1.Establishment and application of a murine transplant model of bone marrow purging of metastatic breast cancer cells in vitro.
Zhen-Ping HU ; Wen-Li LIU ; Berger STUART ; Yi-Cheng ZHANG
Chinese Journal of Hematology 2007;28(9):621-623
OBJECTIVETo establish a murine transplant model for bone marrow purging of metastatic breast cancer and to explore the efficiency of Econazole (Ec) as a purging agent.
METHODSMixtures of TSA /Neo breast cancer cells and murine bone marrow cells were transplanted into lethally irradiated mice following purging with Econazole or saline in vitro. The recipient mice were monitored for hematopoietic engraftment, appearance of metastatic nodules in lungs and the overall survival.
RESULTSAll the mice receiving i.v. injection of TSA cells developed metastatic lung nodules. The hematological recovery was not delayed in mice transplanted with Ec purged bone marrow. More importantly, metastatic lung nodules were not seen in Ec treated group and the overall survival was improved.
CONCLUSIONThe purged metastatic breast cancer cell bone marrow transplant model was easily established and reproducible. Ec could be used to purge the bone marrow grafts contaminated with breast cancer cells.
Animals ; Antineoplastic Agents ; pharmacology ; Bone Marrow Purging ; Bone Marrow Transplantation ; Cell Line ; Econazole ; pharmacology ; Female ; Mammary Neoplasms, Experimental ; pathology ; Mice ; Mice, Inbred BALB C
2.FasL-cDNA transfected into mouse bone marrow cells ex vivo to prevent graft versus host disease.
Zhi-Liang XU ; Ping ZOU ; Ling-Bo LIU ; Ai-Xiang LI ; Yan-Ping MA
Journal of Experimental Hematology 2003;11(5):512-515
To explore the new approach to prevent graft versus host disease (GVHD) by purging ex vivo T lymphocytes of bone marrow graft through Fas-FasL way, FasL-cDNA was transfected into BALB/c mouse bon e marrow cells by liposome ex vivo. The transfected cells were cultured together with BAC (BALB/c x C57BL/6) mouse bone marrow graft. The mixing bone marrow graft was infused into BALB/c mouse recipients after 60Co-gamma irradiation. The mortality, manifestation and pathologic change of GVHD in recipient mice were observed. The CFU-S and Y chromosome from donor mice were detected. The results showed that compared with control group, the mortality in 60 days of the recipients in the experimental group decreased (20% vs 70%, P < 0.01) and the morbidity of GVHD lowered (40% vs 100%, P < 0.01). The CFU-S counts for all groups were at normal level on 20 days after transplantation. The Y chromosome from donor mice was discovered in 70% bone marrow nucleated cells of recipient mice survived over 2 months in the experimental group. It is concluded that mFasL-cDNA transfected mouse bone marrow cells prevent GVHD after culturing together with bone marrow graft, and accelerate hematopoietic reconstitution in recipient mice.
Animals
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Bone Marrow Cells
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metabolism
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Bone Marrow Purging
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Bone Marrow Transplantation
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Fas Ligand Protein
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Female
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Genetic Therapy
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Graft vs Host Disease
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Male
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Membrane Glycoproteins
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genetics
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Mice
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Mice, Inbred BALB C
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Transfection
3.Establishment of models for purging leukemic cells from the grafts in vitro.
Fei SUN ; Yong-Min TANG ; Hong-Qiang SHEN ; Bai-Qin QIAN ; Hua SONG ; Shi-Long YANG ; Shu-Wen SHI ; Wei-Qun XU
Journal of Experimental Hematology 2002;10(5):433-437
Using a fluorochrome Calcein-AM, leukemia cells were labeled and seeded into cell lines or bone marrow cells to establish three cell-models of grafts with leukemia. These cell-models were engaged with CD34 immunomagnetic beads and the purging efficacy was evaluated using both fluorescence microscopy and flow cytometry. The results showed that the cell-models established in this study could be evaluated successfully not only with fluorescence microscopy but also flow cytometry. After CD34 positive selection, KG1a cells were removed by (0.98 +/- 0.09) log in model II and NALM-6 cells were removed by (1.82 +/- 0.51) log in model III, respectively. It is concluded that the models established in this study are stable and direct with an excellent reproducibility and an accuracy, which can be used to evaluate purging efficacy of leukemia cells in model graft using immunomagnetic selection and the experimental studies on tumorcidal effect in vitro.
Bone Marrow Purging
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Flow Cytometry
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Hematopoietic Stem Cell Transplantation
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Humans
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Immunomagnetic Separation
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methods
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Leukemia
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pathology
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therapy
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Microscopy, Fluorescence
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Models, Biological
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Transplantation, Autologous
5.Experimental studies of the effects of ZnPcS2P2-based-photodynamic therapy on bone marrow purging.
Hui-fang HUANG ; Yuan-zhong CHEN ; Yong WU
Chinese Medical Journal 2005;118(2):105-110
BACKGROUNDAn effective purging technique plays an important role in autologous hematopoietic stem cells transplantation. Photodynamic therapy (PDT) provides a novel approach for this purpose. This study dealt with the purging effects of di-sulfo-di-phthalimidomethyl phthalolcyanine zinc (ZnPcS2P2)-based photodynamic therapy (ZnPc-PDT).
METHODSFluorescence intensity of cell extracts was measured using a fluorescence spectrophotometry. The proliferative potency of K562 cells and HL60 cells was detected using MTT colorimetric assay, Typan blue dye exclusion method, colony formation test. The proliferative potency of normal hematopoietic cells was evaluated using mixture colony-forming unit (CFU-Mix), granulocyte-macrophage colony-forming unit (CFU-GM), and erythrocyte colony-forming unit (CFU-E) assays. K562 cells were mixed with normal mononuclear cells (MNCs) at ratios of 1:100 and 1:1000 for creating the model of simulated remission bone marrow. Colony formation test and nested-RT-PCR were carried out to detect the residual K562 cells in cell mixture.
RESULTSAfter a 5-hour incubation with ZnPcS2P2, the content of ZnPcS2P2 in normal MNCs was the lowest value. At the same time, the content in K562 cells and HL60 cells was very high. Therefore, the time point was selected as the optimal one for irradiating the cell suspensions. ZnPc-PDT could significantly kill proliferative K562 cells and HL60 cells in a dose-dependent manner. At the concentration of 1.0 microg/ml, the inhibitory rate of ZnPc-PDT on the colony formation was 100% for K562 cells, 89.7% for HL60 cells. 0.25 microg/ml ZnPc-PDT could completely photoinactivate residual K562 cells in the simulated remission bone marrow. Under an identical condition, the inhibitory rates of CFU-Mix, CFU-GM, CFU-E were 18.0%, 18.6%, and 17.8% respectively.
CONCLUSIONZnPc-PDT appears to be a promising approach for bone marrow purging.
Bone Marrow Purging ; Bone Marrow Transplantation ; Cell Division ; drug effects ; Colorimetry ; HL-60 Cells ; Hematopoietic Stem Cells ; drug effects ; Humans ; Indoles ; pharmacology ; K562 Cells ; Photochemotherapy ; Photosensitizing Agents ; pharmacology ; Phthalimides ; pharmacology
6.Myeloablative Treatment Supported by Autologous Stem Cell Infusion with Neuroblastoma.
Kyung Ha RYU ; Ju Young SEOH ; Pil Sang JANG ; Chul Woo KIM ; Sang Hyeok KOH ; Hee Young SHIN ; Hyo Seop AHN
Journal of Korean Medical Science 2003;18(2):184-190
Bcr-abl antisense oligodeoxynucleotides (AS-ODNs) have provided evidence of an antileukemia effect when tested in vitro against Philadelphia-positive cells. In order to investigate the efficacy of AS-ODNs as purging agents in chronic myeloid leukemia (CML) patients, K562 cells, a human CML cell line, were treated in vitro with various types of AS-ODNs and interferon-alpha. Cells were treated in vitro for 0 and 36 hr with 40 microgram/mL of AS-ODNs, respectively, and incubated at 37 degrees C for 36 hr. Cytotoxic effects were measured by counting the number of viable cells as well as by MTT test. Clonogenic activities were evaluated by methylcellulose culture for 2 weeks. The effects of purging agents on the rearrangement of bcrabl gene were evaluated by RT-PCR. AS-ODNs inhibited the proliferation of K562 cells with time in cell count assay and MTT test. AS-ODNs were superior to INF-alpha in inhibiting clonogenic activity (recovery rate; 26.3% vs 64.0%). After incubation with bcr-abl AS-ODNs primers and mRNA isolated from K562 cells, positive bands were abolished, especially of b3a2 type and phosphorothioate type. Our results suggest that AS-ODNs mediated purging may be one of the efficient methods and that autograft may be an alternative treatment for allograft in high-risk group patients of CML if they do not have a stem cell donor.
Bone Marrow Purging*
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Colony-Forming Units Assay
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Fusion Proteins, bcr-abl/genetics
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Fusion Proteins, bcr-abl/metabolism
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Hematopoietic Stem Cells/physiology*
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Human
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Leukemia, Myeloid, Chronic/therapy
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Neuroblastoma/therapy*
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Oligonucleotides, Antisense/metabolism*
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Oligonucleotides, Antisense/therapeutic use
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Transplantation, Autologous*
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Tumor Cells, Cultured
7.Acute graft versus host disease in non-myeloablative allogeneic stem cell transplantation.
Jian-Hui QIAO ; Dan-Hong WANG ; Chang-Lin YU ; Mei GUO ; Wan-Jun SUN ; Qi-Yun SUN ; Bo YAO ; Shi ZHANG ; Hui-Sheng AI
Journal of Experimental Hematology 2008;16(1):116-119
The objective of this study was to explore the occurrence and clinical features of acute graft versus host disease (aGVHD) in non-myeloablative stem cell transplantation (NAST). 19 cases developed aGVHD out of 71 cases with NAST in recent years were analyzed retrospectively. Out of 19 cases, 9 males and 10 females at the median age of 38 (18-59), 16 cases with grade I-II aGVHD, 3 cases with grade III-IV aGVHD. The results indicated that the incidence of aGVHD in NAST was 26.7% (19/71), and severe aGVHD was 4.2%, the median onset time was 58 days (17-240 days) after transplantation. Skin and especially the intestine were the main target organs of aGVHD, while diarrhea occurred as the first symptom in 7 cases, 3 cases showed mixed acute and chronic GVHD involving more locations at the same time. aGVHD occurrence was 38.2% in those patients with full donor chimerism (FDC) and 16% in patients with the mixed chimerism (MC). It is concluded that aGVHD in NAST is less in occurrence, lighter in severity and later in time, but higher occurrence in those with early FDC, which intestine and skin are the main target organs. The clinical course is prolonged and easily complicated with severe infection in the later phase. Early combined therapy with powerful supportive treatment is necessary.
Adolescent
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Adult
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Bone Marrow Purging
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China
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epidemiology
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Female
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Graft vs Host Disease
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epidemiology
;
etiology
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prevention & control
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Hematopoietic Stem Cell Transplantation
;
adverse effects
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methods
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Humans
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Incidence
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Leukemia
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therapy
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Male
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Middle Aged
;
Young Adult
8.Leukemia SH-1 cells purged by ZnPcH(1)-based photodynamic therapy.
Xiao-Lan LIN ; Hui-Fang HUANG ; Wan-Zi CHEN
Journal of Experimental Hematology 2012;20(4):842-846
The objective of this study was to investigate the effect of a novel Zinc phthalocyanine (ZnPcH(1)) based photodynamic therapy (PDT) on acute monocytic leukemia cell lines SHI-1 and its mechanism, so as to provide theory basis for bone marrow purging in vitro for patients with leukemia. The killing effect of ZnPcH(1)-PDT on SHI-1 cells were assessed by MTT method; the SHI-1 cell death patterns were analyzed by AO/EB fluorescence staining, TdT-mediated dUTP nick end labeling (TUNEL), DNA ploidy analysis, and Annexin V-FITC/PI double staining.Cell mixture was established by integrating SHI-1 cells with normal bone marrow MNC (by 1:100-1:10 000). Purging effect of ZnPcH(1)-PDT against SHI-1 mixed into normal MNC was assessed by analyzing the expression of fusion gene MLL/AF6 mRNA using nested RT-PCR. The results showed that ZnPcH(1)-PDT could effectively inhibit SHI-1 cell proliferation in dose-dependent manner, and ZnPcH(1)-PDT could induce cell apoptosis in time-dependent manner. 0.5 µmol/L ZnPcH(1)-PDT could completely photoinactivated kill SHI-1 cells in the simulated remission bone marrow. It concluded that ZnPcH(1)-PDT may be a effective and convenient promising purging technique for leukemia.
Apoptosis
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drug effects
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Bone Marrow Purging
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methods
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Cell Death
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drug effects
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Cell Line, Tumor
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Cell Proliferation
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drug effects
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Humans
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Indoles
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pharmacology
;
therapeutic use
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Leukemia, Monocytic, Acute
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drug therapy
;
pathology
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Organometallic Compounds
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pharmacology
;
therapeutic use
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Photochemotherapy
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Photosensitizing Agents
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pharmacology
;
therapeutic use
9.Purging with rituximab in vivo combined with autologous peripheral blood stem cell transplantation for aggressive B-cell lymphoma: clinical analysis of 26 cases.
Chen ZHANG ; Xiao-pei WANG ; Zhi-tao YING ; Ling-yan PING ; Wen ZHENG ; Yan XIE ; Ning-jing LIN ; Wei-ping LIU ; Li-juan DENG ; Yu-qin SONG ; Jun ZHU
Chinese Journal of Hematology 2013;34(12):1063-1065
Adolescent
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Adult
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Antibodies, Monoclonal, Murine-Derived
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therapeutic use
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Bone Marrow Purging
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Female
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Humans
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Lymphoma, B-Cell
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therapy
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Male
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Middle Aged
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Peripheral Blood Stem Cell Transplantation
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Retrospective Studies
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Rituximab
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Transplantation, Autologous
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Treatment Outcome
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Young Adult
10.Inhibition of Overexpression of c-myb Protooncogene in K562 Cells Using c-myb Antisense Oligodeoxynucleotides.
Pyoung Han HWANG ; Ho Keun YI ; Kyeong Mee LEE ; Jung Soo KIM ; Moo Kyung KIM
Korean Journal of Pediatric Hematology-Oncology 1999;6(2):275-285
PURPOSE: The c-myb protooncogene encodes MYB protein that is critical for normal and leukemic hematopoietic cell proliferation and development. It is known that c-myb plays an important role in leukemogenesis as well. Aberrant expression of c-myb is seen in acute myeloid leukemia (AML), acute lymphoid leukemia (ALL), and chronic myeloid leukemia (CML). We reasoned that down regulation of c-myb expression using synthetic antisense oligomers targeted to c-myb mRNA might prove useful antileukemic agents if leukemia cells were more dependent on c-myb function for proliferation than their normal counterparts. To investigate the applying possibility of c-myb antisense oligodeoxynucleotides as the useful antileukemic agents, we examined the cell viability, cloning efficiency and the expression of c-myb mRNA and MYB protein after the exposure of c-myb oligomers on normal bone marrow cells and leukemia cells. MATERIALS AND METHODS: We maintained in short-term suspension culture for 4 days to analyze the effect of c-myb oligomers on normal bone marrow cells and chronic myelocytic leukemia cell line K562. During suspension culture, cell counts and viability were periodically determined, and immediately seeded into duplicate methylcellulose cultures containing recombinanat human interleukin 3 and GM-CSF. Cells placed in semisolid cultures were allowed to grow for an additional 10~12 days. We counted the colonies, and then RNA and protein was extracted from cells cloned in liquified methyl- cellulose cultures. We detected the c-myb mRNA expression by RT-PCR and Southern hybridization analysis and MYB expression by Western hybridization analysis. RESULTS: c-myb sense oligomers had negligible effects on K562 cells growth in short- term suspension culture, while exposure to c-myb antisense oligomers resulted in a daily decline in cell number. In contrast, normal bone marow cell viability and numbers were unaffected by c-myb sense or antisense oligomers exposure. c-myb antisense oligodeoxy nucleotides strongly inhibited or completely abolished growth and colony formation of K562 cells. In contrast, c-myb sense oligomers did not affect. At antisense dose that inhibited leukemic cell growth, normal bone marrow cells survived. Thus, normal and leukemic cells showed the differential sensitivity to the toxic effect of c-myb antisense oligomers. RT-PCR, Southern hybridization analysis and Western hybridization analysis of c-myb antisense-treated K562 cells revealed a complete absence of c-myb mRNA expression and MYB expression. CONCLUSION: Results obtained from these studies suggest that inhibition of c-myb function with antisense oligodeoxynucleotides might eventually form the basis for a molecular biologic approach to leukemia therapy, perhaps most immediately as ex vivo bone marrow purging agent.
Bone Marrow Cells
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Bone Marrow Purging
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Cell Count
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Cell Line
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Cell Proliferation
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Cell Survival
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Cellulose
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Clone Cells
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Cloning, Organism
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Down-Regulation
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Granulocyte-Macrophage Colony-Stimulating Factor
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Humans
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Interleukin-3
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K562 Cells*
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Leukemia
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Leukemia, Myelogenous, Chronic, BCR-ABL Positive
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Leukemia, Myeloid, Acute
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Methylcellulose
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Nucleotides
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Oligodeoxyribonucleotides*
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Precursor Cell Lymphoblastic Leukemia-Lymphoma
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RNA
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RNA, Messenger