UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of granulocyte (G) and granulocyte-macrophage (GM) colony stimulating factor (CSF) genes in human cells of astroglial lineage was studied. Primers for CSFs were used to analyze RNA transcripts in 5 cultured human astrocytoma cell lines and 8 fresh brain specimens by polymerase chain reaction. Constitutive expression of mRNA transcripts of GM-CSF could be detected in all astrocytoma and one neuroblastoma cell lines, and two out of 5 unstimulated astrocytomas, U87MG and U138 MG, expressed G-CSF genes. After stimulation with interleukin (IL)-1 beta + tumor necrosis factor (TNF)-alpha, all cell lines expressed G-CSF. In addition to the cultured cells, we examined gene expression within human malignant astrocytoma, peritumoral brain and autopsied normal brains. The results show that some of the tumor and its surrounding reactive lesions express G- and GM-CSF genes but normal brains do not. The concentration of G- and GM-CSF in supernatants of cultured cells was assessed at the protein level by ELISA. A low level of GM-CSF activity was constitutively present in all astrocytomas. G-CSF was detected in unstimulated U87MG and U138MG and other cell lines could synthesize G-CSF after the stimulation of IL-1 beta and TNF-alpha at the level of mRNA. Furthermore, the concentration of CSFs increased markedly upon stimulation with IL-1 beta and/or TNF-alpha in both a time- and dose-dependent fashion. From these results, it is suspected that astroglial cell-derived CSFs may participate in local immune reactions accompanying infection, degeneration and malignancies in the brain.
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PMID:Expression of granulocyte colony stimulating factor and granulocyte-macrophage colony stimulating factor genes in human astrocytoma cell lines and in glioma specimens. 137 84

Bone marrow harvested from cancer patients for autologous bone marrow reinfusion (ABMR) after myeloablative treatment may be injured, in both its proliferating and stromal cell pools, by either previous treatment or manipulation at the time of harvest. We have examined the relative effects of seven covariates on hematologic recovery after ABMR in children with neuroblastoma (NBL) using univariate and step-up analysis. We measured recovery by times to achieve (1) white blood cell counts greater than 1,000/microL; (2) absolute neutrophil counts greater than 500/microL; and (3) platelet counts greater than 20,000/microL without transfusion. In univariate analysis, recovery was significantly associated with the amount of prior chemotherapy and the interval between last chemotherapy and marrow harvest. Patient sex, the number of granulocyte-macrophage colonies infused, harvest-to-freeze interval, and use of purging were marginally associated. After adjusting for potential confounders in a multivariate model, the amounts of chemotherapy and granulocyte-macrophage colonies infused were independently significant predictors of time to total white blood cell count recovery; chemotherapy courses and chemo-to-harvest interval were predictors of neutrophil count recovery; and sex, use of purging, and harvest-to-freeze interval were marginal predictors of platelet recovery. The speed of hematologic recovery after ABMR seems to depend mainly on pre-existing factors and marginally on manipulation of the marrow after harvest. These factors may affect both proliferating and stromal cell pools.
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PMID:Myeloablative chemoradiotherapy and autologous bone marrow infusions for treatment of neuroblastoma: factors influencing engraftment. 188 27

An anti-GD2 ganglioside human/mouse chimeric monoclonal antibody, ch14.18, like its murine counterpart, 14.G2a, was shown to bind to human neuroblastoma cells. This chimeric antibody proved to be more effective than 14.G2a in mediating the lysis of neuroblastoma cells with human effector cells, such as granulocytes and natural killer cells within the peripheral blood mononuclear cell population. A comparison of these two effector cell populations isolated from the same donor revealed granulocytes to be more effective than peripheral blood mononuclear cells in lysing neuroblastoma cells, which were coated with monoclonal antibody ch14.18. Addition of recombinant human granulocyte-macrophage colony-stimulatory factor increased ch14.18-mediated lysis of neuroblastoma cells by granulocytes but not by peripheral blood mononuclear cells. In fact, granulocytes were effective in mediating lysis of neuroblastoma cells coated with ch14.18 irrespective of whether they were obtained from normal adults or from neuroblastoma patients.
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PMID:Effect of a chimeric anti-ganglioside GD2 antibody on cell-mediated lysis of human neuroblastoma cells. 198 79

To develop an effective neuroblastoma (NB) purging condition, we have compared in vitro cytotoxicity of 6-hydroxydopamine (6-OHDA) and ascorbic acid, with 4-hydroperoxycyclophosphamide (4-HC) on three NB cell lines (SK-N-BE2, SMS-SAN, and LA-N-1) and also upon human hematopoietic stem cells. Our study included mixing NB cells with 20-fold excess of irradiated bone marrow buffy coat cells to simulate the borderline remission marrow. When NB cells were treated without marrow cells, all three NB cell lines were very sensitive to 6-OHDA; complete inhibition of SK-N-BE2 and SMS-SAN cells was achieved at 10 micrograms/ml, and greater than 4 log inhibition of LA-N-1 was observed at 100 micrograms/ml of 6-OHDA. Addition of marrow cells caused marked reduction of the 6-OHDA-induced cytotoxicity of NB cells, and under similar conditions, colony-forming units-granulocyte-macrophage (CFU-GM) growth was not inhibited significantly. In the absence of normal marrow cells, 60 minutes of treatment with 100 microM of 4-HC produced complete inhibition (greater than 4.5 log) of SK-N-BE2 and SMS-SAN cells, greater than 4 log inhibition of LA-N-1 cells, and 97% of CFU-GM. Addition of marrow cells reduced the cytotoxicity of 4-HC, and 100 microM of 4-HC produced 99.8% inhibition of LA-N-1 colony growth. Shortening incubation duration to 30 minutes resulted in further reduction of 4-HC cytotoxicity; 100 microM of 4-HC caused 98.3%, 45%, and 33% inhibition of LA-N-1 cells, marrow CFU-GM, and burst-forming units-erythrocytes (BFU-E), respectively. At 200 microM, complete inhibition (greater than 4 log) of LA-N-1 colony growth was noted, and 9.9% of CFU-GM and 9.3% of BFU-E growth was observed. These data favor the use of 4-HC for purging marrow of NB, cells in the clinical autologous marrow transplantation.
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PMID:In vitro chemopurification of neuroblastoma cells: comparison of 6-hydroxydopamine and ascorbic acid with 4-hydroperoxycyclophosphamide. 251 15

A murine IgG2a monoclonal antibody, termed 6-19, was characterized in terms of its ability to bind to human cell lines and tissues. The hybridoma was selected for antibody binding to multiple human neuroblastoma cultured cell lines but not to peripheral blood mononuclear cells. 6-19 binds to the cell surface of all cultured human nonhematopoietic tumor cell lines tested, to cultured human fibroblasts and endothelial cells, and to nonhematopoietic tumors of many types. It does not bind detectably to any hematopoietic cells, leukemia cells, or lymphomas. In the presence of complement, 6-19 is very cytotoxic to cultured human neuroblastoma cells but not to bone marrow granulocyte-macrophage colony-forming cells. The 6-19 monoclonal antibody may prove useful in the identification or destruction of tumor and stromal cells in bone marrow.
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PMID:A monoclonal anti-neuroblastoma antibody that discriminates between human nonhematopoietic and hematopoietic cell types. 354 5

Three previously unreported mouse monoclonal antibodies are described. All three bind to cultured human neuroblastoma cells from six of six cell lines, but do not detectably bind to human bone marrow cells. The two IgG2a monoclonal antibodies bind to greater than 98% of the cultured cells from each cell line, bind to six of six human neuroblastoma tumors by immunoperoxidase histochemistry, and are cytotoxic with complement to cultured human neuroblastoma cells but not to human bone marrow granulocyte-macrophage colony-forming cells.
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PMID:Anti-neuroblastoma monoclonal antibodies which do not bind to bone marrow cells. 388 30

Neutrophils mediate the lysis of human neuroblastoma cells coated with human/mouse chimeric anti-GD2 ganglioside antibody ch14.18. This study examined the mechanism(s) by which this occurs. Neutrophil degranulation was found to be a required step for lysis, since release of granular enzymes from neutrophils correlated with the lysis of antibody-coated neuroblastoma cells. In addition, agents which block degranulation specifically inhibited this process. Antibody-dependent lysis of neuroblastoma cells was enhanced by exposing neutrophils to granulocyte-macrophage colony stimulatory factor. An increased release of lytic granular molecules was found to be responsible for this lymphokine-mediated phenomenon. Among the molecules released from neutrophil granules that were shown to be involved in neuroblastoma cell lysis were defensins, M(r) 3000-4000 neutrophil granular proteins which are known to bind and permeabilize tumor cells. In addition, cathepsin-G, a neutrophil granular protease, was demonstrated for the first time to mediate the lysis of human neuroblastoma cells. The enzymatic activity of cathepsin-G was found to be required for the lysis of these tumor cells, since phenylmethylsulfonyl fluoride blocks the lytic ability of this protein.
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PMID:A mechanism for neutrophil-mediated lysis of human neuroblastoma cells. 841 29

High-dose chemotherapy (HDC) followed by autologous blood stem cell transplantation (ABSCT) was performed to improve the prognosis of children with metastatic neuroblastoma over 1 year of age at diagnosis. Seven stage IV neuroblastoma patients with a median age of 3.9 years (range 1.6-11.4 years) received conventional chemotherapy before leukapheresis for ABSCT. The median duration of chemotherapy before harvest was 8 months (range 3-23 months). Peripheral blood stem cells (PBSC) were harvested from them after the use of cytotoxic drugs plus granulocyte colony-stimulating factor. The median number of granulocyte-macrophage colony forming units collected after harvest was 23.2 x 10(4)/kg (range 10.1-45.3 x 10(4)/kg). The patients were administered HDC consisting of carboplatin, etoposide, and melphalan followed by ABSCT. Hematopoietic reconstitution after ABSCT was favorable; recovery of granulocytes count > 0.5 x 10(9)/L occurred within 2 weeks and stable platelet engraftment occurred at a median duration of 23 days (range 7-33 days). The toxicity of ABSCT was well tolerable. Two of the four patients who received ABSCT at their first complete remission remained in remission 67 and 68 months after ABSCT. One with partial remission also showed a good response for 8 months. The other two at first relapse showed a transient regression of the tumor. The prognosis of seven patients who received ABSCT was significantly better than that of 13 patients who received conventional therapy alone. These findings suggest that HDC followed by ABSCT is safe and useful as consolidation therapy for the treatment of patients with metastatic neuroblastoma.
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PMID:High-dose chemotherapy and autologous blood stem cell transplantation in children with metastatic neuroblastoma. 912 54

In this prospective trial, a total of 74 children who were scheduled to undergo high-dose chemotherapy followed by autologous peripheral blood stem cell transplantation (PBSCT) were prospectively randomized at diagnosis to evaluate the effectiveness of exogenous granulocyte colony-stimulating factor (G-CSF) treatment in accelerating hematopoietic recovery after PBSCT. The diagnosis included acute lymphoblastic leukemia (ALL) (n = 27), neuroblastoma (n = 29), and miscellaneous solid tumors (n = 18). Eligibility criteria included (1) primary PBSCT, (2) chemotherapy-responsive disease, and (3) collected cell number >1 x 10(5) colony-forming unit-granulocyte-macrophage (CFU-GM)/kg and >1 x 10(6) CD34(+) cells/kg patient's body weight. After applying the above criteria, 11 patients were excluded due to disease progression before PBSCT (n = 6) or a low number of harvested cells (n = 5), leaving 63 patients for analysis; 32 patients in the treatment group (300 microg/m2 of G-CSF intravenously over 1 hour from day 1 of PBSCT) and 31 in the control group without treatment. Two distinct disease-oriented high-dose regimens without total body irradiation consisted of the MCVAC regimen using ranimustine (MCNU, 450 mg/m2), cytosine arabinoside (16 g/m2), etoposide (1.6 g/m2), and cyclophosphamide (100 mg/kg) for patients with ALL, and the Hi-MEC regimen using melphalan (180 mg/m2), etoposide (1.6 g/m2), and carboplatinum (1.6 g/m2) for those with solid tumors. Five patients (two in the treatment group and three in the control group) were subsequently removed due to protocol violations. All patients survived PBSCT. The median numbers of transfused mononuclear cells (MNC), CD34(+) cells, and CFU-GM were, respectively, 4.5 (range, 1 to 19) x 10(8)/kg, 8.0 (1.1 to 25) x 10(6)/kg, and 3.7 (1.2 to 23) x 10(5)/kg in the treatment group (n = 30) and 2.9 (0.8 to 21) x 10(8)/kg, 6.3 (1.1 to 34) x 10(6)/kg, and 5.5 (1.3 to 37) x 10(5)/kg, respectively, in the control group (n = 28), with no significant difference. After PBSCT, the time to achieve an absolute neutrophil count (ANC) of >0.5 x 10(9)/L in the treatment group was less than that in the control group (median, 11 v 12 days; the log-rank test, P =.046), although the last day of red blood cell (RBC) transfusion (day 11 v day 10) and the duration of febrile days (>38 degrees C) after PBSCT (4 v 4 days) were identical in both groups. However, platelet recovery to >20 x 10(9)/L was significantly longer in treatment group than control group (26 v 16 days; P =.009) and >50 x 10(9)/L tended to take longer in the treatment group (29 v 26 days; P =.126), with significantly more platelet transfusion-dependent days (27 v 13 days; t-test, P =.037). When patients were divided into two different disease cohorts, ALL patients showed no difference in engraftment kinetics between the G-CSF treatment and control groups, while differences were seen in those with solid tumors. We concluded that the marginal clinical benefit of 1 day earlier recovery of granulocytes could be offset by the delayed recovery of platelets. We recommend that the routine application of costly G-CSF therapy in children undergoing PBSCT should be seriously reconsidered.
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PMID:Marginal benefit/disadvantage of granulocyte colony-stimulating factor therapy after autologous blood stem cell transplantation in children: results of a prospective randomized trial. The Japanese Cooperative Study Group of PBSCT. 1036 54

Shortening of telomeres along with an up-regulation of telomerase is implicated in the immortality of tumor cells. Targeting either telomeres or telomerase with specific compounds has been proposed as an anticancer strategy. Because telomerase activity and telomeres are found in normal cells, telomere or telomerase targeting agents could induce side effects in normal tissues. We evaluated the effects of telomere and telomerase interactive agents in human tumor and normal cell lines to try to determine the potential side effects those agents might induce in patients. Toxicity of the G-quadruplex interactive porphyrins (TMPyP4, TMPyP2) and azidothymidine (AZT) were tested using a cell-counting technique against normal human cell lines (CRL-2115 and CRL-2120, fibroblasts; NHEK-Ad, adult keratinocytes; CCL-241, small intestinal cells; NCM 460, colonic mucosal epithelial cells) and human tumor cell lines (MDA-MB 231 and Hs 578T, breast cancer; SK-N-FI, neuroblastoma; HeLa, cervix cancer; MIA PaCa-2, pancreatic cancer; HT-29 and HCT-116, colon cancer; DU 145, prostatic cancer cell line). Telomerase activity of these cell lines was measured by a non-PCR-based conventional assay. The effects of TMPgammaP2, TMPyP4, and AZT were also evaluated against normal human bone marrow specimens, using a granulocyte-macrophage colony-forming assay (CFU-GM). AZT showed very low cytotoxic effects against normal and tumor cell lines, with the IC50 values above 200 microM. The IC50 values for TMPyP2 and TMPyP4 in normal human cell lines were in the range of 2.9-48.3 microM and 1.7-15.5 microM, respectively, whereas in tumor cell lines the IC50 values were 11.4-53 microM and 9.0-28.2 microM, respectively. Within the tissue types, keratinocytes were more sensitive to TMPyP4 than fibroblasts, and small intestinal cells were more sensitive than colonic mucosal epithelial cells. The IC50 for TMPyP2 and TMPyP4 in the normal marrow colony-forming assays were 19.3 +/- 5.1 microM and 47.9 +/-1.0 microM, respectively. In conclusion, the in vitro cytotoxicity of the telomere interactive agent TMPyP4 is comparable in human tumor and normal cell lines, which indicates that TMPyP4 could have effects on normal tissues.
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PMID:Effect of telomere and telomerase interactive agents on human tumor and normal cell lines. 1074 25

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