UMLS:C0432222 - FACTA Search

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In this study, we assessed the functional and kinetic characteristics of highly purified hematopoietic CD34+ cells from the apheresis products of 16 normal donors undergoing glycosylated granulocyte colony-stimulating factor (G-CSF) treatment for peripheral blood stem cells (PBSC) mobilization and transplantation in allogeneic recipients. Mobilized CD34+ cells were evaluated for their colony-forming capacity and trilineage proliferative response to selected recombinant human (rh) CSF in vitro and the content of very primitive long-term culture initiating cells (LTC-IC). In addition, the cycling status of circulating CD34+ cells, including committed clonogenic progenitor cells and the more immature LTC-IC, was determined by the cytosine arabinoside (Ara-C) suicide test and the acridine orange flow cytometric technique. By comparison, bone marrow (BM) CD34+ cells from the same individuals were studied under steady-state conditions and during G-CSF administration. Clonogenic assays in methylcellulose showed the same frequency of colony-forming unit cells (CFU-C) when PB-primed CD34+ cells and BM cells were stimulated with phytohemagglutinin-lymphocyte-conditioned medium (PHA-LCM). However, mobilized CD34+ cells were significantly more responsive than their steady-state BM counterparts to interleukin-3 (IL-3) and stem cell factor (SCF) combined with G-CSF or IL-3 in presence of erythropoietin (Epo). In cultures added with SCF, IL-3, and Epo, we found a mean increase of 1.5- +/- 1-fold (standard error of the mean [SEM]) of PB CFU-granulocyte-macrophage and erythroid progenitors (burst-forming units-erythroid) as compared with BM CD34+ cells (P < .05). Conversely, circulating and BM megakaryocyte precursors (CFU-megakaryocyte) showed the same clonogenic efficiency in response to IL-3, granulocyte-macrophage-CSF and IL-3, IL-6, and Epo. After 5 weeks of liquid culture supported by the engineered murine stromal cell line M2-10B4 to produce G-CSF and IL-3, we reported 48.2 +/- 35 (SEM) and 62.5 +/- 54 (SEM) LTC-IC per 10(4) CD34+ cells in PB and steady-state BM, respectively (P = not significant). The Ara-C suicide assay showed that 4% +/- 5% (standard deviation [SD]) of committed precursors and 1% +/- 3% (SEM) of LTC-IC in PB are in S-phase as compared with 25.5% +/- 12% (SD) and 21% +/- 8% (SEM) of baseline BM, respectively (P < .001). However, longer incubation with Ara-C (16 to 18 hours), in the presence of SCF, IL-3 and G-CSF, or IL-6, showed that more than 60% of LTC-IC are actually cycling, with no difference being found with BM cells. Furthermore, studies of cell-cycle distribution on PB and BM CD34+ cells confirmed the low number of circulating progenitor cells in S- and G2M-phase, whereas simultaneous DNA/RNA analysis showed that the majority of PB CD34+ cells are not quiescent (ie, in G0-phase), being in G1-phase with a significant difference with baseline and G-CSF-treated BM (80% +/- 5% [SEM] v 61.9% +/- 6% [SEM] and 48% +/- 4% [SEM], respectively; P < .05). Moreover, G-CSF administration prevented apoptosis in a small but significant proportion of mobilized CD34+ cells. Thus, our results indicate that mobilized and BM CD34+ cells can be considered equivalent for the frequency of both committed and more immature hematopoietic progenitor cells, although they show different kinetic and functional profiles. In contrast with previous reports, we found that PB CD34+ cells, including very primitive LTC-IC, are cycling and ready to progress into S-phase under CSF stimulation. This finding should be taken into account for a better understanding of PBSC transplantation.
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PMID:Cycling status of CD34+ cells mobilized into peripheral blood of healthy donors by recombinant human granulocyte colony-stimulating factor. 902 41

Daily systemic administration of hematopoietic growth factors can be associated with dose-limiting systemic side effects. To overcome this, we have investigated hematopoietic cytokine gene transfer to the marrow cavity of dogs by direct intramarrow injection of adenoviral vectors. In marrow culture, replication-deficient (E1-deleted) adenoviral vectors were able to transduce marrow stromal cells, demonstrating 30-fold greater expression than from other marrow cell types. High-level (ng/ml) cytokine production from transduced stromal cells persisted for 14 days in culture. Because adenovectors could efficiently transduce marrow stromal cells in culture, we investigated if stromal cells could also be transduced in vivo following direct intramarrow vector injection. Adenovectors with genes for interleukin 6 (IL-6) and Lac Z (beta-galactosidase) were injected directly into the marrow cavity of dogs resulting in protein expression localized to within the treated marrow. To evaluate this approach further in dogs, we constructed a vector expressing biologically active canine granulocyte-macrophage colony stimulating factor (GM-CSF). 293 cells infected with ADGM-CSF demonstrated prevalent GM-CSF mRNA by Northern blot and 135 +/- 30 ng/ml of protein as measured by enzyme-linked immunosorbent assay (ELISA). In vitro bioactivity of protein expressed was confirmed by canine GM colony-forming assay (CFU-GM). In vivo high-level protein production was noted in supernatants of marrow aspirates 72 hr following direct intramarrow administration of ADGM-CSF (baseline mean +/- SEM, 27 +/- 22 ng/ml, 72-hr sample 921 +/- 461 ng/ml). A localized myeloid expansion of marrow and significant peripheral leukocytosis (neutrophilia) were noted in all ADGM-CSF-treated dogs. Peripheral blood changes lasted for up to 3 weeks in dogs following single intramarrow injection. Thus, adenoviral cytokine expression from the marrow of a single large bone (ilium) led to compartmentalized expression of growth factor and an increase of hematopoiesis sufficient to cause peripheral blood changes in a large animal model.
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PMID:Intramarrow cytokine gene transfer by adenoviral vectors in dogs. 909 6

Neutrophils play an important role in mediating acute lung injury that is characteristic of adult respiratory distress syndrome. Granulocyte colony-stimulating factor (G-CSF) has been shown to increase neutrophil counts and to enhance their biological functions. This study investigated the effects of neutrophils pretreated with G-CSF on endotoxin-induced lung injury in conscious sheep. Nineteen sheep were chronically instrumented with a lung lymph fistula and vascular catheters for monitoring. Sheep were randomly allocated into three groups: group 1-sheep were infused only with endotoxin; group 2-G-CSF (250 micrograms/day) was administered intravenously for 5 days prior to endotoxin; and group 3-G-CSF (125 micrograms) was administered just before endotoxin. In each group, sheep received E. coli endotoxin (1 microgram/kg) for 30 min and observations were made for 5 h after endotoxin administration. Circulating leukocyte counts before endotoxin markedly increased in group 2 and significantly decreased in group 3, when compared with the level in group 1 (9700 +/- 900 (SEM) in group 1, 49,900 +/- 10,000 in group 2, and 3600 +/- 600/microL in group 3). In each group, circulating leukocyte counts significantly decreased 1 h after endotoxin administration and then returned to baseline values. However, there were no significant differences in either pulmonary hemodynamic or lung lymph responses to endotoxin among the groups. The results indicate that G-CSF does not adversely affect physiologic responses of the lung to endotoxin in sheep.
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PMID:Neutrophils pretreated with granulocyte colony-stimulating factor (G-CSF) are not related to the severity of endotoxin-induced lung injury. 926 95

The effect of different expansion protocols on the expression levels of CD49dw/CD29 (VLA-4), CD11a/CD18 (LFA-1), CD31 (PECAM-1), CD44, and CD34 was determined after cord blood CD34+ cells were cultured for defined periods with the following: 1) A growth factor mix (GFmix) containing interleukin (IL)-1, IL-3, IL-6, kit ligand (KL), G-CSF, GM-CSF, and erythropoietin (Epo); 2) IL-3 + KL; and 3) HS-5 (a human stromal cell line supernatant) + KL. Before culturing, cord blood CD34+ cells (> 95% purity) were 94 +/- 5% CD31+, 98 +/- 1% CD44+, 66 +/- 29% VLA-4+, and 68 +/- 18% LFA-1+ (mean +/- SEM). Immunophenotyping and morphological examination of pre- and post-cultured cells indicated that GFmix preferentially supported erythroid development, while IL-3+KL and HS-5+KL preferentially supported myeloid development. Similar to what other investigators have reported, there was an absolute increase in CD34+ cell numbers as well as clonogenic precursors with ex vivo expansion. However, the majority of clonogenic precursors post-expansion expressed CD34 antigen at reduced levels. Examination of adhesion molecules indicated that a majority of cells cultured with GFmix expressed PECAM-1 and LFA-1 at undetectable levels, but PECAM-1 and LFA-1 levels remained essentially unchanged when cells were cultured with IL-3+KL and HS-5+KL. Overall VLA-4 expression levels slightly increased and CD44 expression levels were more heterogeneous with ex vivo expansion. Nevertheless, LFA-1, VLA-4, PECAM-1, and CD44 expression levels remained essentially unchanged on cultured progeny retaining a CD34 phenotype, independent of the culture system used. Together these results indicate that differential modulation of adhesion markers occur with different culture conditions, yet adhesion receptor expression levels on progeny cells retaining a CD34 phenotype are essentially maintained independent of the culture conditions. And although there is an absolute increase in CD34+ cells after ex vivo expansion, a majority of clonogenic precursors have reduced levels of CD34 antigen.
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PMID:Differential modulation of adhesion markers with ex vivo expansion of human umbilical CD34+ progenitor cells. 931 Jan 90

Neutropenia is one of the risk factors for severe therapy-related morbidity in childhood malignancies. We have studied the potential of GM-CSF to shorten the neutropenic period after normal-dose chemotherapy in children who were treated for solid tumors. Patients with osteosarcomas, with Ewing sarcomas, or with rhabdomyosarcomas received 10 daily subcutaneous doses GM-CSF (Leucomax, 5 micrograms/kg) after a course of normal-dose chemotherapy in an open-label study. Because these patients were treated with different combinations of chemotherapeutic agents, they were randomized before each pair of identical courses of chemotherapy to receive GM-CSF after the first or after the second course. Fourteen such combinations could be evaluated in eight patients. The results show that GM-CSF significantly reduced the mean duration of the chemotherapy-induced neutropenia (mean reduction +/- SEM in days: 2.2 +/- 0.6, P = .003). There was no significant difference between the mean number of days with fever in either group. GM-CSF was well tolerated by all patients. We conclude that GM-CSF reduced the mean neutropenic period in children with solid tumors who were treated with standard-dose chemotherapy.
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PMID:Granulocyte-macrophage colony-stimulating factor (GM-CSF) ameliorates chemotherapy-induced neutropenia in children with solid tumors. 978 19

Nerve growth factor (NGF) in cerebrospinal fluid was measured by ELISA in ten children with postinfectious diseases and in five children with diseases suggested to be of autoimmune etiology. Three groups of patients were studied: (1) those with moderately elevated concentrations (50.67 +/- 17.02 pg/mL, mean and SEM), (2) those with high concentrations (mean 424.25 +/- 125.41 pg/mL, mean and SEM), and (3) those with enormously high concentrations (mean 2,745 +/- 1,819.46 pg/mL, mean and SEM). We suggest that CSF-NGF could be used as an immunologic marker of an ongoing CNS process. Uncontrolled signaling of NGF receptors may lead to long-term inflammatory and autoimmune responses, which in turn can lead to disease.
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PMID:Overstimulation of nerve growth factors in postinfectious and autoimmune diseases. 956 20

We tested the hypothesis that quinolinic acid, a tryptophan-derived N-methyl-D-aspartate agonist produced by macrophages and microglia, would be increased in CSF after severe traumatic brain injury (TBI) in humans, and that this increase would be associated with outcome. We also sought to determine whether therapeutic hypothermia reduced CSF quinolinic acid after injury. Samples of CSF (n = 230) were collected from ventricular catheters in 39 patients (16 to 73 years old) during the first week after TBI, (Glasgow Coma Scale [GCS] < 8). As part of an ongoing study, patients were randomized within 6 hours after injury to either hypothermia (32 degrees C) or normothermia (37 degrees C) treatments for 24 hours. Otherwise, patients received standard neurointensive care. Quinolinic acid was measured by mass spectrometry. Univariate and multivariate analyses were used to compare CSF quinolinic acid concentrations with age, gender, GCS, time after injury, mortality, and treatment (hypothermia versus normothermia). Quinolinic acid concentration in CSF increased maximally to 463 +/- 128 nmol/L (mean +/- SEM) at 72 to 83 hours after TBI. Normal values for quinolinic acid concentration in CSF are less than 50 nmol/L. Quinolinic acid concentration was increased 5- to 50-fold in many patients. There was a powerful association between time after TBI and increased quinolinic acid (P < 0.00001), and quinolinic acid was higher in patients who died than in survivors (P = 0.003). Age, gender, GCS, and treatment (32 degrees C versus 37 degrees C) did not correlate with CSF quinolinic acid. These data reveal a large increase in quinolinic acid concentration in CSF after TBI in humans and raise the possibility that this macrophage-derived excitotoxin may contribute to secondary damage.
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PMID:Quinolinic acid is increased in CSF and associated with mortality after traumatic brain injury in humans. 962 84

It is known that a range of firing frequencies can be observed during in vivo muscle activity, yet information is lacking as to how different in vivo-like frequencies may affect force generation of skeletal muscle. This study examined the effects of constant (CSF, constant within one contraction) and decreasing stimulation frequencies (DSF) on mean sarcomere length-force characteristics of rat gastrocnemius medialis fibre bundles. The CSF resulted in an optimal mean sarcomere length (lso) of 2.30 (SEM 0.02), 2.46 (SEM 0.03), 2.76 (SEM 0.03) and more than 2.99 (SEM 0.07) lm, for 100, 50, 30 and 15 Hz, respectively. Compared to 100-Hz stimulation, both lso and the ascending limb of the relationship significantly shifted to higher lengths with lower frequencies. No shift was encountered for the initial part of the descending limb. The DSF reduced the frequency-induced shift to higher mean lengths [lso 2.33 (SEM 0.02), 2.52 (SEM 0.08) and more than 2.92 (SEM 0.10) microm, respectively, for 50, 30 and 15 Hz]. No effect of activation time on length-force characteristics was observed. It was concluded from these studies that the frequency and history of stimulation is a major determinant of the length-force characteristics of muscle fibre bundles, and should be taken into account when analysing animal and human locomotion. The previously observed frequency-induced shift in whole muscle length-force relationship resides mainly at the level of fibre bundles.
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PMID:Effects of in vivo-like activation frequency on the length-dependent force generation of skeletal muscle fibre bundles. 965 Jul 34

This study characterised the levels of serum immunoglobulin G (IgG), cerebrospinal fluid IgG (CSF IgG) and IgG index as an aid to the diagnosis and prognosis of acute bacterial meningitis (ABM). A total of 28 patients with proven ABM at admission (age range: one month to 10 years; 17 males, 11 females) (group A) and 17 age- and sex-matched control children (group B) were studied. Levels were also compared between patients with neurological morbidity (n = 4; group C) and without neurological morbidity (n = 24; group D) who were subsets of group A. In addition, patients were divided randomly into two groups based on the treatment received (i.e. ceftriaxone together with dexamethasone [n = 11; group A1] and ceftriaxone only [n = 9; group A2] to assess the effect of dexamethasone. The results (mean +/- SEM) demonstrated intrathecal synthesis of IgG in ABM (group A vs group B: CSF IgG (mg/L): 92.64 +/- 23.54 vs 2.12 +/- 1.08, P < 0.002; IgG index: 0.959 +/- 0.481 vs 0.029 +/- 0.006, P < 0.001) which showed good diagnostic significance. In the patients with permanent neurological morbidity (group C) vs healthy survivors (group D), the CSF IgG and IgG index showed good prognostic significance (group C vs group D: CSF IgG (mg/L): 10.75 +/- 9.75 vs 106.24 +/- 29.37, P < 0.01; IgG index: 0.046 +/- 0.039 vs 1.132 +/- 0.568, P < 0.05). Dexamethasone lowered CSF-IgG and IgG-index levels, but the effect was not statistically significant (group A1 vs group A2: P > 0.1).
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PMID:Levels of serum immunoglobulin G, CSF IgG and IgG index in acute bacterial meningitis. 1043 40

In addition to being a general anaesthetic, ketamine is a recognized drug of abuse. Many, if not all, drugs of abuse have been shown to increase dopamine efflux in the nucleus accumbens (NAc). As ketamine is optically active, we examined if its actions on dopamine efflux in the NAc were stereoselective. Slices of rat NAc were superfused with artificial CSF at 32 degrees C. Dopamine efflux was evoked by electrical stimulation (1 or 20 pulses, 100 Hz) and measured using fast cyclic voltammetry. (+/-)-Ketamine 100 mumol litre-1 increased dopamine efflux (to mean 174 (SEM 17)% of control, P < 0.05) and slowed dopamine uptake half-time (T1/2) to 164 (17)% of control, as did (+)-ketamine 100 mumol litre-1 (efflux 236 (16)% (P < 0.001); uptake T1/2 177 (25)% (P < 0.05)). The (-)-isomer was inactive. The effect of (+)-ketamine on dopamine efflux did not correlate with its action on dopamine uptake. (+)-Ketamine increased dopamine efflux on single pulse stimulation but to a lesser extent than on 20 pulse trains (P < 0.05). (+)-Ketamine was unable to block the inhibitory effect of quinpirole on single pulse dopamine efflux. Neither MK 801 10 mumol litre-1 nor metoclopramide 1 mumol litre-1 had any effect on dopamine release after short train stimuli (20 pulses, 100 Hz). We conclude that the (+)-isomer is the active form of ketamine and increases NAc dopamine efflux not by block of dopamine uptake; autoreceptors or NMDA receptors, but by mobilization of the dopamine storage pool to releasable sites.
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PMID:Stereospecific effects of ketamine on dopamine efflux and uptake in the rat nucleus accumbens. 1047 31

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