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 9,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Despite the emergence of newer antibiotic treatments, group B streptococcal infection still carries a high mortality rate in the newborn and is characterized by reduced neutrophil proliferative pools, neutrophil storage pools, neutropenia, and polymorphonuclear cell dysfunction. Recombinant human granulocyte-colony stimulating factor (rhG-CSF) has recently been demonstrated to induce neutrophilia and modulate neutrophil proliferative pools and neutrophil storage pools in the newborn rat. We therefore investigated the adjuvant effect of rhG-CSF given to group B streptococcus (GBS) septic Sprague-Dawley newborn (less than 36 h) rats treated with and without antibiotic therapy. After inoculation of GBS, a GBS survival curve established the LD50 at 50 h to be approximately 3 X 10(6) organisms/gm. Newborn rats were divided into four treatment groups after GBS inoculation. rhG-CSF was administered at the same time as GBS inoculation. At 24 h, there was approximately 100% survival in all groups. However, by 72 h after GBS inoculation, there was a significant difference in survival. Group 1, PBS/Alb, had a survival rate of 4%; group 2, rhG-CSF, 9%; group 3, antibiotics, 28%; and group 4, antibiotics plus rhG-CSF, 91% (p less than or equal to 0.001). Additionally, when rhG-CSF was administered prophylactically (6 h before GBS), a similar significant synergistic effect in survival was demonstrated with granulocyte colony stimulating factor plus antibiotics versus antibiotics alone (70 versus 10%) (p less than or equal to 0.01). These preliminary data suggest that either simultaneous or prophylactic pulse administration of rhG-CSF may have a synergistic and protective effect on survival in antibiotic-treated experimental GBS in the neonatal rat.
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PMID:Prophylactic or simultaneous administration of recombinant human granulocyte colony stimulating factor in the treatment of group B streptococcal sepsis in neonatal rats. 169 23

During states of increased demand, neonatal host defense is characterized by dysregulation of granulopoiesis, resulting in a high incidence of neutropenia. This study investigated the modulation of neonatal rat hematopoiesis by 14-d administration of recombinant human (rh) IL-6, rh-granulocyte-colony stimulating factor (G-CSF), or sequential combination of rhIL-6 and rhG-CSF. Specifically, newborn Sprague-Dawley rats were treated with either rhIL-6 (5 micrograms/kg/d for 14 d), rhG-CSF (5 micrograms/kg/d for 14 d), rhIL-6 for 7 d followed by rhG-CSF for 7 d, PBS/BSA for 7 d followed by rhG-CSF for 7 d, or PBS/BSA for 14 d. RhIL-6 alone significantly increased the peripheral platelet count during the latter part of the 2nd wk of administration (d 13: 980 +/- 42 versus 716 +/- 23 x 10(3)/mm3) (p = less than 0.001) (mean +/- SEM). Treatment with rhIL-6 for 7 d followed by rhG-CSF significantly increased the peripheral neutrophil count compared with 7 d of PBS/BSA and 7 d of G-CSF (d 14 absolute neutrophil count 4888 +/- 12 versus 2720 +/- 317/mm3) (p = less than 0.05). Similarly, sequential rhIL-6/rhG-CSF significantly increased the d-14 bone marrow neutrophil storage pool (9873 +/- 882 versus 3564 +/- 159/mm3) (p = less than 0.005). Lastly, sequential rhIL-6/rhG-CSF induced the highest increase in bone marrow (p less than 0.01) and liver/spleen CFU-GM pool (p less than 0.001) compared with any other treatment group. These studies suggest that rhIL-6 alone is associated with a significant increase in the neonatal platelet count.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sequential administration of interleukin-6 and granulocyte-colony stimulating factor in newborn rats: modulation of newborn granulopoiesis and thrombopoiesis. 172 8

Single-pulse administration of either recombinant human granulocyte-monocyte colony stimulating factor or recombinant human granulocyte colony stimulating factor to newborn rats has previously been demonstrated to increase the peripheral neutrophil count and modulate bone marrow (BM) neutrophil pools. In our present study, we investigated the effects of 7 d of either recombinant murine granulocyte-monocyte colony stimulating factor (rmGM-CSF) (75 micrograms/kg/d) or recombinant murine IL-3 (rm IL-3) (10 micrograms/kg/d) on newborn rat myelopoiesis. Sprague Dawley newborn rats (greater than or equal to 24 h) were injected (intraperitoneally) daily for 7 d with either rmGM-CSF, rmIL-3, or PBS/BSA. rmGM-CSF induced a significant increase in the peripheral neutrophil count on d 3 (p less than 0.03) and d 7 (p less than 0.001) (75% increase). Additionally, rmGM-CSF induced a 50% increase in the BM neutrophil storage pool (p less than 0.025). rmIL-3 increased the BM colony forming unit-granulocyte monocyte pool (p less than 0.001); however, it failed to increase the peripheral neutrophil count or BM neutrophil storage pool. Neither CSF increased the BM neutrophil proliferative pool or BM colony forming unit-granulocyte monocyte proliferative rate. Additionally, 7 d of rmGM-CSF with or without antibiotics did not synergistically alter the mortality rate after group B streptococcol inoculation. This study suggests that rmIL-3 appears to stimulate more neonatal myeloid committed progenitor cell activity compared with rmGM-CSF. Optimal modulation of neonatal myelopoiesis may require the use of a sequential combination of hematopoietic CSF, namely an early-acting CSF followed by a more lineage myeloid-specific CSF.
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PMID:Modulation of neonatal myelopoiesis in newborn rats after 7 days' administration of either granulocyte-monocyte colony stimulating factor or interleukin-3. 189 56

IL-11, a new hematopoietic cytokine isolated from primate stromal cells (PU-34), has been shown to act synergistically with IL-3 to induce proliferation of early hematopoietic stem cells and induce in vitro CFU-MEG proliferation. We hypothesize that recombinant human (rh)IL-11 alone or in combination with granulocyte colony-stimulating factor (G-CSF) might modulate newborn in vivo granulopoiesis and thrombopoiesis. Newborn Sprague-Dawley rats were given 14 d of intraperitoneal rhIL-11 (0-250 micrograms/kg x 14 d), rhIL-11 (250 micrograms/kg) + rhG-CSF (5 micrograms/kg simultaneously x 14 d), rhIL-11 x 7 d followed by G-CSF x 7 d, G-CSF x 14 d, PBS/human serum albumin x 7 d followed by G-CSF x 7 d, or PBS/human serum albumin x 14 d. rhIL-11 alone had no effect on the circulating hematocrit or absolute neutrophil count. There was, however, a significant increase in the circulating platelet count after rhIL-11 (100 and 250 micrograms/kg) versus PBS/human serum albumin (d 13: 1241 +/- 54, 1262 +/- 58 versus 939 +/- 38 k/mm3; p = 0.01). Sequential and simultaneous IL-11 + G-CSF caused a significant increase in the marrow neutrophil reserve and the circulating absolute neutrophil count above that observed when G-CSF alone was administered. IL-11 +/- G-CSF, however, failed to reduce the 96-h mortality rate during experimental group B streptococcal sepsis. These data suggest that IL-11 alone results in a significant elevation in the blood platelet concentration and, in combination with G-CSF, induces an increase in in vivo neonatal rat myelopoiesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of interleukin-11 with and without granulocyte colony-stimulating factor on in vivo neonatal rat hematopoiesis: induction of neonatal thrombocytosis by interleukin-11 and synergistic enhancement of neutrophilia by interleukin-11 + granulocyte colony-stimulating factor. 768 97

We report that acetyl-N-Ser-Asp-Lys-Pro (AcSDKP), which removes progenitor cells from cell cycle, in combination with granulocyte-colony stimulating factor (G-CSF) can significantly improve myelorestoration following irradiation (7 Gy). Peripheral blood, spleen and bone marrow (BM) cell recovery and progenitor cell reconstitution [IL-3-responsive colony-forming cells (CFC) and high proliferative potential colony-forming cells (HPP-CFC)] were studied. Studies on the optimal schedule of AcSDKP administration revealed maximal effects on progenitor cells when AcSDKP was administered as a continuous infusion for 3 d starting 24 h prior to irradiation and used in combination with G-CSF. The numbers of CFC and HPP-CFC in the BM were significantly increased following irradiation in mice receiving AcSDKP and G-CSF as compared to either drug alone. The numbers of CFC in the spleen were significantly increased in mice receiving AcSDKP and G-CSF on days 10 and 14 as compared to AcSDKP alone, but not G-CSF. Similarly, CFC and HPP-CFC in the spleen were significantly increased in mice receiving AcSDKP and G-CSF on day 18 as compared to mice receiving PBS and G-CSF. These studies suggest that AcSDKP in combination with G-CSF may have potential for the protection of progenitor cells in patients undergoing intensive chemo- and/or radiotherapy.
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PMID:In vivo haemoprotective activity of tetrapeptide AcSDKP combined with granulocyte-colony stimulating factor following sublethal irradiation. 882 83

Ex-vivo expanded progenitor cells have been proposed as a source of cells to support high-dose chemotherapy and to decrease or eliminate the period of neutropenia following transplantation. To date, no clinical studies using ex vivo expanded cells, have demonstrated any decrease in the time to neutrophil or platelet recovery, although a number of clinical studies have been performed using a variety of growth factor cocktails and culture conditions. Over the past 6 years we have developed a static culture system that results in optimal expansion of myeloid progenitor cells. We have initiated a clinical study to evaluate this culture system in breast cancer patients receiving peripheral blood progenitor cells (PBPC) to support high-dose chemotherapy. CD34 selected cells were cultured for 10 days in 800 ml of defined media (Amgen Inc.) containing 100 ng/ml each of rhSCF, rhG-CSF and rhMGDF in 1L teflon bags (American Fluoroseal) at 20,000 to 50,000 cells per ml. After culture the cells were washed with 3 volumes of PBS to remove all media and growth factors and reinfused on day 0 of transplant followed by daily administration of rhG-CSF. On day +1 the patients received an unexpanded PBPC product to ensure the durability of the graft. Patients transplanted with expanded PBPC cells recovered neutrophil counts (ANC > 500/microl) as early as day 4 post transplant with a median of 6 days (range 4 to 14 days). In comparison, our historical control group of patients (N=175) had a median time to neutrophil engraftment of 9 days (range 7 to 24 days). A second cohort of patients were transplanted with expanded cells alone and a similar rapid engraftment was obtained. The first patients are now over 70 days post transplant with durable engraftment. No effect on platelet recovery has been observed in any patients to date. These data demonstrate that PBPC expanded under the conditions defined can significantly shorten the time to engraftment of neutrophils.
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PMID:Ex-vivo expansion of hematopoietic progenitor cells: preliminary results in breast cancer. 1034 58

Recent clinical studies in China and USA showed that arsenic trioxide (As2O3) is an effective treatment of acute promyelocytic leukemia (APL) patients refractory to all-trans retinoic acid (RA). We here investigate the effects of As2O3 on RA-resistant APL in vivo and in vitro using our RA-resistant APL model system. As2O3 can induce inhibition of cellular growth of both RA-sensitive NB4 and RA-resistant UF-1 APL cells via induction of apoptosis in vitro. The expression of BCL-2 protein decreased in a dose- and time-dependent manner in NB4 cells. Interestingly, the levels of BCL-2 protein were not modulated by As2O3, but it did upregulate BAX protein in UF-1 cells. UF-1 cells (1x10(7)) were transplanted into hGM-CSF-producing transgenic SCID mice and successfully formed subcutaneous tumors. After 40 days of implantation, mice were treated with As2O3, all-trans RA and PBS for 21 days. In all-trans RA- and PBS-treated mice, tumors grew rapidly, with a 4.5-fold increase in volume at day 21 compared to the initial size. In marked contrast, tumor size was decreased to half of the initial size by the treatment of As2O3, which resulted in cells with the typical appearance of apoptosis. Interestingly, one of the As2O3-treated mice showed mature granulocytes in the diminished tumor, suggesting that As2O3 had dual effects on RA-resistant APL cells in vivo: both inducing apoptosis and differentiation of the leukemic cells. We conclude that our RA-resistant APL model will be useful for evaluating novel therapeutic approaches to patients with RA-resistant APL, and for further investigation of the metabolism of As2O3 in vivo.
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PMID:Arsenic trioxide (As2O3)-induced apoptosis and differentiation in retinoic acid-resistant acute promyelocytic leukemia model in hGM-CSF-producing transgenic SCID mice. 1072 Jan 38

The failure of current BCG vaccine in controlling the global tuberculosis (TB) epidemic highlights an urgent need for improved TB vaccine formulations. In this study, we have investigated the effect of a novel adenoviral granulocyte macrophage-colony stimulating factor (GM-CSF) transgene-based adjuvant formulation (AdGM-CSF) on BCG vaccination in a mouse strain that is genetically weak responders to BCG vaccine. BALB/c mice were immunized subcutaneously (s.c.) with PBS, BCG, or BCG plus AdGM-CSF or control vector Addl70-3, the immunogenicity of BCG vaccine was evaluated by type 1 IFN-gamma production from lymphocytes of various lymphoid tissues upon mycobacterial antigen stimulation ex vivo. While mycobacterial antigen-specific IFN-gamma production was slightly enhanced by co-immunization BCG with Addl70-3 as compared to BCG immunization alone, a marked increase both in the magnitude and longevity of anti-mycobacterial type 1 immunity was observed in the local draining lymph nodes and spleens by immunization with AdGM-CSF-adjuvanted BCG. Furthermore, there was a significant increase in the number of mycobacterial antigen-specific IFN-gamma releasing CD4 T cells in mice immunized with AdGM-CSF-adjuvanted BCG vaccine. Consistent with these enhanced T-cell immunity and memory responses, AdGM-CSF-adjuvanted BCG vaccine significantly improved immune protection against secondary mycobacterial challenge. Our results suggest that GM-CSF transgene-based adjuvant formulation is an effective way to improve the immunogenicity of BCG vaccine.
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PMID:Enhanced immunogenicity of BCG vaccine by using a viral-based GM-CSF transgene adjuvant formulation. 1212 99

GM-CSF promotes homeostasis of myeloid cells. We report that GM-CSF upregulates mRNA and protein production of the soluble form of membrane bound VEGF receptor-1 (sVEGFR-1) in human monocytes. This sVEGFR-1 was biologically active, as cell-free supernatants from GM-CSF-stimulated monocytes blocked detection of endogenously expressed VEGF and inhibited endothelial cell migration and tube formation, even in the presence of exogenous rhVEGF. VEGF activity was recovered by neutralizing sVEGFR-1. To determine whether these events were important in vivo, Matrigel plugs were incubated with rhVEGF, rhGM-CSF, or rhGM-CSF/rhVEGF and injected into mice. Plugs containing GM-CSF or GM-CSF/VEGF had less endothelial cell invasion than plugs containing rhVEGF and were similar to plugs incubated with PBS alone. Neutralizing antibodies specific for sVEGFR-1 injected in these plugs reversed the effects of GM-CSF or GM-CSF/VEGF, while an isogenic antibody did not. Thus, GM-CSF and monocytes play a vital role in angiogenesis through the regulation of VEGF and sVEGFR-1.
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PMID:GM-CSF induces expression of soluble VEGF receptor-1 from human monocytes and inhibits angiogenesis in mice. 1558 71

We have investigated the contribution of intrasplenic bone marrow transplants or in vivo mobilized hematopoietic stem cells to the formation of hepatocytes in normal and injured liver. Direct intrasplenic injections of bone marrow mononuclear cells (5 x 10(5) cells), Scal+/lin- hematopoietic stem cells (5 x 10(3)) cells, and highly purified "side population" hematopoietic stem cells (5 x 10(3)) derived from enhanced green fluorescent protein (EGFP)-transgenic mice [C57Bl/6-TgN(ActbEGFP)1Osb] were performed in normal C57Bl/6 mice (n = 6) and in C57Bl/6 mice following two thirds hepatectomy (n = 8). To test the effect of mobilized stem cells on transdifferentiation, C57Bl/6 mice (n = 12) were lethally irradiated and reconstituted with EGFP-positive bone marrow mononuclear cells in a second series of experiments. Eight to 12 weeks after bone marrow transplantation a subset of mice (n = 3 in each group) received either rhG-CSF for hematopoietic stem cell mobilization, rhG-CSF combined with an intraperitoneal application of carbon tetrachloride (CCl4) as hepatocyte regeneration stimulus, or CCl4 alone. All mice were completely perfused with PBS to remove circulating nonorgan cells for analyses 4 weeks later. Liver as well as heart, intestine, spleen, and kidney tissue was analyzed for the presence of EGFP-transgenic cells. In 100 sections (2.3 x 10(7) cells) of any recipient mouse no EGFP-positive hepatocytes were detected either by analysis of native EGFP fluorescence or by immunofluorescence analysis with anti-EGFP and antidipeptidyl peptidase (DPP) IV antibodies. EGFP-transgenic cells resembling heart, kidney, or intestinal cells could also not be proven. The results demonstrate that there is little or no contribution of bone marrow-derived cells to the regeneration of normal and injured liver in the animal models used. Thus, potential therapeutic prospects of hematopoietic stem cell therapy for liver disease have to be critically reassessed.
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PMID:Reevaluation of bone marrow-derived cells as a source for hepatocyte regeneration. 1564 36


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