Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
 6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effects of six cycles of repeated cyclophosphamide (CTX) therapy followed by restorative therapy with either granulocyte-macrophage colony-stimulating factor (GM-CSF) or G-CSF on the hematopoietic stem cell compartment. Stem cell function was assessed by serially transferring bone marrow cells from CTX-CSF-treated mice into lethally irradiated recipient mice. Bone marrow cells from mice that initially received either G-CSF or GM-CSF after CTX therapy more rapidly lost the ability to repopulate the recipient lymphoid organs, showed a dramatic loss of hematopoietic progenitors, a more rapid loss of CFU-S capacity, and a 40% to 50% reduction in marrow repopulating ability (MRA). Interleukin-1 (IL-1) appeared to have little effect on the CTX-treated mice when used alone. However, when administered before the CTX-CSF regimen, IL-1 prevented the stem cell depletion as determined by CFU-C, CFU-S, and MRA through the serial transplantation procedures. These results support the hypothesis that repeated treatments with myelosuppressive drugs followed by stimulation with the CSFs may induce damage to the host stem cell compartment, and further suggest that pretreatment with IL-1 before CTX therapy may prevent this stem cell damage.
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PMID:Hematopoietic stem cell depletion by restorative growth factor regimens during repeated high-dose cyclophosphamide therapy. 137 52

To improve the safety of autotransplantation for myeloma, peripheral blood stem cell (PBSC) collection was attempted in 75 previously treated patients after the administration of high-dose cyclophosphamide (HD-CTX; 6 g/m2) with or without granulocyte-macrophage colony-stimulating factor (GM-CSF). Sixty patients subsequently received melphalan 200 mg/m2 (57 patients) or melphalan 140 mg/m2 and total body irradiation (850 cGy) (3 patients) supported by both autologous bone marrow and PBSC; 38 patients received GM-CSF posttransplantation. Among 72 patients undergoing PBSC apheresis, "good" mobilization (greater than 50 colony-forming units granulocyte-macrophage [CFU-GM] per 10(5) mononuclear cells) was achieved when prior chemotherapy did not exceed 1 year and when GM-CSF was used post-HD-CTX; similarly, rapid platelet recovery to 50,000/microL within 2 weeks was associated with "good" PBSC mobilization. These same variables also predicted for rapid engraftment after autotransplantation, so that hematologic recovery (granulocytes greater than 500/microL and platelets greater than 50,000/microL) proceeded within 2 weeks among the 37 patients with "good" PBSC collection. As a result of rapid neutrophil recovery (greater than 500/microL) within a median of 2 weeks, infectious complications both post-HD-CTX and posttransplant were readily manageable, resulting in only one treatment-related death post-HD-CTX. The cumulative response rate (greater than or equal to 75% cytoreduction) for all 75 patients was 68%, with 12-month event-free and overall survival projections of about 85%. Using both bone marrow and PBSC together with GM-CSF, autotransplants are safe and appear effective in myeloma, especially when prior therapy had been limited to less than 1 year. More than 80% of transplanted patients achieved complete hematologic recovery within a median of 1 month posttransplant (granulocytes greater than 1,500/microL; platelets greater than 100,000/microL; hemoglobin greater than 10 g%), thus providing sufficient hematopoietic reserve for further chemotherapy in the event of posttransplant relapse.
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PMID:Low-risk intensive therapy for multiple myeloma with combined autologous bone marrow and blood stem cell support. 139 37

The effects on bone marrow (BM) cell proliferation and differentiation of recombinant human interleukin-3 (rhIL-3) and recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) administered after high-dose (7 g/m2/d) cyclophosphamide (HD-CTX) chemotherapy were studied in nine patients with malignancies without BM involvement and in three control patients. rhIL-3 at a dose of 1 to 5 micrograms/kg/day was administered for 14 to 18 days by continuous intravenous (i.v.) infusion and rhGM-CSF was administered at a dose of 5.5 micrograms/kg/day for 14 days. Changes induced by cytokine treatment were assessed by morphoimmunohistochemical analysis of BM biopsies. Comparison was made in the cytokine-treated groups and with control patients who received HD-CTX alone. BM cellularity and the myeloid/erythroid (ME) ratio were lower in rhIL-3-treated than in rhGM-CSF-treated patients, but in both groups it was significantly higher than in the controls. The proportion of BM cells stained by PC10, a monoclonal antibody (MoAb) recognizing a proliferation-associated nuclear protein (PCNA), increased from 6.78% to 21.18% (P less than .02) after rhIL-3, and from 5% to 35.33% (P less than .001) after rhGM-CSF; no increase was observed in the control group. The frequency of CD34+ BM cells was unchanged after rhIL-3 (P = NS) and decreased after rhGM-CSF (P less than .001). In both groups, most of the PC10+ cells were represented by promyelocytes and myelocytes with no increase in blast cell numbers. rhIL-3-treated BM showed an increased number of megakaryocytes and increased proliferative activity of erythroid cells as compared with rhGM-CSF cases. BM stroma changes observed in both treated groups included endothelial cell proliferation, increased BM macrophage concentration, and increase in BM fibroblasts as detected with an anti-nerve growth factor receptor antibody. In most rhIL-3-treated cases, BM fibrosis developed after treatment. The same effect was not observed in rhGM-CSF patients.
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PMID:Recombinant human interleukin-3 and recombinant human granulocyte-macrophage colony-stimulating factor administered in vivo after high-dose cyclophosphamide cancer chemotherapy: effect on hematopoiesis and microenvironment in human bone marrow. 158 13

In this report we have used an in vitro assay for long-term culture-initiating cells (LTC-IC) to detect primitive hematopoietic progenitor cells (HPC) in the peripheral blood (PB) of cancer patients who received high-dose cyclophosphamide (HD-CTX) followed by a combination of recombinant hematopoietic growth factors (C-HGF) including either interleukin-3 (IL-3) + granulocyte colony-stimulating factor (G-CSF), IL-3 + granulocyte-macrophage colony-stimulating factor (GM-CSF) or IL-3/GM-CSF fusion protein (PIXY-321). In addition, we have developed a quantitative assay for cells capable of generating additional colony-forming cells (pre-CFC) as a means of determining primitive HPC present in mobilized PB cells. CD34+ human leukocyte A (HLA)-DR- cells isolated from the mobilized PB were capable of initiating long-term hematopoiesis in vitro that persisted for 10 weeks, while CD34+ HLA-DR- cells obtained from the nonmobilized PB or BM were capable of sustaining long-term hematopoiesis in vitro for only 4 weeks and 8 weeks, respectively. As determined by a limiting dilution analysis of mobilized PB CD34+ HLA-DR- cells, the frequency of pre-CFC was 4.3% (range, 1.0-8.3%). Pre-CFC comprised 0.01% (range, 0.001-0.02%) of mobilized PB mononuclear cells, and 151 pre-CFC were calculated to be present in one milliliter of mobilized PB (range, 20-310/ml). These results suggest that PB mononuclear cells collected by leukapheresis following mobilization with HD-CTX + C-HGFs contain not only differentiated HPCs but also more primitive HPC.
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PMID:Primitive hematopoietic progenitor cells are present in peripheral blood autografts. 753 39

In this report, we assess the content of primitive hematopoietic progenitor cells (HPC) that circulate transiently in the peripheral blood (PB) of cancer patients (group A) who received a PB stem-cell-mobilizing regimen that included high-dose chemotherapy (HD-CTX) of 7 g/m2 cyclophosphamide followed by a combination of recombinant hematopoietic growth factors (C-HGF), including either interleukin-3 (IL-3) plus granulocyte-colony stimulating factor (G-CSF), IL-3 plus granulocyte-macrophage colony-stimulating factor (GM-CSF), or a recombinant GM-CSF/IL-3 fusion protein (PIXY-321). These data were compared to the HPC content of PB obtained from a similar group of cancer patients that had not received such a mobilization regimen (group B). Monoclonal antibody staining and fluorescence-activated cell sorting (FACS) were used to identify and isolate cell populations enriched for more differentiated HPC (CD34+HLA-DR+) and more primitive HPC (CD34+HLA-DR-). The content of CD34+HLA-DR+ and CD34+HLA-DR- cells in the PB of group A patients was significantly greater than that observed in the PB of group B patients. In addition, HD-CTX plus C-HGF mobilization resulted in the appearance of greater numbers of PB colony-forming units-granulocyte/macrophage, -granulocyte/erythroid/macrophage/megakaryocyte, and -megakaryocyte (CFU-GM, CFU-GEMM, and CFU-Mk), and burst-forming units-erythroid and -megakaryocyte (BFU-E and BFU-Mk) than those observed in the PB of group B patients (p < 0.01). CD34+HLA-DR- cells isolated from the PB of group A patients were capable of initiating long-term hematopoiesis in vitro, which persisted for 10 weeks, while CD34+HLA-DR- cells obtained from the PB of group B patients were capable of sustaining long-term hematopoiesis in vitro for only 4 weeks. As determined by a limiting dilution analysis of group A PB CD34+HLA-DR- cells, the frequency of cells capable of giving rise to hematopoietic progenitor cells (pre-CFC) after 2 weeks in liquid culture was 4.3% (range 1.0-8.3%). Pre-CFC constituted 0.01% (range 0.001-0.02%) of group A PB mononuclear cells, and 151 pre-CFC were calculated to be present in 1 mL mobilized PB (range 20-310/mL). These results suggest that peripheral blood mononuclear cells (PBMC) collected by leukapheresis following HD-CTX plus C-HGF mobilization contain not only differentiated HPC but also more primitive HPC.
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PMID:Characterization and quantitation of primitive hematopoietic progenitor cells present in peripheral blood autografts. 808 76

Transforming growth factor-beta (TGF-beta) has been implicated in the in vivo resistance of the EMT-6/CTX and EMT-6/ CDDP murine mammary tumors. Both of these tumors have a higher number of intratumoral vessels than the EMT-6/ parent tumor. Animals bearing the resistant tumors have higher plasma levels of TGF-beta than animals bearing the parent tumors; however, upon treatment with cytotoxic therapies there is a greater rise in plasma TGF-beta levels in animals bearing the parent tumor than in animals bearing the resistant tumors. In situ hybridization for TGF-beta mRNA and immunohistochemical staining for TGF-beta protein showed that the resistant tumor levels of this growth factor are higher than those of the parent tumor prior to treatment; however, after cytotoxic therapy the increase in TGF-beta is greater in the parent tumor than in the resistant tumors. Treatment of tumor-bearing animals with the naturally occurring TGF-beta inhibitor decorin did not alter the sensitivity of the parent tumor to cyclophosphamide or to CDDP as determined by tumor cell survival assay. However, administration of decorin increased the sensitivity of the EMT-6/CTX tumor to cyclophosphamide and of the EMT-6/CDDP tumor to CDDP so that the drug resistance of these tumors was nearly ablated. A similar pattern was observed in the drug response of the bone marrow granulocyte-macrophage colony-stimulating factor of animals bearing each of the 3 tumors.
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PMID:Reversal of in vivo drug resistance by the transforming growth factor-beta inhibitor decorin. 909 65

This phase I randomized study was designed in order to verify if the sequential administration of filgrastim, a granulocyte colony-stimulating factor (G-CSF), and molgramostim, a granulocyte-macrophage colony-stimulating factor (GM-CSF), was superior to filgrastim alone in improving tolerance of dose-intensified carboplatin (CBDCA), cyclophosphamide (CTX), and etoposide (VP-16). A group of 10 heavily pretreated patients with stage IV disease and no therapeutic option were enrolled into the study. They received two courses of the same chemotherapy with CTX and VP-16 at doses of 1,500 mg/m2 and 400 mg/m2, respectively. CBDCA doses were escalated from 450 to 600 mg/m2. After chemotherapy each patient was allocated randomly to receive either 14 days of G-CSF (arm A) or 7 days of G-CSF followed by 7 days of GM-CSF (arm B). Crossover in the second chemotherapy course was accomplished. Both G-CSF and GM-CSF were given 5 microg/kg/day, subcutaneously. Twenty chemotherapy courses are evaluable, 10 in each arm. Absolute neutrophil count < 1 x 10(3)/microl was observed for 54 days in arm A vs. 68 days in arm B (P < 0.02); platelet (PLT) count < 20 x 10(3)/microl, 57 days vs. 30 days (P < 0.01); days of hospitalization 35 vs. 16 (P < 0.38); PLT transfusion, 107 vs. 58 (P < 0.01); packed red blood cell unit transfusions, 15 vs. 5 (P < 0.13). Seven patients had responses. These data indicate that dose-intensified chemotherapy may be delivered without bone marrow or peripheral stem cell support, with acceptable toxicity, and that, while G-CSF alone shortens days of neutropenia, the combination of the two cytokines shortens the time of thrombocytopenia and decreases the number of PLT transfusions.
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PMID:Randomized trial of filgrastim vs. sequential filgrastim and molgramostim after dose-intensified carboplatin, cyclophosphamide, and etoposide: a phase I pilot study. 912 2

The biological mechanisms by which the association of interleukin-3 (IL-3) and granulocyte-macrophage colony-stimulating factor (GM-CSF) is expected to effectively reduce the hematological toxicity associated with chemotherapy (CT) are not completely elucidated. We exploited the cell kinetic changes of the bone marrow CD34(+) cell subset after CT followed by the IL-3+GM-CSF together with the clinical effects of this association. Eighteen patients with advanced cancers and normal hematopoiesis were treated with an intensified CT course (mg/m(2): CTX 1100, epirubicin 100, VP-16 200; iv day 1). Six cycles were planned at 14-day intervals with the support of IL-3 (5 mu g/kg/day; from day 2 to 6) sequenced with GM-CSF (same dose; from day 7 to 11). DNA content and bromodeoxyuridine incorporation were evaluated using flow cytometry on immunomagnetically-sorted bone marrow CD34(+) cells, at baseline and at different times (days 5, 6, 7, 8, 11 and 14) after CT followed by IL-3+GM-CSF. Treatment with IL-3 induced a marked increase in the % of myeloid precursors with respect to the baseline and in the % of CD34(+) cells in S-phase. However, while the first parameter remained elevated until day 14, the enhanced proliferative activity of the CD34(+) cell subset decreased after IL-3 was stopped and remained significantly low during GM-CSF administration. These data suggest a negative rebound effect on CD34(+) cell proliferation after IL-3 discontinuation which is maintained during GMCSF, that led to kinetic refractoriness of the hyperplastic marrow. In the 99 courses completed a rapid neutrophil and platelet recovery was obtained without cumulative multilineage toxicity. The modifications of CD34(+) cell cycling after CT followed by IL-3+GM-CSF could provide additional myeloprotection during multicyclic, dose-intensive programs.
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PMID:Sequential administration of interleukin-3 and granulocyte-macrophage colony-stimulating factor following intensified, accelerated CEE (cyclophosphamide, epirubicin, etoposide) chemotherapy in patients with solid tumors. 2154 3

The aim of this study is to investigate the protective effects of a small molecular fraction (SMF) of Polygoni multiflori Radix Praeparata (PMRP) in a cyclophosphamide (CTX) induced anemia mouse model. Small molecular fraction of PMRP was prepared and identified by high-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (HPLC-Q-TOF-MS). In pharmacology, we examined the peripheral hemogram and thymus and spleen index. The content of granulocyte-macrophage colony-stimulating factor (GM-CSF) in serum was mensurated by enzyme-linked immunosorbent assay (ELISA); The level of superoxide dismutase (SOD), catalase (CAT), total antioxidant capacity (T-AOC), and malondialdehyde (MDA) in serum and spleen tissue homogenate were detected, and glutathione peroxidase (GSH-PX) was assayed in spleen. The results show that SMF can significantly accelerate the recovery of peripheral hemogram, increase the activity of antioxidant enzymes and GM-CSF in serum and spleen. SMF also increases the number of spleen cells, improves bone marrow pathology. In conclusion, the SMF of PMRP promoted the recovery of hematopoietic function in a CTX-induced anemia mouse, which can support SMF to be used as an adjunct to chemotherapy to counteract its side effects.
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PMID:Hematopoietic effect of small molecular fraction of Polygoni multiflori Radix Praeparata in cyclophosphamide-induced anemia mice. 3151 85