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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)
A randomised study was conducted in 62 patients with advanced
breast cancer
to assess whether
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) would yield an increase in the dose intensity of a standard-dose CEF regimen through an acceleration of chemotherapy administration. Patients received CEF (cyclophosphamide 600 mg m-2, epidoxorubicin 60 mg m-2 and fluorouracil 600 mg m-2) i.v. on day 1 or the same chemotherapy, plus
GM-CSF
10 micrograms kg-1 s.c. starting from day 4, repeated as soon as haematopoietic recovery from nadir occurred. Patients in the CEF +
GM-CSF
group received chemotherapy at a median interval of 16 days compared with 20 days in the control group. This led to a significant increase (P = 0.02) in the dose intensity actually administered in the third, fourth and sixth cycles: +28%, +25%, +20% respectively. Non-haematological toxicity was mild.
GM-CSF
had to be reduced or suspended in 50% of patients because of toxicity. Haematological toxicity, mainly cumulative anaemia and thrombocytopenia, was manageable. An increase in response rate for patients with measurable disease, of borderline statistical significance (P = 0.088, P for trend = 0.018), from 42% in the CEF group to 69% in the CEF +
GM-CSF
group, was observed. This randomised trial indicates that
GM-CSF
is useful for chemotherapy acceleration. Accelerated CEF +
GM-CSF
is a moderately dose-intensive regimen that can be administered in an outpatient clinic and is associated with a high objective response.
...
PMID:Granulocyte-macrophage colony-stimulating factor (GM-CSF) allows acceleration and dose intensity increase of CEF chemotherapy: a randomised study in patients with advanced breast cancer. 829 39
We examined peripheral blood progenitor cell (PBPC) collections and CD(34+)-selected fractions cultured in PIXY321, a fusion protein comprising analog interleukin-3 (IL-3) and
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) domains, for the presence of contaminating tumor cells from 14 patients with advanced-stage
breast cancer
. Five of the 14 (36%) pre-culture PBPC specimens contained immunocyto-chemically (ICC)-detectable tumor cells using two different cocktails of monoclonal antibodies (mAbs). After 10 days in culture with PIXY321, the CD(34+)-selected fractions showed a median 23.6-fold expansion of hematopoietic cells. No ICC-positive tumor cells were detected in any post-culture specimens. We conclude that in vitro expansion of CD(34+)-selected PBPCs with PIXY321 can expand hematopoietic cell populations apparently without risk of expanding contaminating
breast cancer
cell populations.
...
PMID:Immunocytochemical analysis of tumor cells in pre- and post-culture peripheral blood progenitor cell collections from breast cancer patients. 854 34
Bone marrow and extensive bone involvement have limited the use of chemotherapy with stem cell support for treatment of women with metastatic breast cancer. The toxicity and efficacy of dose-intensive chemotherapy were studied using etoposide and cyclophosphamide without a stem cell support regimen for women with advanced
breast cancer
. The regimen was well tolerated, with treatment-related mortality similar to dose-intensive therapy with stem cell support. The overall 58% response rate is comparable to the response rate with dose-intensive chemotherapy regimens using stem cell support. The extent of disease, responsiveness to standard therapy, and dose of etoposide affected the response rate. Hematopoietic recovery was fairly prompt and was generally unaffected by the use of hematopoietic growth factors or the presence of
breast cancer
cells in the marrow. The use of stem cells or recombinant human interleukin-3 (rhIL-3) in combination with recombinant human
granulocyte-macrophage colony-stimulating factor
(rhGM-CSF) resulted in some benefit in neutrophil recovery. It was concluded that in many women with advanced
breast cancer
, a dose-intensive regimen of etoposide and cyclophosphamide results in response or stabilization of disease. Hematopoietic recovery, particularly platelet recovery, may be accelerated by a combination of rhIL-3 and rhGM-CSF.
...
PMID:Dose-intensive chemotherapy with etoposide-cyclophosphamide for advanced breast cancer. North American Marrow Transplant Group. 860 May 46
We conducted a prospective randomized trial to evaluate the ability of the interleukin-3/
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) fusion protein, PIXY321, to ameliorate cumulative thrombocytopenia after multiple cycles of 5-fluorouracil, leucovorin, doxorubicin, cyclophosphamide (FLAC) chemotherapy compared with
GM-CSF
in patients with advanced
breast cancer
. Fifty-three patients were randomized to receive either PIXY321. 375 microg/m2 twice a day subcutaneously, or
GM-CSF
, 250 microg/m2 daily subcutaneously after FLAC chemotherapy. PIXY321 was less well tolerated than
GM-CSF
, with more patients developing chills and local skin reactions and more patients stopping PIXY321 due to intolerance. While no difference in the neutrophil nadirs was seen with the two cytokines, the duration of the absolute neutrophil count less than 1,000/muL for all cycles was significantly longer with PIXY321 than with
GM-CSF
. Fifty percent of patients treated with multiple cycles of FLAC chemotherapy on both study arms developed dose-limiting thrombocytopenia. No differences in platelet nadirs, duration of thrombocytopenia, or need for platelet transfusions were observed with PIXY321 versus
GM-CSF
. The average delivered doses of FLAC chemotherapy were somewhat higher in the
GM-CSF
study arm. PIXY321 was not superior to
GM-CSF
in ameliorating the cumulative thrombocytopenia observed with multiple cycles of FLAC chemotherapy and was less well tolerated.
...
PMID:Prospective, randomized trial of 5-fluorouracil, leucovorin, doxorubicin, and cyclophosphamide chemotherapy in combination with the interleukin-3/granulocyte-macrophage colony-stimulating factor (GM-CSF) fusion protein (PIXY321) versus GM-CSF in patients with advanced breast cancer. 863 Mar 80
Increasing evidence supports the hypothesis that "dose" is critical to the clinical outcomes of cytotoxic chemotherapy for patients with
breast cancer
. Clinical trials continue to investigate whether higher doses of chemotherapy lead to proportionate improvements in the outcomes of patients. Delivery of dose-intensive chemotherapy has been facilitated by technological advancements in supportive care. Improved antiemetics have led to increased patient tolerance of the most acute symptoms of aggressive chemotherapeutic dosing. Chemotherapy-induced myelosuppression may be minimized in a lineage-specific manner by appropriate use of hematopoietic cytokines such as filgrastim (granulocyte colony-stimulating factor),
sargramostim
(
granulocyte-macrophage colony-stimulating factor
), and/or epoetin alfa (erythropoietin). However, cumulative myelotoxicity occurs with dose-intensive chemotherapy over multiple cycles despite adjunctive cytokine support. Additionally, no cytokine has yet been demonstrated to support platelet production to any clinically significant degree although several regulators of platelet production (such as thrombopoietin, IL-6, and IL-11) are in clinical trials. Many cytokines can induce the mobilization of hematopoietic progenitor and stem cells from the bone marrow into the circulating blood pool, where these cells may be harvested. Clinical use of these cytokine-mobilized peripheral blood progenitor cells (also known as PBPCs or, commonly, as blood stem cells) has documented the effectiveness of these cells to reconstitute multilineage blood production following very high-dose chemotherapy. The ease with which PBPCs can be collected and their reproducible clinical effectiveness to support patients through intensive treatment protocols have led to a virtual elimination of bone marrow as the source of cellular support for myeloablative chemotherapy in many transplant centers. Novel investigative approaches are also possible with PBPCs. In this review, the historical background of PBPCs is summarized, and the potential benefits (including economic advantages) of PBPCs to support dose-intensive chemotherapy for treating
breast cancer
are discussed. While dose intensification of
breast cancer
chemotherapy to the degree requiring PBPC support remains controversial and, in most centers, investigational, there is no doubt that PBPCs are an effective adjunct to the hematopoietic support of patients undergoing transplant-level cytotoxic treatments. Further study will undoubtedly lead to increased use of PBPCs in novel treatments for patients with
breast cancer
and other solid tumors.
...
PMID:The emergence of peripheral blood progenitor cells to support intensive chemotherapy for patients with breast cancer. 872 88
To verify whether the association of
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) and erythropoietin (EPO) would allow both the acceleration and the dose escalation of the cyclophosphamide/epidoxorubicin/5-fluorouracil (CEF) regimen as first-line therapy in advanced
breast cancer
patients, we conducted a dose-finding study. Cohorts of three consecutive patients received cyclophosphamide (Ctx, dose range 800-1400 mg/m2), epidoxorubicin (Epidx, dose range 70-100 mg/m2), and 5-fluorouracil (5-Fu, 600 mg/m2, fixed dose) given as an intravenous bolus on day 1 every 14 days;
GM-CSF
at 5 micrograms/kg given as a subcutaneous injection from day 4 to day 11; and EPO at 150 IU/kg given as a subcutaneous injection three times a week. In no single patient was any dose escalation allowed. A total of 14 patients entered the study. At the 4th dose level (Ctx 1400 mg/m2, Epidx 100 mg/m2, 5-Fu 600 mg/m2), two patients had dose-limiting mucositis and one patient developed dose-limiting neutropenia. Therefore, the 3rd cohort received the maximum tolerated dose, i.e. Ctx at 1200 mg/m2, Epidx at 90 mg/m2, and 5-Fu at 600 mg/m2, given every 18.5 (+/-2.5) days. Toxicity was moderate and manageable in an outpatient setting. Only 1 admission at the 4th dose level was required. Throughout the 4 dose levels there was no toxicity-related death; grade IV leukopenia ranged from 24% to 75% of cycles and grade IV thrombocytopenia ranged from 6% to 8%. No grade IV anemia was recorded. Increasing the doses of Ctx and Epidx while maintaining a fixed dose of 5-Fu with the support of both EPO and
GM-CSF
allows safe acceleration and dose escalation of CEF chemotherapy. Further controlled studies will evaluate the activity and efficacy of this strategy.
...
PMID:Erythropoietin and granulocyte-macrophage colony-stimulating factor allow acceleration and dose escalation of cyclophosphamide/epidoxorubicin/5-fluorouracil chemotherapy: a dose-finding study in patients with advanced breast cancer. 882 88
Granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) is a haematopoietic growth factor with a wide variety of applications in the clinic. In early phase I studies the continuous intravenous (c.i.) route of administration was often used. Later it was shown that subcutaneous (s.c.) administration was also effective. The optimal route of administration remains, however, poorly defined, and no studies have made a direct comparison between these two routes of administration. We treated patients with advanced
breast cancer
with moderately high-dose doxorubicin and cylophosphamide and
GM-CSF
. The first 14 patients received
GM-CSF
by c.i, while subsequently 47 patients received it s.c. Comparison between the two groups showed that c.i.
GM-CSF
was more toxic in several respects. There was a higher need for erythrocyte and platelet transfusions and a significant deterioration in the performance status. This study indicates that subcutaneous
GM-CSF
is the preferred route of administration. Randomised trials are, however, needed to confirm these conclusions.
...
PMID:Continuous infusion or subcutaneous injection of granulocyte-macrophage colony-stimulating factor: increased efficacy and reduced toxicity when given subcutaneously. 885 87
Given the limitations of bone marrow transplantation (BMT), alternative approaches to deliver dose-intensive regimens without stem cell support are needed. Administration of hematopoietic growth factors before high-dose chemotherapy (priming) may reduce myelosuppression directly, delaying the onset of neutropenia by expanding the mature neutrophil compartment, and shortening the duration of neutropenia by expanding progenitor cell mass. Priming may also render progenitor populations mitotically quiescent after growth factors are withdrawn, thereby making them less sensitive to the cytotoxic effects of chemotherapy. It is also possible, however, that growth factor priming may worsen aplasia when used with dose-intensive regimens by either depleting early progenitor pools or recruiting progenitor populations into cycle. To determine the safety and hematopoietic efficacy of growth factor priming, 13 patients with hematologic malignancy or
breast cancer
were treated with
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) (250 micrograms/m2 twice daily subcutaneously) until the white blood cell (WBC) count reached either a plateau or 100,000 cells/microL. Forty-eight hours after the last dose of
GM-CSF
, chemotherapy was begun using high-dose etoposide and cyclophosphamide. All patients received
GM-CSF
after chemotherapy. Two patients were withdrawn during
GM-CSF
priming because they developed urticarial rashes. The maximum median increases in WBC and absolute neutrophil count (ANC) during
GM-CSF
priming were 7.1- and 4.4-fold, respectively. Only one patient achieved the original target WBC of 100,000/microL. The kinetics of leukocyte expansion were slow; a median of 13 days was needed to reach the maximum WBC. Furthermore, much of the leukocyte expansion was caused by an increase in eosinophils, which would not be expected to accelerate hematopoietic recovery.
GM-CSF
priming did not appear to have a significant impact on hematopoietic recovery after high-dose etoposide and cyclophosphamide, as there was no significant difference in 1) recovery to an ANC > 500/microL compared to a historical control group that received no growth factor (median of 29 and 30 days, respectively; p = 0.4), 2) number of days with an ANC < 500/microL (median of 19 and 20 days, respectively; p = 0.11), and 3) number of days to an untransfused platelet count > or = 50,000/microL (median 36 and 32 days, respectively; p = 0.23). The failure of
GM-CSF
priming may be a result of its modest stimulation of hematopoiesis or the expansion of a committed progenitor cell population that is exquisitely sensitive to this regimen.
...
PMID:Granulocyte-macrophage colony-stimulating factor (GM-CSF) priming of high-dose etoposide and cyclophosphamide: a pilot trial. 891 81
We investigated the in vitro antitumor activity of monocytes derived from autologous bone marrow transplanted (ABMT) patients treated in vivo with
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
). Thirty-four patients (17 female, 17 male), median age 42 (range 3-57) years, were enrolled in the study. Fourteen patients were diagnosed with non-Hodgkin's lymphoma (NHL), eight with Hodgkin's disease (HD), nine with
breast cancer
and three with neuroblastoma. Six patients who did not receive
GM-CSF
post-ABMT served as controls. We assessed cytotoxicity, antibody-dependent cellular cytotoxicity (ADCC), expression of the activation antigen CD16, and cytokine production by an enriched population of monocytes (> 90% CD+14) pre-, during and post-
GM-CSF
administration. Within the group of patients receiving treatment, ADCC was significantly higher during in vivo
GM-CSF
administration than post-therapy (P < 0.05) and in 50% of these patients, ADCC increased during in vivo
GM-CSF
administration over pretreatment values. In addition, in vivo
GM-CSF
administration caused the monocytes to secrete elevated levels of tumor necrosis factor-alpha (TNF-alpha) and
GM-CSF
(P < 0.05). We conclude that
GM-CSF
augments monocyte-mediated cytotoxicity post-ABMT, and therefore may have a role in controlling minimal residual disease post-transplant.
...
PMID:Granulocyte-macrophage colony-stimulating factor dependent monocyte-mediated cytotoxicity post-autologous bone marrow transplantation. 891 16
Administration of hematopoietic growth factors is being used increasingly to obtain populations of blood progenitor/stem cells (PBPC) for clinical transplantation. Here we examined the effect of combining stem cell factor (SCF ) and granulocyte colony-stimulating factor (G-CSF ) versus G-CSF alone in a randomized clinical study involving 62 women with early-stage
breast cancer
. In the first patient cohorts, escalating doses of SCF were administered for 7 days with concurrent G-CSF administration. At baseline, levels of progenitor cells in the bone marrow or blood were comparable in the different patient groups. As with administration of G-CSF alone, the combination of SCF plus G-CSF did not alter the wide variation in levels of PBPC observed between individuals and did not alter the selective nature of PBPC release, with preferential release of day-14
granulocyte-macrophage colony-stimulating factor
(GM-CFC) versus day-7 GM-CFC. However, SCF acted to sustain the levels of PBPC after cessation of growth factor treatment; levels of PBPC were elevated 100-fold at later timepoints compared with G-CSF alone. In addition, the maximum levels of PBPC observed were increased approximately fivefold at day 5 of growth-factor administration. The increased levels of PBPC resulted in significantly increased levels of PBPC obtained by leukapheresis. In a subsequent patient cohort, 3-days pretreatment with SCF was introduced and followed by 7 days concurrent SCF plus G-CSF. The 3-days pretreatment with SCF resulted in an earlier wave of PBPC release in response to commencement of G-CSF. In addition, maximum PBPC levels in blood and PBPC yield in leukapheresis products were further increased. Unexpectedly however, SCF pretreatment resulted in progenitor cells with enhanced self-generation potential. Recloning assays documented the ability of approximately 30% of primary granulocyte-macrophage (GM) colonies from control cell populations to generate secondary GM colonies (n = 1,106 primary colonies examined). In contrast approximately 90% of GM colonies from PBPC after SCF pretreatment generated secondary clones and 65% generated secondary colonies. The action of SCF was not explicable in terms of altered SCF, GM-CSF, or G-CSF responsiveness, but SCF pretreatment was associated with maximum serum SCF levels at the time G-CSF was commenced. These results show that PBPC populations mobilized by different growth factor regimens can differ in their functional properties and caution against solely considering number of harvested progenitor cells without regard to their function.
...
PMID:Enhanced levels and enhanced clonogenic capacity of blood progenitor cells following administration of stem cell factor plus granulocyte colony-stimulating factor to humans. 934 20
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