Publication

The chicken anemia virus-derived protein apoptin induces apoptosis in a variety of human malignant and transformed cells but not in normal cells. However,the mechanisms through which apoptin achieves its selective killing effects are not well understood. We developed a lentiviral vector encoding a green fluorescent protein-apoptin fusion gene (LV-GFP-AP) that can efficiently deliver apoptin into hematopoietic cells. Apoptin selectively killed the human multiple myeloma cell lines MM1.R and MM1.S,and the leukemia cell lines K562,HL60,U937,KG1,and NB4. In contrast,normal CD34(+) cells were not killed and maintained their differentiation potential in multilineage colony formation assays. In addition,dexamethasone-resistant MM1.R cells were found to be more susceptible to apoptin-induced cell death than the parental matched MM1.S cells. Death susceptibility correlated with increased phosphorylation and activation of the apoptin protein in MM1.R cells. Expression array profiling identified differential kinase profiles between MM1.R and MM1.S cells. Among these kinases,protein kinase Cβ (PKCβ) was found by immunoprecipitation and in vitro kinase studies to be a candidate kinase responsible for apoptin phosphorylation. Indeed,shRNA knockdown or drug-mediated inhibition of PKCβ significantly reduced apoptin phosphorylation. Furthermore,apoptin-mediated cell death proceeded through the upregulation of PKCβ,activation of caspase-9/3,cleavage of the PKCδ catalytic domain,and downregulation of the MERTK and AKT kinases. Collectively,these results elucidate a novel pathway for apoptin activation involving PKCβ and PKCδ. Further,they highlight the potential of apoptin and its cellular regulators to purge bone marrow used in autologous transplantation for multiple myeloma. View Publication

Progressive bone marrow failure is a major cause of morbidity and mortality in human Fanconi Anemia patients. In an effort to develop a Fanconi Anemia murine model to study bone marrow failure,we found that Fancd2(-/-) mice have readily measurable hematopoietic defects. Fancd2 deficiency was associated with a significant decline in the size of the c-Kit(+)Sca-1(+)Lineage(-) (KSL) pool and reduced stem cell repopulation and spleen colony-forming capacity. Fancd2(-/-) KSL cells showed an abnormal cell cycle status and loss of quiescence. In addition,the supportive function of the marrow microenvironment was compromised in Fancd2(-/-) mice. Treatment with Sirt1-mimetic and the antioxidant drug,resveratrol,maintained Fancd2(-/-) KSL cells in quiescence,improved the marrow microenvironment,partially corrected the abnormal cell cycle status,and significantly improved the spleen colony-forming capacity of Fancd2(-/-) bone marrow cells. We conclude that Fancd2(-/-) mice have readily quantifiable hematopoietic defects,and that this model is well suited for pharmacologic screening studies. View Publication

CCAAT/enhancer binding proteins (C/EBPs) are a family of factors that regulate cell growth and differentiation. These factors,particularly C/EBPalpha and C/EBPepsilon,have important roles in normal myelopoiesis. In addition,loss of C/EBP activity appears to have a role in the pathogenesis of myeloid disorders including acute myeloid leukemia (AML). Acute promyelocytic leukemia (APL) is a subtype of AML in which a role for C/EBPs has been postulated. In almost all cases of APL,a promyelocytic leukemia-retinoic acid receptor alpha (PML-RARalpha) fusion protein is expressed as a result of a t(15;17)(q22;q12) chromosomal translocation. PML-RARalpha inhibits expression of C/EBPepsilon,whereas all-trans retinoic acid (tRA),a differentiating agent to which APL is particularly susceptible,induces C/EBPepsilon expression. PML-RARalpha may also inhibit C/EBPalpha activity. Thus,the effects of PML-RARalpha on C/EBPs may contribute to both the development of leukemia and the unique sensitivity of APL to tRA. We tested the hypothesis that increasing the activity of C/EBPs would revert the leukemic phenotype. C/EBPalpha and C/EBPepsilon were introduced into the FDC-P1 myeloid cell line and into leukemic cells from PML-RARA transgenic mice. C/EBP factors suppressed growth and induced partial differentiation in vitro. In vivo,enhanced expression of C/EBPs prolonged survival. By using a tamoxifen-responsive version of C/EBPepsilon,we observed that C/EBPepsilon could mimic the effect of tRA,driving neutrophilic differentiation in leukemic animals. Our results support the hypothesis that induction of C/EBP activity is a critical effect of tRA in APL. Furthermore,our findings suggest that targeted modulation of C/EBP activities could provide a new approach to therapy of AML. View Publication

The development of immunodeficient mouse xenograft models has greatly facilitated the investigation of some human hematopoietic malignancies,but application of this approach to the myelodysplastic syndromes (MDSs) has proven difficult. We now show that cells from most MDS patients (including all subtypes) repopulate nonobese diabetic-severe combined immunodeficient (scid)/scid-beta2 microglobulin null (NOD/SCID-beta2m(-/-)) mice at least transiently and produce abnormal differentiation patterns in this model. Normal marrow transplants initially produce predominantly erythroid cells and later predominantly B-lymphoid cells in these mice,whereas most MDS samples produced predominantly granulopoietic cells. In 4 of 4 MDS cases,the regenerated cells showed the same clonal markers (trisomy 8,n = 3; and 5q-,n = 1) as the original sample and,in one instance,regenerated trisomy 8(+) B-lymphoid as well as myeloid cells were identified. Interestingly,the enhanced growth of normal marrow obtained in NOD/SCID-beta2m(-/-) mice engineered to produce human interleukin-3,granulocyte-macrophage colony-stimulating factor,and Steel factor was seen only with 1 of 7 MDS samples. These findings support the concept that human MDS originates in a transplantable multilineage hematopoietic stem cell whose genetic alteration may affect patterns of differentiation and responsiveness to hematopoietic growth factors. They also demonstrate the potential of this new murine xenotransplant model for future investigations of MDS. View Publication

We have generated mice null for IFN-beta and report the diverse consequences of IFN-beta for both the innate and adaptive arms of immunity. Despite no abnormalities in the proportional balance of CD4 and CD8 T cell populations in the peripheral blood,thymus,and spleen of IFN-beta-/- mice,activated lymph node and splenic T lymphocytes exhibit enhanced T cell proliferation and decreased tumor necrosis factor alpha production,relative to IFN-beta+/+ mice. Notably,constitutive and induced expression of tumor necrosis factor alpha is reduced in the spleen and bone marrow (BM) macrophages,respectively,of IFN-beta-/- mice. We also observe an altered splenic architecture in IFN-beta-/- mice and a reduction in resident macrophages. We identify a potential defect in B cell maturation in IFN-beta-/- mice,associated with a decrease in B220+ve/high/CD43-ve BM-derived cells and a reduction in BP-1,IgM,and CD23 expression. Circulating IgM-,Mac-1-,and Gr-1-positive cells are also substantially decreased in IFN-beta-/- mice. The decrease in the numbers of circulating macrophages and granulocytes likely reflects defective maturation of primitive BM hematopoiesis in mice,shown by the reduction of colony-forming units,granulocyte-macrophage. We proceeded to evaluate the in vivo growth of malignant cells in the IFN-beta-/- background and give evidence that Lewis lung carcinoma-specific tumor growth is more aggressive in IFN-beta-/- mice. Taken altogether,our data suggest that,in addition to the direct growth-inhibitory effects on tumor cells,IFN-beta is required during different stages of maturation in the development of the immune system. View Publication

BACKGROUND: 1,25-Dihydroxyvitamin D(3) inhibits growth of several types of human cancer cells in vitro,but its therapeutic use is hampered because it causes hypercalcemia. 19-nor-1,25-Dihydroxyvitamin D(2) (paricalcitol) is a noncalcemic vitamin D analog that is approved by the Food and Drug Administration for the treatment of secondary hyperparathyroidism. We investigated the antitumor activity and mechanism of action of paricalcitol in vitro and in vivo. METHODS: Effects of paricalcitol on proliferation,the cell cycle,differentiation,and apoptosis were examined in cancer cell lines. Effects on tumor growth were examined with colon cancer cell xenografts in nude mice (five in the experimental group and five in the control group). The interaction of paricalcitol with the vitamin D receptor (VDR) in mononuclear spleen cells and myeloid stem cells from wild-type and VDR knockout mice was examined. All statistical tests were two-sided. RESULTS: Paricalcitol inhibited the proliferation of myeloid leukemia cell lines HL-60,NB-4,and THP-1 cells at an effective dose that inhibited growth 50% (ED(50)) of 2.4-5.8 x 10(-9) M by inducing cell cycle arrest and differentiation. Paricalcitol inhibited the proliferation of NCI-H929 myeloma cells at an ED(50) of 2.0 x 10(-10) M by inducing cell cycle arrest and apoptosis. Paricalcitol also inhibited the proliferation of colon cancer cell lines HT-29 (ED(50) = 1.7 x 10(-8) M) and SW837 (ED(50) = 3.2 x 10(-8) M). HT-29 colon cancer xenografts in paricalcitol-treated nude mice were smaller (1044 mm(3) and 1752 mm(3),difference = 708 mm(3),95% confidence interval = 311 to 1104 mm(3); P =.03) and weighed less (1487 mg and 4162 mg,difference = 2675 mg,95% confidence interval = 2103 to 3248 mg; Ptextless.001) than those in vehicle-treated mice. Paricalcitol induced committed myeloid hematopoietic stem cells from wild-type but not from VDR knockout mice to differentiate as macrophages. CONCLUSION: Paricalcitol has anticancer activity against myeloid leukemia,myeloma,and colon cancer cells that may be mediated through the VDR. Because it has been approved by the Food and Drug Administration,clinical trials of this agent in certain cancers are reasonable. View Publication

Essential thrombocythemia (ET) and polycythemia vera (PV) are clonal myeloproliferative disorders that are often difficult to distinguish from other causes of elevated blood cell counts. Assays that could reliably detect clonal hematopoiesis would therefore be extremely valuable for diagnosis. We previously reported 3 X-chromosome transcription-based clonality assays (TCAs) involving the G6PD,IDS,and MPP1 genes,which together were informative in about 65% of female subjects. To increase our ability to detect clonality,we developed simple TCA for detecting the transcripts of 2 additional X-chromosome genes: Bruton tyrosine kinase (BTK) and 4-and-a-half LIM domain 1 (FHL1). The combination of TCA established the presence or absence of clonal hematopoiesis in about 90% of female subjects. We show that both genes are subject to X-chromosome inactivation and are polymorphic in all major US ethnic groups. The 5 TCAs were used to examine clonality in 46 female patients along with assays for erythropoietin-independent erythroid colonies (EECs) and granulocyte PRV-1 mRNA levels to discriminate polycythemias and thrombocytoses. Of these,all 19 patients with familial polycythemia or thrombocytosis had polyclonal hematopoiesis,whereas 22 of 26 patients with clinical evidence of myeloproliferative disorder and 1 patient with clinically obscure polycythemia were clonal. Interestingly,interferon alpha therapy in 2 patients with PV was associated with reversion of clonal to polyclonal hematopoiesis. EECs were observed in 14 of 14 patients with PV and 4 of 12 with ET,and increased granulocyte PRV-1 mRNA levels were found in 9 of 13 patients with PV and 2 of 12 with ET. Thus,these novel clonality assays are useful in the diagnosis and follow-up of polycythemic conditions and disorders with increased platelet levels. View Publication

Despite many years of intensive effort,there is surprisingly little consensus on the most suitable markers with which to locate and isolate stem cells from adult tissues. By comparison,the study of cancer stem cells is still in its infancy; so,unsurprisingly,there is great uncertainty as to the identity of these cells. Stem cell markers can be broadly categorized into molecular determinants of self-renewal,clonogenicity,multipotentiality,adherence to the niche,and longevity. This review assesses the utility of recognizing cancer stem cells by virtue of high expression of aldehyde dehydrogenases (ALDHs),probably significant determinants of cell survival through their ability to detoxify many potentially cytotoxic molecules,and contributing to drug resistance. Antibodies are available against the ALDH enzyme family,but the vast majority of studies have used cell sorting techniques to enrich for cells expressing these enzymes. Live cells expressing high ALDH activity are usually identified by the ALDEFLUOR kit and sorted by fluorescence activated cell sorting (FACS). For many human tumours,but notably breast cancer,cell selection based upon ALDH activity appears to be a useful marker for enriching for cells with tumour-initiating activity (presumed cancer stem cells) in immunodeficient mice,and indeed the frequency of so-called ALDH(bri) cells in many tumours can be an independent prognostic indicator. View Publication

The Y-box binding protein-1 (YB-1) is an oncogenic transcription/translation factor that is activated by phosphorylation at S102 whereby it induces the expression of growth promoting genes such as EGFR and HER-2. We recently illustrated by an in vitro kinase assay that a novel peptide to YB-1 was highly phosphorylated by the serine/threonine p90 S6 kinases RSK-1 and RSK-2,and to a lesser degree PKCα and AKT. Herein,we sought to develop this decoy cell permeable peptide (CPP) as a cancer therapeutic. This 9-mer was designed as an interference peptide that would prevent endogenous YB-1(S102) phosphorylation based on molecular docking. In cancer cells,the CPP blocked P-YB-1(S102) and down-regulated both HER-2 and EGFR transcript level and protein expression. Further,the CPP prevented YB-1 from binding to the EGFR promoter in a gel shift assay. Notably,the growth of breast (SUM149,MDA-MB-453,AU565) and prostate (PC3,LNCap) cancer cells was inhibited by ∼90% with the CPP. Further,treatment with this peptide enhanced sensitivity and overcame resistance to trastuzumab in cells expressing amplified HER-2. By contrast,the CPP had no inhibitory effect on the growth of normal immortalized breast epithelial (184htert) cells,primary breast epithelial cells,nor did it inhibit differentiation of hematopoietic progenitors. These data collectively suggest that the CPP is a novel approach to suppressing the growth of cancer cells while sparing normal cells and thereby establishes a proof-of-concept that blocking YB-1 activation is a new course of cancer therapeutics. View Publication

Mesenchymal stem cells (MSCs) are highly useful in a variety of cell therapies owing to their multipotential differentiation capability. MSCs derived from umbilical cord blood are generally isolated by their plastic adherence without using specific cell surface markers and examined for their osteogenic,adipogenic,and chondrogenic differentiation properties retrospectively. Here,we report 2 subpopulations of MSCs,separated based on aldehyde dehydrogenase (ALDH) activity. MSCs with a high ALDH activity (Alde-High) proliferated more than those with a low ALDH activity (Alde-Low). Alde-High MSCs had a greater ability to differentiate than Alde-Low MSCs in in vitro culture. Transplantation of Alde-High MSCs into fractured mouse femurs enabled early repair of tissues and rapid bone substitution. Alde-High MSCs were also more responsive to hypoxia than Alde-Low MSCs,with the upregulation of Flt-1,CXCR4,and Angiopoietin-2. Thus,MSCs with a high ALDH activity might serve as an effective therapeutic tool for healing fractures within a short period of time. View Publication

The classification of breast cancer into multiple molecular subtypes has necessitated the need for biomarkers that can assess tumor progression and the effects of chemopreventive agents on specific breast cancer subtypes. The goal of this study was to identify biomarkers whose expression are altered along with estrogen receptor α (ERα) in the polyoma middle-T antigen (PyMT) transgenic model of breast cancer and to investigate the chemopreventive activity of phenethyl isothiocyanate (PEITC). The diet of PyMT female mice was fortified with PEITC (8 mmol/kg) and the mammary streak and/or gross tumors and metastases in lungs were subjected to immunohistochemical analyses for ERα,FOXA1,and GATA-3. FOXA1 is associated with luminal type A cancers,while GATA-3 is a marker of luminal progenitor cell differentiation. In both control and PEITC-treated groups,there was a progressive loss of ERα and FOXA1 but persistence of GATA-3 expression indicating that the tumors retain luminal phenotype. Overall,the PyMT induced tumors exhibited the entire gamut of phenotypes from ERα+/FOXA1+/GATA-3+ tumors in the early stage to ERα±/FOXA1-/GATA-3+ in the late stage. Thus,PyMT model serves as an excellent model for studying progression of luminal subtype tumors. PEITC treated animals had multiple small tumors,indicating delay in tumor progression. Although these tumors were histologically similar to those in controls,there was a lower expression of these biomarkers in normal luminal cells indicating delay in tumor initiation. In in vitro studies,PEITC depleted AldeFluor-positive putative stem/progenitor cells,which may partly be responsible for the delay in tumor initiation. View Publication