Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recombinant tumor necrosis factor (rTNF) and rIFN-gamma induce in the human leukemia cell lines HL-60, ML3, and U937 the accumulation of transcripts of the X chromosome-linked chronic granulomatous disease (X-CGD) gene, encoding the 91-kD heavy chain of cytochrome b-245, a component of the NADPH oxidase of phagocytic cells. The gene is induced within 6 h by either cytokine, and its accumulation is observed upon induction with rIFN-gamma up to 5 d. The combined effect of the two cytokines is more than additive. rIFN-gamma also induces accumulation of X-CGD mRNA in immature myeloid cells from peripheral blood of chronic myeloid leukemia (CML) patients, whereas rTNF has almost no effect. The cells from CML patients constitutively express TNF mRNA, suggesting that endogenously produced TNF may play a role in the effect of rIFN-gamma on these cells. rTNF induces X-CGD gene expression in the myeloid cell lines acting, at least in part, at the transcriptional level, as shown in nuclear run-on experiments. The gene encoding the 22-kD light chain of cytochrome b-245 is constitutively expressed in the human myeloid cell lines and the accumulation of its transcripts is affected by neither rTNF nor rIFN-gamma, rTNF and rIFN-gamma synergistically to induce the cell lines to express the cytochrome b-245 heterodimer (as evaluated by its visible spectrum), and to produce NADPH oxidase activity and H2O2 upon stimulation with phorbol diesters.
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PMID:Tumor necrosis factor and immune interferon synergistically induce cytochrome b-245 heavy-chain gene expression and nicotinamide-adenine dinucleotide phosphate hydrogenase oxidase in human leukemic myeloid cells. 249 43

Juvenile chronic myelogenous leukemia (JCML) is a rare myeloproliferative disorder of early childhood that is clinically and cytogenically distinct from the well-recognized adult type of chronic myeloid leukemia. Unlike the adult disease, growth of hematopoietic progenitors from peripheral blood (PB) occurs in the absence of exogenous stimulus even at low cell densities. This so-called "spontaneous" growth can be abrogated by adherent cell depletion and appears to depend on production of endogenous growth factors. We studied seven children with JCML to determine the nature of endogenous stimulators. With isolated PB mononuclear cells (PBMNCs) and a 3H-thymidine (3H-TdR) incorporation assay, JCML cells were shown to incorporate high levels of 3H-TdR when cultured in the absence of stimulus even at low cell densities. When neutralizing antisera prepared against each of the four known colony-stimulating factors (CSFs), GM-CSF, G-CSF, M-CSF, and interleukin-3 (IL-3), as well as antisera against interleukin-1 (alpha and beta) and tumor necrosis factor (TNF) were added to these cultures, only the antisera against recombinant human GM-CSF (rhGM-CSF) consistently resulted in significant inhibition of cell proliferation, achieving up to 72% inhibition of 3H-TdR incorporation in one case. Monoclonal antibodies (MoAbs) against rhGM-CSF resulted in a similar and highly significant degree of inhibition. A marked inhibitory effect of rhGM-CSF antiserum on "spontaneous" growth of PB CFU-GM derived colonies in semisolid medium was also demonstrated in four of five patients studied (87% to 90% inhibition). Production of growth factors by highly enriched JCML monocytes was variable. When initially studied in five of the seven patients, the monocytes from three of the patients revealed increased release of IL-1-like activities; two patients had levels similar to those of controls. One patient with normal levels when initially studied was later shown to have markedly increased amounts of IL-1-like activities in a second preparation of monocyte-conditioned medium (MCM). High levels of GM-CSF were detected in the initial MCM from one patient, but this may have indirectly reflected elevated IL-1-like activities present in the MCM. IL-3 and M-CSF levels were either low or undetectable in the patients studied as compared with MCM prepared with normal adult monocytes. These results clearly implicate GM-CSF as the primary endogenous regulator of JCML cell proliferation in culture and suggest that this malignant myeloproliferative disease may in part result from paracrine stimulation of marrow progenitor cells by growth factors/cytokines secreted by the malignant monocytes.
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PMID:Granulocyte-macrophage colony-stimulating factor is an endogenous regulator of cell proliferation in juvenile chronic myelogenous leukemia. 267 15

The effects of recombinant lymphotoxin (rLT) and tumor necrosis factor (rTNF) on the growth of clonogenic normal and leukemic hematopoietic cells were investigated. Two opposite and dose-dependent effects of rLT on normal CFU-GM were found. Low concentrations (5pM) did stimulate the growth, while higher amounts of rLT showed an antiproliferative effect. In contrast, the effect of rTNF was only an inhibition of growth in a dose-dependent fashion. In chronic myeloid leukemia (CML), the CFU-GM was resistant to the growth stimulatory effect of rLT. Furthermore, CML-cells were found to be more susceptible than normal CFU-GM to the antiproliferative effect of both rLT and rTNF. These results show that LT and TNF exhibit qualitative differences in the effects on hematopoietic cells and that CML-cells display an increased susceptibility for the cytostatic effects on LT and TNF.
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PMID:Recombinant lymphotoxin enhances the growth of normal, but not of chronic myeloid leukemic, human hematopoietic progenitor cells in vitro. 269 59

The effects of human recombinant tumor necrosis factor type alpha (rTNF alpha) on the blast progenitors from 14 acute myeloblastic leukemia (AML) patients and 1 chronic myelogenous leukemia patient in blastic crisis were studied in methylcellulose and suspension cultures. Blast progenitors renew themselves and/or undergo terminal divisions. Plating efficiency of primary colony formation (PE1) in methylcellulose, which is considered to reflect the terminal divisions of blast progenitors, was suppressed by rTFN alpha in a dose-dependent manner in all cases. Plating efficiency of secondary colony formation (PE2) and the recovery of clonogenic cells in suspension culture, which are considered to reflect the self-renewal capacity of blast progenitors, were also suppressed by rTNF alpha in a dose-dependent manner in almost all cases. rTNF alpha also inhibited both PE2 and clonogenic cells in suspension culture, even in relapsed AML patients who were very refractory to intensive chemotherapies. The results demonstrate that rTNF alpha inhibits not only terminal divisions but also the self-renewal capacity of leukemic blast progenitors. The finding that rTNF alpha suppressed the self-renewal capacity of leukemic blast progenitors proposes the utility of rTNF alpha to AML therapy.
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PMID:Effects of recombinant human tumor necrosis factor on the self-renewal capacity of leukemia blast progenitors in acute myeloblastic leukemia. 276 17

Previous studies using unseparated normal human bone marrow cells have indicated that recombinant tumor necrosis factor alpha (rTNF-alpha) can inhibit the in vitro colony growth by normal granulocyte/macrophage (CFU-GM) and erythroid (BFU-E) progenitor cells in a dose-dependent manner. In the present studies, by using very low numbers of highly enriched normal bone marrow progenitor cell populations as target cells, we have extended these previous findings to provide convincing evidence that erythroid and myeloid colony growth suppression by rTNF-alpha is manifested by a direct interaction between rTNF-alpha and CFU-GM and BFU-E progenitor cells. In addition, the sensitivity of normal peripheral blood and chronic myeloid leukemia bone marrow CFU-GM and BFU-E colony growth to inhibition by rTNF-alpha was examined and found to be comparable with that of normal bone marrow CFU-GM and BFU-E. Although the continuous presence of high doses of rTNF-alpha (5000 units/ml) was required in methylcellulose cultures for maximal CFU-GM (90%) and BFU-E (70%) colony suppression, short-term exposure (24 to 72 hr) of normal bone marrow-enriched progenitor cells to rTNF-alpha, in the absence of hematopoietic growth factors, was sufficient to irreversibly suppress up to 50 to 65% of CFU-GM colony growth. In contrast, the number of BFU-E colonies was increased under these conditions. If, however, hematopoietic growth factors (Mo-T-cell-conditioned medium and erythropoietin) were present during preincubation of the cells with rTNF-alpha, BFU-E were then slightly suppressed while the extent of CFU-GM inhibition remained essentially the same. The suppressive effect of rTNF-alpha on erythroid and myeloid progenitor cell growth appears to be most pronounced on the more primative stages of committed progenitor cell development, since inhibition of CFU-GM- and BFU-E-derived colony growth progressively decreased with the delayed addition of rTNF-alpha to methylcellulose cultures. [3H]Thymidine incorporation was also inhibited by rTNF-alpha in normal bone marrow-enriched progenitor cell populations stimulated to proliferate in liquid culture by colony-stimulating factors. This effect was transient, however, since the activity of rTNF-alpha declined after the first 24 h of culture at 37 degrees C, particularly at low doses of rTNF-alpha where the activity was completely lost after 48 h of culture. This loss of activity appeared to be due to a decreased sensitivity of progenitor cells to the antiproliferative effects of tumor necrosis factor (TNF) after an initial exposure rather than a lack of available TNF.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of recombinant human tumor necrosis factor on highly enriched hematopoietic progenitor cell populations from normal human bone marrow and peripheral blood and bone marrow from patients with chronic myeloid leukemia. 304 Feb 31

The modulation of growth of normal and leukemic myeloid progenitor cells in soft agar cultures by recombinant human tumor necrosis factor-alpha (TNF alpha) and recombinant human interferon-gamma (IFN gamma) was investigated. TNF alpha inhibited colony formation of all colony types representing different maturational stages of normal progenitor cells committed to the myeloid lineage with different orders of sensitivity. Blast-type colonies derived from patients with acute myelogenous leukemia were more sensitive to TNF alpha inhibition than progenitor cells purified from normal bone marrow or bone marrow from patients with stable-phase chronic myelogenous leukemia. The response of most colony types to IFN gamma was poor. However, when IFN gamma was administered together with TNF alpha, synergistically enhanced antiproliferative effects were detected in all colony types tested. The antiproliferative action of IFN gamma on myelopoiesis was enhanced in culture by the presence of autologous monocytes, presumedly by inducing endogenous production of TNF alpha. However, TNF alpha seemed to act directly on the progenitor cells themselves to suppress their clonal growth, rather than involving accessory marrow elements such as monocytes and/or T lymphocytes.
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PMID:The suppressive effects of recombinant human tumor necrosis factor-alpha on normal and malignant myelopoiesis: synergism with interferon-gamma. 313 11

Sera of patients with primary myelofibrosis (PMF), primary thrombocythemia (PT), polycythaemia vera (PV) and chronic myeloid leukemia (CML) contained a significantly increased F-CSA (or F-CSAs) compared to those of normal subjects and patients with secondary thrombocytosis (ST). This F-CSA was heat sensitive and had the capacity to promote both proliferation and maturation of normal marrow fibroblast colony-forming cells (CFU-F). This F-CSA seemed to be different from human platelet derived growth factor (PDGF), tumor necrosis factor (TNF) and fibroblast growth factor (FGF) from bovine brain. This F-CSA might be of importance in the pathogenesis of bone marrow fibrosis in myeloproliferative disorders.
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PMID:Increased fibroblast colony stimulating activity (F-CSA) in serum of myeloproliferative disorders. 326 2

The antigen defined by the monoclonal antibody anti-Fas can mediate apoptosis, is associated with the receptor for tumor necrosis factor, and is expressed on a limited number of human tissues. In this study we analyzed the expression of Fas on primary human leukemic cells and on mononuclear cells from other hematologic disorders. A total of 95 samples of blood or bone marrow were studied by indirect immunofluorescence. These samples included the normal controls, 47 cases of acute myelogenous leukemia (AML), 11 cases of acute lymphoblastic leukemia (ALL), 21 cases of leukemic lymphoma, seven cases of chronic myelogenous leukemia (CML), five cases of plasma cell leukemia or multiple myeloma, and five cases of myelodysplastic or myeloproliferative syndromes. Normal controls were negative without exception. Among AML, 13/47 cases (28%) were positive; among ALL, 1/11 cases (9%) was positive; among leukemic lymphomas, 3/21 cases (14%) were positive. In a case of plasma cell leukemia which strongly expressed the Fas antigen, we demonstrated that the antibody mediates cell lysis, which was synergistically enhanced by the addition of rabbit complement. In patients with AML, Fas positivity had no obvious clinical relevance. Taken together, our results show that approximately 30% of cases of AML and occasionally other leukemias express the Fas antigens, whereas normal controls are negative in our test system. These findings may be useful in the treatment of refractory leukemias or may permit the purging of autologous transplants.
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PMID:Expression of the Fas antigen on primary human leukemia cells. 753 54

To confirm the reported correlation of tumor necrosis factor-alpha (TNF-alpha) and interleukin-6 (IL-6) serum concentrations with nonhematologic toxicity after cytotoxic chemotherapy and to examine their possible effects on hematopoiesis, we evaluated serum TNF-alpha and IL-6 concentrations every 3 days during 21 chemotherapy cycles in 11 patients with acute myelogenous leukemia (AML) and one patient with chronic myelogenous leukemia in blast crisis (CML-BC). All patients developed grade IV hematologic toxicity. In 13 patient cycles, grade III-IV nonhematologic toxicity developed: hepatic (nine), pulmonary (six), and stomatitis (five). In these patient cycles, IL-6 concentrations increased from 10.1 pg/mL (4.6-15.6, 95% CI) before nonhematologic toxicity to 64.8 (5.3-124.2, 95% CI) at the onset of toxicity (p = 0.02). TNF-alpha concentrations were not detectable before nonhematologic toxicity but increased to 20.4 pg/mL (not detectable [ND]-45.5, 95% CI) at the onset of grade III-IV toxicity. In six patient cycles, grade II nonhematologic toxicity developed: hepatic (five), pulmonary (one), and stomatitis (two). In these six, IL-6 concentrations increased from 12.1 pg/mL (6.8-17.4, 95% CI) before toxicity to 21.4 (11-31.8, 95% CI) at the onset of toxicity (p = 0.03). TNF-alpha concentrations were detectable in one patient cycle before toxicity and detectable in only two patient cycles at the onset of toxicity. The peak IL-6 and TNF-alpha concentrations did not correlate with the onset of nonhematologic toxicity in 87% of patient cycles. In patient cycles with a cumulative IL-6 area-under-the-serum concentration vs. time curve (AUC) > 1000 pg/mL.d, platelet recovery (> 30 x 10(9)/L and platelet transfusion-independent) occurred earlier at 21.9 days (18.7-25.1, 95% CI) compared to the 30.6 days (23.6-37.5, 95% CI, p = 0.02) in patient cycles with an IL-6 AUC < 1000 pg/mL.d. Patient cycles with a cumulative TNF-alpha AUC > 150 pg/mL.d required a mean of 17.5 units of red blood cells (RBCs) (9.3-25.7, 95% CI) compared to patient cycles with an AUC < 150 pg/mL.d, which required only 8.9 units of RBCs (6.2-11.7, 95% CI, p = 0.03). The peak concentration and AUC for IL-6 and TNF-alpha were not significantly different between those receiving growth factors (G-CSF, six; GM-CSF, one) and those not receiving growth factors (14). Endogenous IL-6 and TNF-alpha serum concentrations increase in patients who experience nonhematologic toxicity and correlate with hematologic recovery after chemotherapy.
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PMID:The influence of serum tumor necrosis factor-alpha and interleukin-6 concentrations on nonhematologic toxicity and hematologic recovery in patients with acute myelogenous leukemia. 758 79

The effects of interferon-gamma (IFN-gamma) and/or tumor necrosis factor-alpha (TNF-alpha) on the growth of leukemic blast progenitors in 6 acute myeloblastic leukemia (AML) patients, 1 chronic myelocytic leukemia (CML) patient in blast crisis and a granulocyte colony-stimulating factor-(G-CSF-) dependent OCI/AML1a cell line established from an AML patient, were studied. Cells of fresh blood samples and the OCI-AML1a cell line were cultured in methylcellulose media and suspension culture in the presence of G-CSF, granulocyte-macrophage colony-stimulating factor (GM-CSF) or interleukin-3 (IL-3) supplemented as a growth stimulatory factor. Both cytokines suppressed the primary and secondary colony formation in methylcellulose culture of leukemic blast progenitors. The recovery of clonogenic cells in suspension culture was also suppressed by IFN-gamma and TNF-alpha. The primary colony formation in methylcellulose reflects the terminal divisions of leukemic blast progenitors, while the secondary colony formation in methylcellulose and the clonogenic cell recovery in suspension have been considered to reflect their self-renewal capacity. Therefore, IFN-gamma and TNF-alpha are considered to be effective in suppressing not only the terminal divisions but also self-renewal of leukemic blast progenitors. When both cytokines were added simultaneously to cultures, the suppressive effect of each cytokine was enhanced. The results may suggest the effectiveness of IFN-gamma and TNF-alpha in the treatment of leukemia.
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PMID:Combined effect of interferon-gamma and tumor necrosis factor-alpha causing suppression of leukemic blast progenitors in acute myeloblastic leukemia. 769 1


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