Philadelphia chromosome-positive myeloid cells in the peripheral blood of chronic myelogenous leukemia patients: comparison with the frequency detected in cycling cells of the bone marrow

Monitoring the frequency of the Philadelphia (Ph) chromosome in chronic myelogenous leukemia (CML) is important in determining the effectiveness of treatment for patients during therapy. This can be done with high resolution by subjecting short-term bone marrow cultures (48 h) to 24 h of mitotic arrest before harvest and detecting Ph-positive (Ph+) metaphases by fluorescence in situ hybridization (FISH) in a procedure termed hypermetaphase FISH or HMF. Here, we compared procedures for detecting Ph+ interphase cells (interphase FISH or I-FISH) in peripheral blood polymorphonucleocytes (PMNs) with HMF results on the bone marrow of the same 26 CML patients in different stages of remission. The probes for I-FISH in these experiments were relatively large (200-300 kb) and sufficiently resolved in PMNs so that 97.5% of the cells were scorable. The correlation between the frequencies of Ph+ cells from the two different cell sources was excellent (r = 0.983, P < 0.0001); however, there was a consistently higher level of Ph+ cells observed in the cycling marrow cells than in the peripheral blood PMNs. This was discussed in terms of current theories of apoptosis in CML cells. The large number of PMNs analyzable by I-FISH (approximately 500/patient in this study) provided sufficiently narrow 99% confidence intervals to suggest the procedure as an effective and efficient method for monitoring the frequency of Ph+ cells in CML patients undergoing therapy. However, for detection and quantification of minimal residual disease, HMF is preferable to I-FISH because of the much lower frequency of false-positive readings with the former procedure.     

Lipoprotein(a) and cholesterol levels act synergistically and apolipoprotein A-I is protective for the incidence of primary acute myocardial infarction in middle-aged males. An incident case-control study from Sweden

Interphase fluorescence in situ hybridization (FISH) for the translocation t(9;22) is widely used for quantifying minimal residual disease (MRD) in PBSC harvests from CML patients. We investigated the influence of cell composition on the percentage of positive FISH signals in 17 BCR/ABL-positive leukapheresis products from 12 CML patients. In these PBSC harvests, a significant correlation between the percentage of nonlymphocytic nucleated cells and BCR/ABL positivity was measured (k=0.81). This correlation was not seen in patients who became BCR/ABL negative after mini-ICE chemotherapy. CD34 enrichment was performed by immunomagnetic separation in 7 patients. There was a statistically significant increase in BCR/ABL positivity after CD34+ selection (p=0.018). This may have been caused by passive depletion of BCR/ABL-negative lymphocytes. Our findings suggest that quantitative results of t(9;22) FISH have to be corrected for cell composition when comparing different stem cell products. CD34+ selection before FISH analysis may be one way to enrich for nonlymphocytic cells and to concentrate on the progenitor compartment.     

Gene therapy for chronic myelogenous leukemia (CML): a retroviral vector that renders hematopoietic progenitors methotrexate-resistant and CML progenitors functionally normal and nontumorigenic in vivo

Chronic myelogenous leukemia (CML) is a malignant disease of the human hematopoietic stem cell caused by the BCR/ABL gene rearrangement. The only curative therapy is allogeneic transplantation. Although autologous transplants may prolong survival, most patients relapse because of disease persisting in the host and in the graft. Continued administration of chemotherapy after transplant could reduce the incidence of relapse provided that the autograft can be protected by transfer of a drug-resistance gene. However, CML autografts will almost certainly contain malignant stem cells that will also be rendered drug-resistant. The presence of the BCR/ABL oncoprotein is necessary and sufficient for malignant transformation seen in CML. We thus hypothesized that transfer of a vector that combines a drug-resistance gene with anti-BCR/ABL antisense (AS) sequences may allow for posttransplant chemotherapy to decrease persistent disease while rendering inadvertently transduced CML stem and progenitor cells functionally normal. We constructed a retroviral vector, LasBD, that combines the methotrexate (MTX)-resistant tyrosine-22 dihydrofolate-reductase (tyr22-DHFR) gene and AS sequences directed at the b3a2 BCR/ABL breakpoint. b3a2 BCR/ABL containing 32D and MO7e cells were transduced with LasBD and selected in MTX for 14 days. Expression of the AS sequences reduced BCR/ABL mRNA and p210(BCR/ABL) protein levels by 6- to 10-fold in most cells. This subsequently led to the restoration of normal function of BCR/ABL cDNA+ cells: they grew significantly slower in the presence of interleukin-3 (IL-3); they underwent apoptotic cell death when cultured without IL-3; and they had restored expression and function of adhesion receptors. These effects were specific, because LasBD-containing AS sequences directed at the b3a2 BCR/ABL breakpoint did not affect p190(BCR/ABL)-containing cells. LasBD also rendered 20% to 30% of primary Ph- and Ph+ CD34(+) cells MTX-resistant and decreased BCR/ABL mRNA levels in MTX resistant Ph+ CD34(+) cells by 10-fold. Expression of the MTX-resistant DHFR gene and the AS sequences has been stable for at least 1 year in vitro and for more than 70 days in vivo. Finally, LasBD decreased tumorigenicity of 32DBCR/ABL cells in vivo by 3 to 4 logs. In conclusion, the tyr22-DHFR gene in the LasBD vector can protect normal hematopoietic cells from MTX-mediated toxicity, whereas the AS sequences in LasBD can suppress expression of the BCR/ABL gene and restore normal function of BCR/ABL cDNA-containing cells. The LasBD vector may therefore prove to be an extremely useful adjunct in autologous transplantation for CML.     

Acquisition of the Ph chromosome and BCR-ABL fusion product in AML-M2 and t(8;21) leukemia: cytogenetic and FISH evidence for a late event

A patient with the M2 subtype of AML who had a 45,X,-X,t(8;21) karyotype at diagnosis was found to have the Ph chromosome in one out of 37 evaluated cells 18 months after the initial diagnosis. Interphase FISH studies utilizing a BCR-ABL dual-color probe did not detect a fusion product 4 months prior to the appearance of one Ph-positive cell. Nineteen months post diagnosis and 5 months after clinical relapse all evaluated cells had the Ph chromosome in a clone characterized by t(8;21). These observations suggest that late appearing Ph is a secondary event which may be either therapy-related or consistent with one of the later events in a multistep pathogenesis of AML.     

Distribution of ABL and BCR genes in cell nuclei of normal and irradiated lymphocytes

Using dual-color fluorescence in situ hybridization (FISH) combined with two-dimensional (2D) image analysis, the locations of ABL and BCR genes in cell nuclei were studied. The center of nucleus-to-gene and mutual distances of ABL and BCR genes in interphase nuclei of nonstimulated and stimulated lymphocytes as well as in lymphocytes stimulated after irradiation were determined. We found that, after stimulation, the ABL and BCR genes move towards the membrane, their mutual distances increase, and the shortest distance between heterologous ABL and BCR genes increases. The distribution of the shortest distances between ABL and BCR genes in the G0 phase of lymphocytes corresponds to the theoretical distribution calculated by the Monte-Carlo simulation. Interestingly, the shortest ABL-BCR distances in G1 and S(G2) nuclei are greater in experiment as compared with theory. This result suggests the existence of a certain regularity in the gene arrangement in the G1 and S(G2) nuclei that keeps ABL and BCR genes at longer than random distances. On the other hand, in about 2% to 8% of lymphocytes, the ABL and BCR genes are very close to each other (the distance is less than approximately 0.2 to 0.3 microm). For comparison, we studied another pair of genes, c-MYC and IgH, that are critical for the induction of t(8;14) translocation that occurs in the Burkitt's lymphoma. We found that in about 8% of lymphocytes, c-MYC and IgH are very close to each other. Similar results were obtained for human fibroblasts. gamma-Radiation leads to substantial changes in the chromatin structure of stimulated lymphocytes: ABL and BCR genes are shifted to the nuclear center, and mutual ABL-BCR distances become much shorter in the G1 and S(G2) nuclei. Therefore, we hypothesize that the changes of chromatin structure in the irradiated lymphocytes might increase the probability of a translocation during G1 and S(G2) stages of the cell cycle. The fact that the genes involved in the t(8;14) translocation are also located close together in a certain fraction of cells substantiates the hypothesis that physical distance plays an important role in the processes leading to the translocations that are responsible for oncogenic transformation of cells.     

BCR/ABL- CD34(+)HLA-DR- progenitor cells in early chronic phase, but not in more advanced phases, of chronic myelogenous leukemia are polyclonal

Chronic myelogenous leukemia (CML) is characterized by the Philadelphia (Ph) translocation and BCR/ABL gene rearrangement which occur in a pluripotent hematopoietic progenitor cell. Ph-negative (Ph-) hematopoiesis can be restored in vivo after treatment with -interferon or intensive chemotherapy, suggesting that normal stem and progenitor cells coexist with the Ph+ clone. We have previously shown that Ph- progenitors are highly enriched in the CD34(+)HLA-DR- fraction from early chronic phase (ECP) CML patients. Previous studies have suggested that the Ph-translocation represents a secondary clonal hit occurring in an already clonally mutated Ph- progenitor or stem cells, leaving the unanswered question whether Ph- CD34(+)HLA-DR- progenitors are normal. To show the clonal nature of Ph- CD34(+)HLA-DR- CML progenitors, we have compared the expression of BCR/ABL mRNA with X-chromosome inactivation patterns (HUMARA) in mononuclear cells and in CD34(+)HLA-DR+ and CD34(+)HLA-DR- progenitors in marrow and blood obtained from 11 female CML patients (8 in chronic phase and 3 in accelerated phase [AP] disease). Steady-state marrow-derived BCR/ABL mRNA-, CD34(+)HLA-DR- progenitors had polyclonal X-chromosome inactivation patterns in 2 of 2 patients. The same polyclonal pattern was found in the progeny of CD34(+)HLA-DR- derived long-term culture-initiating cells. Mobilization with intensive chemotherapy induced a Ph-, BCR/ABL mRNA- and polyclonal state in the CD34(+)HLA-DR- and CD34(+)HLA-DR+ progenitors from 2 ECP patients. In a third ECP patient, polyclonal CD34(+) cells could only be found in the first peripheral blood collection. In contrast to ECP CML, steady-state marrow progenitors in late chronic phase and AP disease were mostly Ph+, BCR/ABL mRNA+, and clonal. Further, in the majority of these patients, a Ph-, polyclonal state could not be restored despite mobilization with intensive chemotherapy. We conclude from these studies that CD34(+)HLA-DR- cells that are Ph- and BCR/ABL mRNA- are polyclonal and therefore benign. This population is suitable for autografting in CML.     

Detection of monosomy 7 and trisomy 8 in myeloid neoplasia: a comparison of banding and fluorescence in situ hybridization

Fluorescence in situ hybridization (FISH) is a powerful tool for detection of numerical and structural chromosomal aberrations. We have compared conventional banding techniques and FISH for the detection of monosomy 7 (-7) and trisomy 8 (+8) in 89 patients with myeloid malignancies. Of these patients, 21 had -7, 30 had +8, four had both, and 34 had no aberrations or aberrations other than -7 or +8 as assessed by banding techniques. Sequential samples were available in 23 patients. Alphoid DNA probes specific for chromosomes no. 7 and 8 were used for FISH. As controls, 10 normal bone marrow (BM) samples were hybridized with the chromosomes no. 7 and 8 probes, and in addition all tumor samples were hybridized with a chromosome no. 1 specific probe. The cut-off value for -7 was 18% one-spot cells, and for +8 was 3% three-spot cells. FISH analysis of 44 samples with -7 or +8, and at least 10 metaphases evaluated, showed that the proportions of aberrant metaphase cells mirrored the interphase clone sizes. Most samples with nonclonal metaphase aberrations, including those with only a few metaphases, had increased numbers of aberrant interphase cells: 20% to 80% for -7, and 3% to 43% for +8. Interphase cytogenetics of the 34 samples without -7 or +8 did not show significant cell populations with -7 or +8. In four patients, -7 or +8 could not be confirmed by FISH due to additional structural aberrations, marker chromosomes, or wrongly interpreted banding results. As FISH will be used more and more in cytogenetic diagnosis, clinical follow-up, and therapy monitoring, it will be necessary to standardize FISH procedures and supplement the Standing Committee on Human Cytogenetic Nomenclature (ISCN) definitions of a clone with criteria specifically for in situ hybridization.     

Effect of notoginsenoside R1 on the synthesis of components of the fibrinolytic system in cultured smooth muscle cells of human pulmonary artery

Manipulation of autologous bone marrow cells (BM) for transplantation in chronic myeloid leukemia (CML) to enrich for normal cells is a novel approach that may improve survival for patients not suitable for allogeneic transplantation. Limitations of this technique include the reported low frequency of normal stem cells in CML and the difficulties in obtaining sufficient BM for manipulation. To address these problems we compared the apheresis product with the diagnostic bone marrow at diagnosis as a source of primitive BCR/ABL-negative progenitors. We analyzed the CD34+ HLA-DR- and CD34+CD38(-) populations in five CML patients to evaluate the frequency of BCR-ABL-negative progenitors and pre-progenitors in these populations. Progenitor analysis was performed by RT-PCR of individual hemopoietic colonies from a standard CFU-GM assay. Analysis of pre-progenitors involved RT-PCR of secondary colonies derived from a stroma-free pre-CFU assay. Our results show variable levels of BCR-ABL-negative progenitors in the 34+DR- population but very low levels of BCR-ABL-negative progenitors in the 34+38- population in blood. Analysis of pre-progenitors from the 34+DR- fraction of peripheral blood (PB) and BM showed 80-100% and 85-100% of colonies were BCR-ABL negative at days 14 and 28, respectively. Analysis of pre-progenitors from the 34+38- fraction of PB and BM showed 23-100% and 42-100% of colonies were BCR-ABL negative at days 14 and 28, respectively. In summary, pre-progenitors from the 34+DR- and 34+38- populations are predominantly BCR-ABL negative in both marrow and blood at diagnosis. Apheresis product collected at diagnosis is a more abundant sources of BCR-ABL-negative pre-progenitors than BM. Thus, apheresis product could potentially be utilized as a source of BCR-ABL-negative stem cells in CML.     

伴3'RARα亚显微缺失的急性早幼粒细胞白血病一例

目的 报道1例伴RARα 3'-末端(3'RARα)亚显微缺失的M3r亚型急性早幼粒细胞白血病(APL)病例及其形态学、细胞遗传学、分子遗传学和分子生物学的研究结果.方法 骨髓细胞直接法和短期培养法制备染色体,应用反带技术进行核型分析;分别用CEPX/Yα-卫星DNA探针、LSI PML-RARα双色双融合探针和LSI RAR α双色断裂点分离探针进行荧光原位杂交(FISH)分析;实时定量反转录聚合酶链反应(RT-PCR)方法检测PML-RARα融合基因转录本;多重巢式RT-PCR技术检测急性白血病29种染色体畸变所形成的融合基因,包括PML-RARα,PLZF-RARα和NPM-RARα融合基因转录本.结果 反带分析显示核型为45,X,-Y[6]/46,XY[8],CEPX/Y探针FISH进一步证实了Y染色体丢失;RARα双色断裂点分离探针FISH分析显示1个RARα等位基因的整个3'-末端缺失;通过细胞遗传学、FISH以及RT-PCR等方法检测,排除PML-RARα、PLZF-RARα、NPM-RARα、NuMA-RARα和STAT5b-RARα重排.结论 识别APL中一种新的RARα基因重排类型(3'RARα亚显微缺失而无X-RARα融合),RARα双色断裂点分离探针FISH分析是明确该异常的有效手段,其分子学结果有待进一步阐明.     

Potent antileukemic activity of the novel agents norsegoline and dibezine

We examined the effect of norsegoline, a natural marine product, and dibezine, a synthetic product, on the survival of human myeloid progenitor cells [colony-forming unit-cells (CFU-C)] from normal individuals and from 10 patients with Philadelphia-positive chronic myelogenous leukemia (CML) in chronic phase and blastic crisis. We compared their effect to the effect of IFN-alpha. Norsegoline, dibezine, and IFN-alpha inhibited the proliferation of CFU-C in a dose-dependent manner. The number of CFU-C from bone marrow (BM) of five CML patients in chronic phase exposed for 16 h to norsegoline (10(-8)-10(-6)M), dibezine (10(-8)-10(-6)M), and IFN-alpha (500 units/ml) was found to be statistically lower (P < 0.05) than the number of CFU-C derived from normal individuals. A 16-h drug exposure of CD34(+) cells isolated from the peripheral blood of three CML patients in blastic crisis and from BM of two patients in chronic phase resulted in a marked inhibition in the ability of the cells to proliferate in liquid culture and a reduction in CFU-C content. Using the fluorescent in situ hybridization technique, we evaluated detection of the BCR/ABL fusion product in the CD34(+) cells. All five patients were 100% Philadelphia positive at diagnosis. BCR/ABL translocations were detected in 94.6 +/- 0.6% of cells following their growth in liquid culture for 7 days. Following exposure of CD34(+) cells to norsegoline, dibezine, or IFN-alpha, BCR/ABL fusion signals could be detected in 73 +/- 11%, 66.5 +/- 4. 7%, and 66.0 +/- 2.5% of cells from BM and 72.3 +/- 5%, 68.8 +/- 7%, and 60.6 +/- 6.8% of peripheral blood, respectively. Our data indicate that norsegoline and dibezine have in vitro an antileukemic effect against Philadelphia-positive cells and may be used in conjunction with currently available agents for ex vivo purging of BM and/or peripheral blood of CML patients in conjunction with autologous bone marrow transplantation.     

Tyrphostin AG957, a tyrosine kinase inhibitor with anti-BCR/ABL tyrosine kinase activity restores beta1 integrin-mediated adhesion and inhibitory signaling in chronic myelogenous leukemia hematopoietic progenitors

Abnormal beta1 integrin receptor function may contribute to the continuous proliferation and abnormal circulation of malignant hematopoietic progenitors in chronic myelogenous leukemia (CML). Previous studies suggest that abnormal integrin function in CML progenitors is related to the presence of the BCR/ABL oncogene. BCR/ABL may alter integrin function in CML by phosphorylating cytoskeletal and/or signaling proteins important for normal integrin function. We evaluated the effect of Tyrphostin AG957, a protein tyrosine kinase (PTK) inhibitor which has activity against the p210BCR/ABL kinase, on beta1 integrin function in CML progenitors. Incubation of CML marrow CD34+HLA-DR+ cells with Tyrphostin AG957 at concentrations that did not affect colony-forming cells (CFC) viability, but which partly inhibited p210BCR/ABL kinase activity, significantly increased CML CFC adhesion to stroma and alpha4beta1 and alpha5beta1 integrin binding fragments of fibronectin (FN). CML CFC proliferation, unlike that of normal CFC, is not inhibited following integrin receptor engagement with FN or anti-integrin antibodies. AG957 did not alter CML CFC proliferation by itself, but resulted in significant inhibition of CML CFC proliferation following integrin engagement. Another PTK inhibitor, Tyrphostin AG555, which does not have anti-p210BCR/ABL kinase activity, did not affect CML CFC adhesion or proliferation. Neither AG957 nor AG555 affected normal CFC adhesion or proliferation. In BCR/ABL expressing cells, AG957 partially inhibited phosphorylation of several proteins that are BCR/ABL PTK substrates and are involved in normal integrin signaling. These studies suggest that abnormal tyrosine phosphorylation may play an important role in defective integrin function in CML progenitors.     

Fluorescein-labeled dextran concentration is increased in BAL fluid after ANTU-induced edema in rats

We identified the cell cycle status of CD34(+) cells of steady-state bone marrow (BM) and peripheral blood (PB) obtained from healthy volunteers, and those of apherasis PB samples collected from healthy donors who had been administered granulocyte colony-stimulating factor (G-CSF). More than 10% of CD34(+) cells in BM were in S+G2/M phase. In contrast, regardless of whether G-CSF treatment was performed, less than 2% of CD34(+) cells in PB were cycling. BM CD34(+) cells showed greater VLA-4 expression and adherence to stromal cells than PB CD34(+) cells. In addition, when cycling and dormant BM CD34(+) cells were analyzed separately, the cells in S+G2/M phase expressed more VLA-4 and adhered to the stromal cell monolayer more efficiently than the cells in G0/G1 phase. Furthermore, this adhesion of CD34(+) cells to the stromal cell layer was almost completely inhibited by anti-VLA-4 antibody. Taken together, these results suggest that CD34(+) progenitors in G0/G1 phase of the cell cycle differ from those in S+G2/M phase in adhesiveness mediated by VLA-4 in the hematopoietic microenvironment.     

O-glucuronidation, a newly identified metabolic pathway for topotecan and N-desmethyl topotecan

BACKGROUND AND OBJECTIVE: CD34+ hematopoietic progenitor cells (HPCs) constitute a heterogeneous population both in size and in immunological features. Lack of CD38, HLA-DR and lineage committed antigens as well as the co-expression of Thy-1 (CDw90) and c-kit receptor (CD117), are able to identify the so-called stem cells. A flow cytometric study was carried out to investigate the co-expression of Thy-1 and c-kit receptors, both members of Ig superfamily adhesion molecules, involved in cell to cell and cell to stroma interactions, on bone marrow (BM), mobilized peripheral blood (PB) and human umbilical cord blood (HUCB) CD34+ HPCs. DESIGN AND METHODS: Lysed whole blood from 15 BM, 25 mobilized PB and 25 HUCB samples were used to perform a five-dimensional flow cytometric evaluation of both CDw90 and CD117 on CD34+ cells. RESULTS: Few CD34+ cells co-expressed Thy-1 antigen in all three compartments (BM: 11.2 +/- 7.2%; PB: 6.2 +/- 3.6%; HUCB: 6 +/- 2.9%; BM vs PB < 0.04; BM vs HUCB < 0.008; PB vs HUCB ns). c-kit receptor was detected on the majority of CD34+ HPCs, particularly in HUCB (HUCB: 80.7 +/- 8.2%; BM: 72.3 +/- 13.1%; PB: 64.2 +/- 17%; HUCB vs BM < 0.03; HUCB vs PB < 0.0001; BM vs PB ns). CD34+Thy-1+ and CD34+c-kit+ HPCs generally displayed HLA-DR antigen, as expression of early cell commitment. However, the most immature CD34+Thy-1+HLA-DR- (HUCB: 1 +/- 0.6%; BM: 0.4 +/- 03%; PB: 0.7 +/- 0.5%; HUCB vs BM < 0.0001; BM vs PB < 0.04; HUCB vs PB ns) and CD34+c-kit+HLA-DR- HPCs (HUCB: 6.5 +/- 4.4%; BM: 6.3 +/- 4.8%; PB: 2.2 +/- 1.8%; HUCB vs BM ns; BM vs PB < 0.0001; HUCB vs PB < 0.0001) were mainly detected in HUCB. Finally, the greatest percentage of CD34+Thy-1+c-kit+ cells was found in BM (6.9 +/- 4.1%) followed by leukapheretic samples (4.4% +/- 2.7) and then by HUCB (3.7 +/- 1.2%; BM vs PB ns; BM vs HUCB < 0.001; HUCB vs PB ns). INTERPRETATION AND CONCLUSIONS: Since the blood release or HPCs is probably due to a perturbation of the adhesive interactions between these cells and the marrow stroma, the different pattern of Thy-1 and c-kit receptor expression on CD34+ HPCs found in the three hemopoietic compartments evaluated can lead to new knowledge about the mobilization kinetics in which the Ig superfamily adhesion molecules are involved.     

High-dose therapy with peripheral blood stem cell transplantation results in a significant reduction of the haemopoietic progenitor cell compartment

In order to study the effect of high-dose therapy with peripheral blood stem cell transplantation (PBSCT) on the haemopoietic reserve in man, the number and composition of bone marrow (BM) and peripheral blood (PB)-derived progenitor cells were examined in 137 cancer patients. In 45 patients, paired samples from BM and PB were obtained before PBSC mobilization and 6-27 months after transplantation. Following PBSCT. the proportion of CD34+ cells was significantly smaller than before mobilization (BM 1.99 +/- 0.24 versus 0.8 +/- 0.09, P < 0.001), and no change was observed at several follow-up visits thereafter. The reduction was most pronounced for the primitive BM progenitor subsets such as the CD34+/DR- and CD34+/ Thy-1+ cells. The impairment of hematopoiesis was also reflected by a significant reduction in the plating efficiency of BM and PB samples. No relationship was found between the decrease in the proportion of CD34+ cells and any particular patient characteristics, kind of high-dose therapy or the CD34+ cell content in the autograft. In conclusion, high-dose therapy with PBSC transplantation is associated with a long-term impairment of the haemopoietic system. The reduction in the number of haemopoietic progenitor cells is not associated with a functional deficit, as peripheral blood counts post-transplantation were normal in the majority of patients.