Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0596978 (Leukemia)
 15,069 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chlorambucil and prednisolone, two commonly used drugs in the treatment of chronic lymphocytic leukemia (CLL), induce apoptosis in CLL cells. We have investigated the involvement in this apoptotic cell death of caspases, which cleave critical cellular substrates thereby acting as the executioners of the apoptotic process. Induction of spontaneous or chlorambucil/prednisolone-induced apoptosis of freshly isolated B-CLL cells in culture resulted in the activation of the 'effector' caspases, -3 and -7, but generally not of caspase-2. Activation of caspases-3 and -7 was accompanied by the proteolysis of the DNA repair enzyme, poly (ADP-ribose) polymerase. Induction of apoptosis was also accompanied by the processing of caspase-8, the extent of which varied between patients. Induction of apoptosis and processing of all the caspases was inhibited by the cell permeable caspase inhibitor, benzyloxycarbonyl-Val-Ala-Asp (OMe) fluoromethyl ketone (Z-VAD.fmk). Our results demonstrate a key role for the activation and processing of caspases in the execution phase of apoptosis in CLL cells. Apoptosis of CLL cells resulted in the selective activation of some but not all caspases. Our results suggest that the dysregulation of apoptosis observed in CLL may be due to the signalling leading to the activation of caspases rather than a deletion of pro-caspases. High levels of caspase-8 in CLL cells in conjunction with low levels of CD95 receptor may offer new therapeutic opportunities for the treatment of CLL.
Leukemia 1998 Oct
PMID:Processing/activation of caspases, -3 and -7 and -8 but not caspase-2, in the induction of apoptosis in B-chronic lymphocytic leukemia cells. 976 99

Three-color flow cytometry immunophenotyping revealed significant increases of CD57+ and CD28- cells among both circulating CD4+ and CD8+ T lymphocytes of untreated hemato-oncological patients (n = 54) as compared to healthy donors (n = 55), with CD57 and CD28 expression on the patients' T cells being largely reciprocal. Marked expansion of CD57+ cells among circulating CD4+ T lymphocytes was frequently detected in patients with chronic leukemia of B cell origin (B-CLL, hairy cell leukemia) but not in patients with chronic myeloid leukemia, suggesting a causal relation with the tumor's major histocompatibility complex class II expression. Using immunomagnetic separation techniques, we further demonstrate that the patients' CD57+/CD28- T cells display a typical Th1-type cytokine secretion profile upon anti-CD3 stimulation, with a markedly higher secretion of the Th1-type cytokines IL-2, IFN-gamma, and TNF-alpha than their CD57-/CD28+ counterparts. Cytotoxic activity of circulating CD8+ T lymphocytes, measured ex vivo in an anti-CD3-redirected assay, was almost exclusively exerted by the CD57+/CD28- subset. Moreover, a marked cytotoxic activity was detected within CD4+CD57+ T cells from some B-CLL patients. Finally, the patients' CD57+/CD28- T cells displayed an increased tendency to apoptosis in culture. Collectively, our results indicate that the expanded CD57+/CD28- T cells in hemato-oncological patients represent differentiated effector cells, similar to their (quantitatively minor) counterpart in healthy donors. The reason for their expansion and their pathophysiologic significance, however, remains unclear.
Leukemia 1998 Oct
PMID:CD57+/CD28- T cells in untreated hemato-oncological patients are expanded and display a Th1-type cytokine secretion profile, ex vivo cytolytic activity and enhanced tendency to apoptosis. 976 2

Despite the strong in vitro activity of some immunotoxins (ITs), clinical application did not result in complete cure. The outcome of therapy may be improved by combining ITs with IT-cytotoxicity enhancing agents. We studied the effect of various agents that influence the intracellular routing of ITs on the activity of the anti-B cell IT CD22-recombinant (rec) ricin A. In protein synthesis inhibition assays the carboxylic ionophores monensin and nigericin enhanced the activity of the IT 117- and 382-fold, respectively, against the cell line Daudi, and 81- and 318-fold, respectively, against the cell line Ramos. IT activity to Daudi and Ramos was enhanced to a lesser extent by the lysosomotropic amines chloroquine (14- and 11-fold, respectively) and NH4Cl (nine- and 10-fold, respectively). However, the combination of NH4Cl and chloroquine induced more than an additive effect (145- and 107-fold, respectively). Cytotoxicity was not influenced by brefeldin A, all-trans retinoic acid (ATRA), verapamil and perhexiline maleate. Bacitracin enhanced the IT cytotoxicity in contrast to the other protease inhibitors aprotinin, leupeptin and soybean trypsin inhibitor, albeit enhancement was weak (two-fold). The enhancers exerted only a negligible effect on bone marrow progenitor cells. We recently developed a flow cytometric cytotoxicity assay in which cell elimination can be assessed. In order to detect enhancement in this assay, we used 5 x 10(-11) M IT (approximately the 50% protein synthesis inhibiting dose (ID50)). This concentration killed 41% of the Daudi cells and 42% of the Ramos cells. In the presence of 10 nM monensin the IT killed 74% and 99% and in the presence of 10 nM nigericin 96% and 99% of the Daudi and Ramos cells, respectively. At 10(-8) M, CD22-rec ricin A eliminated malignant cells originating from three patients with B-CLL (0.42 log) and two with B-ALL (0.19 log) patients. Cytotoxicity to malignant cells was enhanced by NH4Cl, chloroquine, monensin and nigericin. The combination of NH4Cl and chloroquine enhanced the activity most effectively (up to 2.06 log). To determine the applicability of the IT in combination with enhancers in vivo we investigated the effect of human serum. Human serum inhibited IT activity which could not be restored by monensin and nigericin because of complete inhibition of these enhancers by serum. In contrast, chloroquine partially restored the activity of CD22-rec ricin A in the presence of human serum. We conclude that monensin, nigericin and the combination of NH4Cl and chloroquine can be used instead of NH4Cl to potentiate CD22-rec ricin A activity in purging autologous bone marrow transplants contaminated with malignant B cells. Chloroquine might be a promising enhancer of CD22-rec ricin A for treating patients in vivo.
Leukemia 1999 Feb
PMID:Influence of cytotoxicity enhancers in combination with human serum on the activity of CD22-recombinant ricin A against B cell lines, chronic and acute lymphocytic leukemia cells. 1002 98

Our recent work has shown that theophylline which inhibits intracellular cyclic adenosine monophosphate (cAMP) degradation is able to kill chronic lymphocytic leukemia (CLL) cells in vitro and synergizes in vitro and in vivo with chlorambucil. In order to test the hypothesis that theophylline works through an indirect increase in cAMP, we have investigated the role of several molecules on B-CLL cells from 20 patients. Direct cAMP inducers such as dibutyryl-cAMP (db-cAMP), prostaglandin-E2 (PGE2) and forskolin induced moderate apoptosis but extremely high levels of intracellular cAMP. By contrast theophylline was highly apoptotic but did not synergize with cAMP inducers. Apoptosis was completely reversed by a cAMP antagonist when induced by PGE2 or forskolin, but was only partially antagonized when induced by theophylline. Since CD38+ CLL cells are more sensitive to apoptosis and since CD38 is enhanced by cAMP inducing agents its expression was investigated. In our hands CD38 was not induced by the above pharmacological compounds. Exogenous IL-10 has been shown to induce CLL cell death; however, apoptosis following treatment with theophylline or cAMP inducers could not be ascribed to endogenous production of IL-10. This ruled out the involvement of cytokines or of an activation or differentiation process in apoptosis. Altogether our data show that an increase in intracellular cAMP mediates apoptosis in vitro but accounts only partly for theophylline-mediated apoptosis.
Leukemia 1999 Jan
PMID:Theophylline-induced B-CLL apoptosis is partly dependent on cyclic AMP production but independent of CD38 expression and endogenous IL-10 production. 1004 64

In hematopoiesis the evolution of specialized cell lineages from a common stem cell is mediated by lineage-specific growth factors. The role of DNA methylation in the multilevel regulation of the differential gene expression, especially in the case of growth factor receptor genes, has remained elusive. In earlier studies we showed a lineage-specific methylation pattern of the M-CSF receptor gene c-fms in blood monocytes and tissue macrophages. Here, we provide evidence that a lineage-specific hypomethylation exists for the G-CSF receptor gene for myelomonocytic cells but not in lymphocytes without any interindividual differences. Constant differences were found between alveolar and peritoneal macrophages with a lesser degree of methylation in peritoneal macrophages. Acute myelomonocytic leukemias showed an increased methylation as compared with normal granulocytes and monocytes. All permanent cell lines analyzed revealed hypermethylation of the G-CSF receptor gene. Lymphocytes of B-CLL showed a strong hypermethylation of this gene. Increased methylation has been shown to be inversely correlated with transcriptional gene activities. We conclude that the methylation pattern of growth factor receptor genes may be one of the regulatory mechanisms in multi-lineage differentiation.
Leukemia 1999 Apr
PMID:Cell lineage specificity in G-CSF receptor gene methylation. 1021 58

Previous studies on intact cells have shown that bryostatin 1 (Bryo 1) induces significant alterations in the membranes of WSU-CLL cells (a drug-resistant B-CLL cell line), changes which may play an important role in the mechanism of reduced drug resistance of B-CLL cells to 2-chlorodeoxyadenosine (2-CdA). However, it is not clear whether the plasma membranes or the mitochondria, or both are involved; nor is it known which of these two targets is more important for regaining the cells former drug sensitivity. For the present study, we treated WSU-CLL cells with Bryo 1, isolated plasma membranes and mitochondria, and then subjected the purified fractions to infrared (IR) spectroscopic and chromatographic analyses. IR spectroscopy revealed a decreased glycosylation of both plasma membranes and mitochondria in Bryo 1-treated cells compared to untreated cells. The amount of lipid relative to protein was increased in both types of membranes, but considerably more enhanced in the plasma membrane fraction of the Bryo 1-treated cells than in mitochondria. Quantitative lipid analysis by thin layer chromatography also revealed that Bryo 1 treatment significantly increased the phospholipid content in plasma membranes, whereas the lipids in the mitochondria remained essentially unchanged. Changes in lipid composition were quite dramatic for plasma membranes where phosphatidylcholines were decreased by 50%, phosphatidylethanolamines doubled and sphingomyelins increased five-fold compared to the lipid composition in plasma membranes of untreated cells. In addition, the IR spectroscopic analysis provided evidence for an increased plasma membrane fluidity in Bryo 1-treated cells, whereas the fluidity of the mitochondria remained essentially unchanged; marker bands indicating mitochondrial DNA decreased upon Bryo 1 treatment. These results suggest that Bryo 1 increases the sensitivity of WSU-CLL cells to chemotherapeutic agents such as 2-CdA by action on two cell targets: (1) introduction of significant changes in plasma membrane permeability or fluidity through modifications in lipid content and composition as well as by reducing the surface glycosylation; (2) introduction of changes in lipid and DNA content of the mitochondria. Small alterations in the lipid composition of the mitochondria may provide the conditions for an altered proton gradient and transmembrane potential leading to apoptosis and decreased cell survival.
Leukemia 1999 Aug
PMID:Infrared spectroscopic study of bryostatin 1-induced membrane alterations in a B-CLL cell line. 1045 Jul 57

The chromosomal region 13q14.3 is frequently deleted in B cell chronic lymphocytic leukemia (B-CLL) and it is supposed that a tumor suppressor gene, involved in this leukemogenesis, is located in this area. The first exons of two genes, Leu1 and Leu2, mapped in a minimally deleted 13q14.3 region, are systematically lost in B-CLL sharing a 13q14.3 deletion. These two genes have been proposed as strong tumor suppressor gene candidates. However, in a study on 15 13q14.3 deleted B-CLL, we found three patients in which this critical region was not involved. Because of these results and that no mutations were detected on the two genes in a previous study, we think that Leu1 and Leu2 can be excluded as tumor suppressor genes.
Leukemia 1999 Oct
PMID:Exclusion of Leu1 and Leu2 genes as tumor suppressor genes in 13q14.3-deleted B-CLL. 1051 67

Following allogeneic stem cell transplantation (SCT), we studied the presence of donor and recipient derived cells within the CD19+ B cell fraction, in patients with B cell chronic lymphocytic leukemia (CLL). The chimeric status of the six patients studied was further investigated with minimal residual disease (MRD) detection, by sequencing and using patient-specific primers derived from junctional regions of clonally rearranged immunoglobulin heavy-chain (IgH) receptor genes. To date, five of six patients are alive with a median follow-up time of 24 months (range 15-60) post-SCT. All patients experienced acute and chronic graft-versus-host disease and responded clinically to SCT. All patients were MRD positive after SCT, which correlated to mixed chimerism within the CD19+ cell fraction in all samples except one (25/26). High levels of tumor necrosis factor-alpha (TNF-alpha) and soluble interleukin-2 receptor (sIL-2R) indicated advanced disease, and patients with increased levels pre- and post-SCT were also those with the most long-lasting PCR-detectable MRD post-SCT. Hence, a high tumor burden pre-SCT may reflect the long duration of detectable MRD in patients with B-CLL after SCT. A durable anti-leukemic effect was probably important in these patients.
Leukemia 2000 Feb
PMID:Minimal residual disease is common after allogeneic stem cell transplantation in patients with B cell chronic lymphocytic leukemia and may be controlled by graft-versus-host disease. 1067 41

Several new therapeutic approaches for the treatment of monoclonal B cell lymphomas are currently being investigated. In parallel with new therapeutic modalities, more sensitive diagnostic methods are needed. These methods should be highly sensitive in detecting very low amounts of malignant cells and should be specific for the malignant clone. In addition, these methods should allow the quantification of residual tumor cells. In this study a new real-time polymerase chain reaction (LightCycler) was evaluated to quantify residual tumor cells in monoclonal B cell malignancies. This technology combines the advantages of rapid cycling PCR with the online detection of PCR products using fluorescent dyes. Our assay is based on immunoglobulin heavy chain (IgVH)-specific PCR with allele-specific primers complementary to hypervariable CDRII and CDRIII regions. A set of framework region III (FRIII)-specific hybridization probes was used for detection of the specific amplification product, and IgVH copy number was quantified with the cloned IgVH sequence as an external standard. The approach was evaluated with the Hodgkin lymphoma cell line L428 in order to quantify L428 dilutions. L428 cells mixed with peripheral blood mononuclear cells (PBMNCs) were detected and quantified with a sensitivity of one cell within 1 x 10(5) PBMNCs. Sample DNA from the peripheral blood and from the bone marrow of two patients with B-CLL was analyzed in the new set up at different time points before and after therapy. Statistically significant changes in IgVH copy numbers were documented in both patients. We conclude that this technology offers an additional opportunity to detect and quantify residual tumor cells in B-CLL over several log steps with a high sensitivity. The kinetics of residual tumor cell counts in B-CLL can be analyzed by this method.
Leukemia 2000 Apr
PMID:A real-time PCR assay for the quantification of residual malignant cells in B cell chronic lymphatic leukemia. 1076 66

Nitric oxide (NO) exerts contrasting effects on apoptosis, depending on its concentration, flux and cell type. In some situations, NO activates the transduction pathways leading to apoptosis, whereas in other cases NO protects cells against spontaneous or induced apoptosis. The redox state of the cells appears to be a crucial parameter for the determination of the ultimate action of NO on cell multiplication and survival. Apoptosis is mostly associated with the delivery of NO by chemical donors and with myelomonocytic cells, whereas antiapoptotic effects seem to be related to the endogenous production of NO by NO synthases and is observed more frequently in cells of the B lymphocyte lineage. Pro-apoptotic effects are often observed when NO reacts with superoxide to produce the highly toxic peroxynitrite. Through the induction of damages to DNA, NO stimulates the expression of enzymes and transcription factors involved in DNA repair and modulation of apoptosis, such as the tumor suppressor p53. The latter molecule transactivates the expression of pro-apoptotic genes, such as bax, and that of the cyclin-dependent kinase inhibitor p21, whereas it down-regulates the expression of the anti-apoptotic protein bcl-2. On the other hand, NO inactivates caspases through oxidation and S-nitrosylation of the active cystein, providing an efficient means to block apoptosis. Other protective effects of NO on apoptosis rely on the stimulation of cGMP-dependent protein kinase (PKG), modulation of the members of the bcl-2/bax family that control the mitochondrial pore transition permeability, induction of the heat shock protein HSP 70 and interaction with the ceramide pathway. A defect in the apoptotic process contributes to the accumulation of tumoral cells in leukemia, notably in B-CLL. A better knowledge of the targets of NO would provide efficient means to control cell apoptosis, and hence would possibly lead to the development of new therapeutic approaches for diseases where an alteration of apoptosis is involved.
Leukemia 2000 Sep
PMID:Mechanisms involved in the pro- and anti-apoptotic role of NO in human leukemia. 1099 17


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