技术资料

The cancer testis antigen (CTA) preferentially expressed antigen of melanoma (PRAME) is overexpressed by many hematologic malignancies,but is absent on normal tissues,including hematopoietic progenitor cells,and may therefore be an appropriate candidate for T cell-mediated immunotherapy. Because it is likely that an effective antitumor response will require high-avidity,PRAME-specific cytotoxic T lymphocytes (CTLs),we attempted to generate such CTLs using professional and artificial antigen-presenting cells loaded with a peptide library spanning the entire PRAME protein and consisting of 125 synthetic pentadecapeptides overlapping by 11 amino acids. We successfully generated polyclonal,PRAME-specific CTL lines and elicited high-avidity CTLs,with a high proportion of cells recognizing a previously uninvestigated HLA-A*02-restricted epitope,P435-9mer (NLTHVLYPV). These PRAME-CTLs could be generated both from normal donors and from subjects with PRAME(+) hematologic malignancies. The cytotoxic activity of our PRAME-specific CTLs was directed not only against leukemic blasts,but also against leukemic progenitor cells as assessed by colony-forming-inhibition assays,which have been implicated in leukemia relapse. These PRAME-directed CTLs did not affect normal hematopoietic progenitors,indicating that this approach may be of value for immunotherapy of PRAME(+) hematologic malignancies. View Publication

PURPOSE: The purpose of this study was to determine whether histone deacetylase (HDAC) inhibitors (HDACI) such as vorinostat or entinostat (SNDX-275) could increase the lethality of the dual Bcr/Abl-Aurora kinase inhibitor KW-2449 in various Bcr/Abl(+) human leukemia cells,including those resistant to imatinib mesylate (IM). EXPERIMENTAL DESIGN: Bcr/Abl(+) chronic myelogenous leukemia (CML) and acute lymphoblastic leukemia (ALL) cells,including those resistant to IM (T315I,E255K),were exposed to KW-2449 in the presence or absence of vorinostat or SNDX-275,after which apoptosis and effects on signaling pathways were examined. In vivo studies combining HDACIs and KW2449 were carried out by using a systemic IM-resistant ALL xenograft model. RESULTS: Coadministration of HDACIs synergistically increased KW-2449 lethality in vitro in multiple CML and Ph(+) ALL cell types including human IM resistant cells (e.g.,BV-173/E255K and Adult/T315I). Combined treatment resulted in inactivation of Bcr/Abl and downstream targets (e.g.,STAT5 and CRKL),as well as increased reactive oxygen species (ROS) generation and DNA damage (γH2A.X). The latter events and cell death were significantly attenuated by free radical scavengers (TBAP). Increased lethality was also observed in primary CD34(+) cells from patients with CML,but not in normal CD34(+) cells. Finally,minimally active vorinostat or SNDX275 doses markedly increased KW2449 antitumor effects and significantly prolonged the survival of murine xenografts bearing IM-resistant ALL cells (BV173/E255K). CONCLUSIONS: HDACIs increase KW-2449 lethality in Bcr/Abl(+) cells in association with inhibition of Bcr/Abl,generation of ROS,and induction of DNA damage. This strategy preferentially targets primary Bcr/Abl(+) hematopoietic cells and exhibits enhanced in vivo activity. Combining KW-2449 with HDACIs warrants attention in IM-resistant Bcr/Abl(+) leukemias. View Publication

Extrinsic signaling cues in the microenvironment of acute myelogenous leukemia (AML) contribute to disease progression and therapy resistance. Yet,it remains unknown how the bone marrow niche in which AML arises is subverted to support leukemic persistence at the expense of homeostatic function. Exosomes are cell membrane-derived vesicles carrying protein and RNA cargoes that have emerged as mediators of cell-cell communication. In this study,we examined the role of exosomes in developing the AML niche of the bone marrow microenvironment,investigating their biogenesis with a focus on RNA trafficking. We found that both primary AML and AML cell lines released exosome-sized vesicles that entered bystander cells. These exosomes were enriched for several coding and noncoding RNAs relevant to AML pathogenesis. Furthermore,their uptake by bone marrow stromal cells altered their secretion of growth factors. Proof-of-concept studies provided additional evidence for the canonical functions of the transferred RNA. Taken together,our findings revealed that AML exosome trafficking alters the proliferative,angiogenic,and migratory responses of cocultured stromal and hematopoietic progenitor cell lines,helping explain how the microenvironmental niche becomes reprogrammed during invasion of the bone marrow by AML. View Publication

Developing novel therapies that suppress self-renewal of leukemia stem cells may reduce the likelihood of relapses and extend long-term survival of patients with acute myelogenous leukemia (AML). AML1-ETO (AE) is an oncogene that plays an important role in inducing self-renewal of hematopoietic stem/progenitor cells (HSPCs),leading to the development of leukemia stem cells. Previously,using a zebrafish model of AE and a whole-organism chemical suppressor screen,we have discovered that AE induces specific hematopoietic phenotypes in embryonic zebrafish through a cyclooxygenase (COX)-2 and β-catenin-dependent pathway. Here,we show that AE also induces expression of the Cox-2 gene and activates β-catenin in mouse bone marrow cells. Inhibition of COX suppresses β-catenin activation and serial replating of AE(+) mouse HSPCs. Genetic knockdown of β-catenin also abrogates the clonogenic growth of AE(+) mouse HSPCs and human leukemia cells. In addition,treatment with nimesulide,a COX-2 selective inhibitor,dramatically suppresses xenograft tumor formation and inhibits in vivo progression of human leukemia cells. In summary,our data indicate an important role of a COX/β-catenin-dependent signaling pathway in tumor initiation,growth,and self-renewal,and in providing the rationale for testing potential benefits from common COX inhibitors as a part of AML treatments. View Publication

Erythropoietin (Epo) is a cytokine that binds and activates an Epo receptor (EpoR) expressed on the surface of erythroid progenitor cells to promote erythropoiesis. While early studies suggested EpoR transcripts were expressed exclusively in the erythroid compartment,low-level EpoR transcripts were detected in nonhematopoietic tissues and tumor cell lines using sensitive RT-PCR methods. However due to the widespread use of nonspecific anti-EpoR antibodies there are conflicting data on EpoR protein expression. In tumor cell lines and normal human tissues examined with a specific and sensitive monoclonal antibody to human EpoR (A82),little/no EpoR protein was detected and it was not functional. In contrast,EpoR protein was reportedly detectable in a breast tumor cell line (MCF-7) and breast cancer tissues with an anti-EpoR polyclonal antibody (M-20),and functional responses to rHuEpo were reported with MCF-7 cells. In another study,a functional response was reported with the lung tumor cell line (NCI-H838) at physiological levels of rHuEpo. However,the specificity of M-20 is in question and the absence of appropriate negative controls raise questions about possible false-positive effects. Here we show that with A82,no EpoR protein was detectable in normal human and matching cancer tissues from breast,lung,colon,ovary and skin with little/no EpoR in MCF-7 and most other breast and lung tumor cell lines. We show further that M-20 provides false positive staining with tissues and it binds to a non-EpoR protein that migrates at the same size as EpoR with MCF-7 lysates. EpoR protein was detectable with NCI-H838 cells,but no rHuEpo-induced phosphorylation of AKT,STAT3,pS6RP or STAT5 was observed suggesting the EpoR was not functional. Taken together these results raise questions about the hypothesis that most tumors express high levels of functional EpoR protein. View Publication

Without effective therapy,chronic-phase chronic myeloid leukemia (CP-CML) evolves into an acute leukemia (blast crisis [BC]) that displays either myeloid or B-lymphoid characteristics. This transition is often preceded by a clinically recognized,but biologically poorly characterized,accelerated phase (AP). Here,we report that IKAROS protein is absent or reduced in bone marrow blasts from most CML patients with advanced myeloid disease (AP or BC). This contrasts with primitive CP-CML cells and BCR-ABL1-negative acute myeloid leukemia blasts,which express readily detectable IKAROS. To investigate whether loss of IKAROS contributes to myeloid disease progression in CP-CML,we examined the effects of forced expression of a dominant-negative isoform of IKAROS (IK6) in CP-CML patients' CD34(+) cells. We confirmed that IK6 disrupts IKAROS activity in transduced CP-CML cells and showed that it confers on them features of AP-CML,including a prolonged increased output in vitro and in xenografted mice of primitive cells with an enhanced ability to differentiate into basophils. Expression of IK6 in CD34(+) CP-CML cells also led to activation of signal transducer and activator of transcription 5 and transcriptional repression of its negative regulators. These findings implicate loss of IKAROS as a frequent step and potential diagnostic harbinger of progressive myeloid disease in CML patients. View Publication