EC:2.1.1.69 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.1.1.69 (BMT)
2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sera from 11 patients undergoing autologous or allogeneic BMT were tested for their content of megakaryocytic, granulocytic and erythrocytic colony stimulating factors. During the first week after BMT, all patients sera revealed a low/inadequate production of granulocytic, erythrocytic and megakaryocytic colony-stimulating activity (defined as the number of colonies per plate induced by 30% test serum from monocyte and T-lymphocyte depleted bone marrow cells). Thereafter an increase of colony-stimulating activity for all cell lineages tested was observed with peak levels between days 8 to 14 after BMT. The peak level was followed by a decline of colony stimulating activity, which shows an inverse correlation to basal blood leukocyte counts suggesting an adequate counter-regulation during this period. The GM colonies grown in the presence of patient serum were found to consist largely of neutrophilic granulocytes with only single monocytic colony, but without eosinophilic colony formation, suggesting that granulopoietic colony formation during this period is mediated predominantly by G-CSF and not by GM-CSF. All patients undergoing autologous BMT revealed a low/inadequate endogenous CSF production. rh GM-CSF addition in vitro was able to compensate from the impaired endogenous granulopoietic CSA in all patients and resulted in a constant augmentation of granulopoietic colony formation. The percentage of eosinophilic colony formation showed an inverse correlation to endogenous CSF production also suggesting that G-CSF is secreted during this period. In contrast to the granulopoietic colony formation, erythropoietic and megakaryopoietic colony formation was not enhanced by GM-CSF addition in vitro and even showed a slight reduction in some experiments. Our results suggest the treatment with recombinant GM-CSF might be beneficial for a faster reconstitution of granulo-monocytopoiesis after BMT, that rh GM-CSF therapy should be started immediately after bone marrow transplantation and that G-CSF is the main factor secreted in allogeneic bone marrow transplantations in the regeneration period.
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PMID:Serum colony stimulating factors in patients undergoing bone marrow transplantation: enhancing effect of recombinant human GM-CSF. 307 43

G-CSF and GM-CSF enhance the rate of neutrophil engraftment in autologous bone marrow transplantation (ABMT) without significantly affecting platelet engraftment. Peripheral blood progenitor cells (PBPC) may enhance rates of engraftment of both neutrophils and platelets. We treated 49 patients undergoing ABMT with a course of G-CSF to obtain PBPC and infused these cells post-transplant with G-CSF in an attempt to determine factors which might correlate with enhanced BM engraftment. Forty-nine patients with Hodgkin's disease, non-Hodgkin's lymphoma or breast cancer undergoing unpurged ABMT were studied. G-CSF priming consisted of an outpatient 8 day course of 5 micrograms/kg/day followed by three leukaphereses (on day 5, 7 and 8) to collect PBPC. Patients then received a chemotherapeutic BMT preparative regimen followed by an infusion of PBPC, autologous BM and the reinstitution of G-CSF (16 micrograms/kg/day). BM engraftment was rapid. The median time to achieve 0.5 x 10(9)/l neutrophils was 10 days compared with a historical BMT control patient population receiving the same preparative regimens of 19 days (p = 0.001). Time to achieve a platelet count of 20 x 10(9)/l was 16 days compared with a historical control of 22 days (p = 0.001). Neutrophil engraftment occurred in all patients by day +14. Marrow engraftment correlated with the total number of CD34+ cells infused as well as the total number of mononuclear cells infused but not the total number of CD34+/CD33- cells infused. The amount of total blood volume pheresed significantly correlated with yield of total mononuclear cells. Prior exposure to radiation therapy negatively correlated with progenitor cell yield.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:G-CSF primed peripheral blood progenitor cells in autologous bone marrow transplantation: parameters affecting bone marrow engraftment. 751 Oct 16

A 26-year-old man was admitted to our hospital with cervical tumor and facial edema on July 8, 1991. Examination of chest X-ray and chest CT showed a bulky tumor in the mediastinum and pleural effusion. A pathological diagnosis of non-Hodgkin's lymphoma (diffuse large cell, immunoblastic type) was made by biopsy of the cervical lymph node. MACOP-B chemotherapy or other combination chemotherapy did not achieve complete remission. The man was given a preparative regimen consisting of busulfan at 16 mg/kg orally and 60 mg/kg of etoposide (Bu-Et); 30 mg/kg of etoposide was administered by continuous intravenous infusion for 12 hours on day-5 and day-4, before he received autologous bone marrow on February 20. He was then given 300 micrograms of G-CSF was given to him to accelerate recovery of hematopoiesis from one day after BMT. The neutrophil count to 500/microliters recovered on day 28, and residual tumors disappeared. Although moderate-grade stomatitis and nasal bleeding developed, these toxicities were controllable and no veno-occlusive disease resulted. Regimen-related toxicities of Bu-Et preparatory regimen have been generally considered to be severe, but continuous and separate administration of etoposide as reported in this case may be useful to reduce side effects of this preparatory regimen.
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PMID:[Autologous bone marrow transplantation following high-dose busulfan and etoposide for a patient with non-Hodgkin's lymphoma]. 751 89

Recombinant human glycosylated G-CSF (rhG-CSF) may stimulate proliferation of myeloid leukemia cells and thereby increase their susceptibility to anti-cancer agents. By in vitro colony assay, the rhG-CSF-responsive NFS-60 leukemic cell clones are more effectively killed by Ara C in the presence of rhG-CSF than in the absence of rhG-CSF, while the killing of the rhG-CSF-unresponsive HL-60 cell clones is unaffected by rhG-CSF. Leukemia cell colony forming units (L-CFU) derived from most AML patients demonstrate similar results to those of the NFS-60 cell clone when treated in vitro. Encouraged by these in vitro results, we used rhG-CSF as a component of a conditioning regimen for 15 relapsed AML patients who were receiving allogeneic BMT. The patients were conditioned with total body irradiation (TBI) and high-dose Ara C. rhG-CSF was infused continuously at a dose of 5 micrograms/kg/day from 24 h before the beginning of TBI to the end of Ara C therapy. Proliferation of the leukemia cells in vivo in response to rhG-CSF was confirmed in 7 of 14 patients tested and the combined use of rhG-CSF had no additional adverse effects. After BMT, four patients died of non-leukemic causes and three patients had leukemic relapse: the other eight patients have remained disease-free for 200-1600 (median 417) days. The actuarial probabilities of relapse and disease-free survival (DFS) at 4.4 years after BMT were 43.2% and 41.7%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Recombinant human glycosylated granulocyte colony-stimulating factor (rhG-CSF)-combined regimen for allogeneic bone marrow transplantation in refractory acute myeloid leukemia. 751 98

Administration of G- and GM-CSF increases the neutrophil counts in a number of clinical situations. GM-CSF shows the additional effect of increasing the number of monocytes and eosinophil granulocytes. Both G- and GM-CSF affect of neutrophil functions, in the case of GM-CSF there are some potentially negative effects on neutrophil migration and adhesiveness. The clinical relevance of the various effects on mature haematopoietic cells is not fully understood. Clinical data with G-CSF treatment indicate that increased levels of neutrophil granulocytes following cytotoxic chemotherapy may translate into clinical benefit such as a decreased rate of neutropenic infection and an increased cytotoxic chemotherapy dose even though the data are conflicting and the risk of "laboratory cosmetics" is apparent. Regarding treatment with GM-CSF following chemotherapy, the clinical benefit is unclear. The clinical benefit of GM-CSF-induced monocytes and eosinophils is unknown. G- and GM-CSF accelerates neutrophil recovery following autologous or allogeneic BMT. The influence on neutropenic infections is, however, less impressive. Pretreatment with G- or GM-CSF increases the yield of peripheral stem cell harvest, thereby reducing the number of leukaphereses needed. Transplantation of G- and GM-CSF primed autologous peripheral stem cells tends to reduce the period of post-transplant cytopenia, particularly thrombocytopenia, in comparison with traditional ABMT. In patients with MDS, G- and GM-CSF appear to increase the number of neutrophil granulocytes and there is some evidence that patients with severe infectious problems will benefit from this treatment. However, little influence was seen on the main clinical problems with these patients, which are anaemia and thrombocytopenia. In conclusion, G- and GM-CSF are two different proteins with different properties in vivo and in vitro. GM-CSF has, compared with G-CSF, more complex pharmacological effects and a more trouble-some side-effect profile. Early clinical development indicates that both compounds have a substantial influence on the levels of certain blood cells. Whether the increases in different blood cells translate into long-term clinical benefit for greater patient groups is the focus of ongoing research. The effects of G- and GM-CSF may be potentiated by other cytokines, an area which is presently being explored.
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PMID:G- and GM-CSF in oncology and oncological haematology. 751 79

The hemopoietic growth factor filgrastim (r-metHu G-CSF) stimulates granulopoiesis after autologous BMT and can also be used as a peripheral blood progenitor cell (PBPC)-mobilizing agent. Rapid platelet recovery follows the addition of filgrastim-mobilized PBPC to autologous BMT. We have now studied 29 adults with malignant lymphoma, Hodgkin's disease or ALL to assess the ability of filgrastim-mobilized PBPC to rapidly and durably restore hemopoiesis without bone marrow (BM) infusion. Patients with a high yield of PBPC from three leukaphereses, defined as > 30 x 10(4)/kg GM-CFC, were eligible for PBPC transplant without BM. Patients with a low yield of GM-CFC received both PBPC and BM infusion. After filgrastim therapy 12 or 24 micrograms/kg/day by continuous sc infusion for 6 or 7 days, a high yield was obtained in 11 of 29 patients. Kinetics of recovery of both the platelet and neutrophil counts were more rapid in the high yield group than in the low yield group. The platelet count recovered to > 20 x 10(9)/l at a median of 9 days, to > 50 x 10(9)/l at 11 days and the neutrophil count to > 0.5 x 10(9)/l at 9 days in the high yield group compared with 12 days, 37 days and 10 days, respectively, in the low yield group (p = 0.028, p < 0.001 and p = 0.027). Fewer platelet transfusions were required in the high yield group (median 11 vs 29.5 units, p = 0.021).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phase II study of autologous filgrastim (G-CSF)-mobilized peripheral blood progenitor cells to restore hemopoiesis after high-dose chemotherapy for lymphoid malignancies. 752 4

The treatment effect of immunoselected allogeneic CD34+ blood cells was evaluated in two patients with poor graft function following BMT without evidence for immune-mediated rejection. Patient A had no signs of hematopoietic recovery up to day +34 post-BMT and patient B had normal leukocyte counts only with G-CSF support and remained platelet transfusion-dependent for > 200 days post-BMT. PBPC from the HLA-identical sibling BM donors were mobilized with G-CSF (2 x 5 micrograms/kg sc daily) for 5 days. Aphereses were performed on days 4 and 5 of G-CSF administration. CD34+ cells were separated from the pooled PBPC concentrates by immunoadsorption with the anti-CD34 moAb 12.8 in a biotin-avidin system. Patient A received 0.4 x 10(6) CD34+ and 4.3 x 10(5) CD3+ cells/kg body weight and patient B 3.4 x 10(6) CD34+ and 1.4 x 10(5) CD3+ cells/kg body weight. The trilineage repopulation of BM and the rapid improvement of peripheral blood parameters correlated with CD34+ cell infusion. Patients' blood and BM cell analyses proved the donor origin. Patient A died from CMV pneumonitis and multiorgan failure 27 days after CD34+ cell infusion (day +61 post-BMT). Patient B is still stable and in remission 260 days after CD34+ cell infusion (day +478 post-BMT). Neither patient suffered further exacerbation of GVHD). Thus, immunoselected allogeneic CD34+ blood cells might be appropriate for treatment of post-BMT graft failure.
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PMID:Treatment of poor marrow graft function with allogeneic CD34+ cells immunoselected from G-CSF-mobilized peripheral blood progenitor cells of the marrow donor. 753 62

The introduction of hematopoietic growth factors (HGFs) offers new opportunities for autologous transplantation by facilitating and enriching collection of circulating progenitor cells from peripheral blood as a source of stem cell rescue. Substitution of peripheral blood progenitor cells (PBPC) from bone marrow in autologous transplantation for therapy in advanced cancers requires clinical and economic assessment. We carried out the first clinical and cost-effectiveness study in an experimental group of 16 patients autografted with PBPC primed by G-CSF alone and with G-CSF stimulation post-transplantation, comparing these with two other groups of 17 and 21 patients who received autologous bone marrow transplantation with and without G-CSF stimulation, respectively, post-transplantation. We confirmed the ability of primed PBPC to achieve durable engraftment in a shorter time than classical BMT (median number of days to reach 0.5 x 10(9)/l neutrophils = 10.5 versus 12 and 16, respectively) to improve overall hematological recovery (median number of days to recover a platelet count > or = 25 x 10(9)/l, independent of platelet transfusion = 14.5 vs 23 and 20) and to shorten length of hospitalization. Total costs of PBPC autografting remain lower than those of autologous BMT either with or without G-CSF, and cost-effectiveness ratios using hematological recovery end points are in favour of PBPC. Finally, PBPC is a safe and effective way of performing dose-intensification in cancer patients, although further improvements are required to optimize the procedure and so further decrease the costs.
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PMID:Comparison of G-CSF-primed peripheral blood progenitor cells and bone marrow auto transplantation: clinical assessment and cost-effectiveness. 753 70

We have evaluated the use of iso-osmolar Percoll density gradients to enrich CD34+ hematopoietic progenitor cells and to reduce T cells for purposes of bone marrow or mobilized peripheral blood cell transplantation (BMT or PBCT). Samples from 12 normal BM donors and 11 patients undergoing mobilization of PB cells using chemotherapy and G-CSF were placed over a five-step density gradient from 40 to 50% Percoll. In BM, low-density fractions 1 to 3 (40 to 45% Percoll) accounted for 3% of starting nucleated cells with a 10- to 20-fold enrichment of hematopoietic progenitors (CD34+ cells) and a 20-fold reduction of CD4+ and CD8+ T cells. In PB, fractions 1 to 3 accounted for 20 to 30% of the starting nucleated cells with a five-fold enrichment of hematopoietic progenitors. Based on these values, such populations have been used for clinical transplantation using a single apheresis. The reduced cell numbers in the low-density fractions can facilitate tumor purging, and the reduced T cell numbers present in the marrow may ameliorate graft-vs.-host disease.
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PMID:Enrichment of bone marrow and blood progenitor (CD34+) cells by density gradients with sufficient yields for transplantation. 754 14

The positive role of G-CSF in hastening the myeloid recovery of patients undergoing allogeneic bone marrow transplantation (ALLO-BMT) or autologous bone marrow transplantation (ABMT) has recently been established. Considerable knowledge about adequate doses and route of administration has been accumulated in the past few years. Nonetheless, the optimal time to start growth-factor administration remains undetermined. We have performed a stratified study according to the source of hematopoietic progenitors (ALLO-BMT or ABMT), underlying disease and its stage, and acute graft-versus-host disease (GVHD) prophylaxis regimen and randomized patients in two arms: group A, which started G-CSF on day 0 (36 patients), and group B, which started on day +7 post-BMT (39 patients). The same dose (5 micrograms/kg/day) and route of administration were employed in both groups. We found no significant differences in the time to reach an absolute neutrophil count (ANC) of 0.1, 0.5, and 1 x 10(9)/l and 50 x 10(9) platelets/l (medians: 10 and 11, 14.5 and 14, 17 and 16, 23 and 24 days, respectively, in groups A and B). We did not find differences in the days of fever or days on antibiotic treatment with less than 1 x 10(9)/l ANC, rate of bacteriemia, or days of hospitalization in both groups. In contrast, a considerable saving of G-CSF in B group was found (mean days of infusion in group A, 18, versus 11 in group B) (p < 0.0001). This is equivalent to a saving of 1120 $US per patient.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Optimal timing of granulocyte colony-stimulating factor (G-CSF) administration after bone marrow transplantation. A prospective randomized study. 754 28

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