UMLS:C0027947 - FACTA Search

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Query: UMLS:C0027947 (neutropenia)
17,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Haemopoietic growth factors (HGFs) have been shown to accelerate recovery from severe neutropenia after autologous bone marrow transplantation (ABMT) but their effect on immune reconstitution is not well defined. The present study compares, through randomized trial, the in vivo effect of GM-CSF and G-CSF administration on the immune recovery of patients who underwent ABMT. For that purpose, we have sequentially analysed 14 different T, B and NK lymphoid cell subsets using appropriate dual staining during the first year following transplant (days +6, +17, +31, +66, +90, +120, +180, +360). 24 patients with lymphoproliferative disorders (20 lymphomas and four multiple myelomas) and who had undergone ABMT were included in the study. The median age was 43 years (range 22-62 years). All lymphoma patients were homogenously conditioned with BEAM. Our results show that both GM-CSF and G-CSF aid T-cell (CD3+/alpha beta) recovery though their contribution varies depending on the T-cell subset analysed. G-CSF contributed to a significantly faster recovery of CD8+ cells (P = 0.03). The CD8+ cell regeneration was produced mainly by activated cells (CD38+/HLA-DR+) which lacked the CD11b antigen. In contrast, GM-CSF favoured the regeneration of CD4+ cells (through both the CD45RO+ and CD45RA+ subset), leading to a higher CD4+:CD8+ ratio (P = 0.007). No statistically significant differences were detected in the three groups of patients as regards both the recovery of NK cells and NK activity. Furthermore, the use of HGF did not seem to exert a significant influence on the recovery of B lymphocytes. This recovery was based on the CD5+ subpopulation that showed a rapid rise after the first month. We suggest that G-CSF and GM-CSF not only influence myeloid recovery, but also regeneration of the immune system after ABMT.
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PMID:A randomized study comparing the effect of GM-CSF and G-CSF on immune reconstitution after autologous bone marrow transplantation. 875 25

Neutrophils (PMN) accumulate and are associated with cerebrovascular disturbances after experimental traumatic or ischemic brain injury, and meningitis. We hypothesized that posttraumatic PMN accumulation in brain is mediated by the PMN adhesion receptor Mac-1 (CD11b/CD18). Anesthetized rats were randomized to receive 2 mg/kg intravenously of murine monoclonal antibody to rat Mac-1 (1-B6) or anti-Mac-1 F(ab)2' [1-B6F(ab)2'] fragment (Repligen Corp., Cambridge, MA). Control rats were treated with isotype matched control antibody. Rats were subjected to percussive trauma to the right parietal cortex 30 min after treatment. Rats were killed 24 h posttrauma, and PMN accumulation was assessed by myeloperoxidase (MPO) activity. The presence of 1-B6F(ab)2' bound to PMN in brain after trauma was assessed by immunohistochemistry. Complete blood cell counts were obtained before treatment and 24 h after trauma. Brain MPO activity was reduced by 43% in the 1-B6-treated rats vs. controls (0.31 +/- 0.09 vs 0.55 +/- 0.10 U/g, n = 6/group, p = 0.013) and by 34% in the 1-B6F(ab)2'-treated rats vs. controls (0.43 +/- 0.10 vs. 0.65 +/- 0.09 U/g, n = 6/group, p = 0.006). Systemic neutropenia developed in the 1-B6-treated rats (absolute PMN count decreased by 73% vs. baseline) but not in rats treated with 1-B6F(ab)2' (absolute PMN count increased by 26 and 25% vs. baseline in treated and controls, respectively). Immunohistochemical staining showed 1-B6F(ab)2' on the surface of infiltrated PMN 24 h after trauma. Mac-1 mediates posttraumatic PMN accumulation in brain. This accumulation can be attenuated by 34%, without reducing circulating PMN, using an anti-Mac-1 F(ab)2' fragment; however, some PMN coated with 1-B6F(ab)2' still infiltrate into traumatized tissue. These results are similar to those reported in models of cerebral ischemia, and suggest the participation of multiple PMN adhesion pathways after ischemic and traumatic brain injury.
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PMID:Antibodies against Mac-1 attenuate neutrophil accumulation after traumatic brain injury in rats. 883 1

The purpose of this study was to compare two different in vitro culture conditions for the preservation of human granulocytes. These cells could be used in patients with severe neutropenia following cytotoxic chemotherapy if the functional capacity was retained, and autologous transfusions of granulocytes would circumvent the risk of alloimmunization. Granulocytes were obtained from the peripheral blood of healthy donors and patients with hematologic malignancies who received cytotoxic chemotherapy supported by recombinant human granulocyte colony-stimulating factor (R-metHuG-CSF, 300 micrograms/day, s.c.). Granulocytes were either cultured for 72 h at 4 degrees C in the presence of 100 ng/ml G-CSF or cryopreserved at -196 degrees C. The viability, surface antigen expression, and function of the granulocytes were assessed. Since effective microbial killing involves the attachment of granulocytes to blood vessel walls, transmigration into tissues, chemotaxis, and phagocytosis, the surface expression of the adhesion molecules LFA-1 (CD11a/CD18) and gp 150,95 (CD11c/CD18) was measured. In addition, the IgG receptors Fc gamma RI (CD64), Fc gamma RII (CD32), and Fc gamma RIII (CD16), as well as the complement receptor CR3 (CD11b/CD18), were assessed. Dynamic superoxide anion release served as a measure of the metabolic pathway of the oxidative burst after f-Met-Leu-Phe (fMLP) and phorbol-12-myristate-13-acetate (PMA) stimulation. Substantial differences in the preservation of granulocyte integrity and function were observed between the two storage conditions. Cryopreservation abolished reactivity to extracellular stimuli and severely affected the cell phenotype. On the other hand, functional activity could be maintained for up to 72 h when in vivo primed granulocytes of patients were incubated at 4 degrees C in the presence of G-CSF. This storage modality may permit the use of granulocyte autotransfusion to reduce the risk of neutropenic fever.
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PMID:Granulocytes harvested following G-CSF-enhanced leukocyte recovery retain their functional capacity during in vitro culture for 72 hours. 887 10

Selected CD34+ cells from mobilized apheresis products were cultured in serum-free or serum-containing media supplemented with granulocyte colony-stimulating factor (G-CSF), granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-3 (IL-3), and stem cell factor (SCF; c-kit ligand). We examined the emergence of a CD15+CD11b- population, which appeared morphologically to be promyelocytes. This CD15+CD11b- population can be further expanded in culture into morphologically mature granulocytes. In an attempt to characterize this culture-derived CD15+CD11b- promyelocytic population, single cells were clone sorted into wells of a Terasaki plate containing various growth factors. We compared the growth factor requirements and kinetics of this apheresis culture-derived CD15+CD11b- population to the CD15+CD11b- population from fresh bone marrow samples. Our studies indicate that the CD15+CD11b- promyelocytic population from bone marrow and blood are equivalent in their ability to proliferate and in their requirements for growth factors. The CD15+CD11b- population in vitro shows a high proliferative capacity when compared with the other CD15/CD11b populations (CD15-CD11b-, CD15+CD11b+, CD15-CD11b+). Thus, we can manipulate CD34+ cells in vitro to proliferate and differentiate toward a mature neutrophil lineage. The CD15+CD11b- promyelocytic population derived from this culture may represent the most effective cultured cell population for therapeutic reduction of neutropenia in vivo based on both its stage of differentiation and its proliferative potential.
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PMID:Characterization of a culture-derived CD15+CD11b- promyelocytic population from CD34+ peripheral blood cells. 933 18

Dialysis neutropenia is the result of pulmonary sequestration of neutrophils after complement activation by the dialyzer membrane. Increased expression of neutrophil adhesion receptors, such as CD11b/CD18, suggests that neutrophil adhesion to the capillary endothelium is a possible mechanism. An alternative hypothesis is that the complement fragment C5a modulates neutrophil mechanical properties via the cytoskeleton-largely filamentous actin (F-actin)-stiffening them and thereby slowing their passage through the pulmonary capillaries. To investigate this hypothesis, we developed an assay to measure the F-actin content of neutrophils in whole blood using flow cytometry and the stain NBD-phallacidin. We measured neutrophil F-actin content during hemodialysis of patients with polysulfone (N = 6), Hemophan (N = 6), and Cuprophan membranes sterilized with either ethylene oxide (N = 5) or steam (N = 6). Cell counts, neutrophil and monocyte CD11b expression and plasma C5a concentrations were also measured. The results confirm the strong relationship between the degree of neutropenia, increases in CD11b expression and plasma C5a levels reported by previous researchers. Modulation of the F-actin content of neutrophils was also strongly related to C5a levels, indicating that the neutrophil cytoskeleton is active during dialysis. Modeling of cell counts suggests that with Cuprophan a substantial fraction of neutrophils and monocytes are sequestered before they even pass through the dialyzer, suggesting some form of systemic activation of these cells. Evidence for systemic activation was also seen in measurements of F-actin content, but not CD11b expression, a finding that strengthens the case for the involvement of the cytoskeleton in dialysis neutropenia.
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PMID:Dialysis neutropenia: the role of the cytoskeleton. 950 27

Novel recombinant human C5a receptor antagonists were discovered through modification of the C terminus of C5a. The C5a1-71T1M,C27S,Q71C monomer, (C5aRAM; CGS 27913), was a pure and potent functional antagonist. The importance of a C-terminal cysteine at position 71 to antagonist properties of C5aRAM was confirmed by studying C5a1-71 derivatives with replacements of Q71, C5a derivatives of various lengths (70-74) with C-terminal cysteines, and C5a derivatives of various lengths (71-74) with Q71C replacements. The majority of C5a1-71Q71 derivatives were agonists (C5a-like) in the human neutrophil C5a-induced intracellular calcium mobilization assay. The C5a1-71Q71C derivative was an antagonist. C5a derivatives of lengths 73 and 74 with C-terminal cysteines were agonists, while lengths 70 to 72 were antagonists. C5a derivatives of lengths 72, 73, and 74 with Q71C replacements were agonists, while, again, C5a1-71Q71C was an antagonist. C5aRAM and its adducts, including its dimer, C5aRAD (CGS 32359), were pure antagonists. Additionally, CSaRAM and CSaRAD inhibited binding of 125I-labeled recombinant human C5a to neutrophil membranes (Ki = 79 and 2 pM, respectively), C5a-stimulated neutrophil intracellular calcium mobilization (8 and 13 nM), CD11b integrin up-regulation (10 and 1 nM), superoxide generation (182 and 282 nM), lysozyme release (1 and 2 microM), and chemotaxis (11 and 7 microM). In vivo, intradermal injection of C5aRAM inhibited C5a-induced dermal edema in rabbits. Furthermore, a 5-mg/kg i.v. bolus of C5aRAD significantly inhibited C5a-induced neutropenia in micropigs when challenged with C5a 30 min after C5aRAD administration. C5aRAM and C5aRAD are novel, potent C5a receptor antagonists devoid of agonist or proinflammatory activity with demonstrated efficacy in vitro and in vivo.
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PMID:Novel C5a receptor antagonists regulate neutrophil functions in vitro and in vivo. 960 67

The effects of intravenous injection of recombinant human granulocyte colony-stimulating factor (rhG-CSF) on circulating neutrophil numbers, pulmonary vascular permeability, and morphologic changes in the lung were examined in rabbits. Intravenous injection of rhG-CSF caused a rapid, profound neutropenia due to neutrophil sequestration primarily within capillaries but also in larger microvessels of the lungs. Examination of neutrophil deformability using microfilters revealed that granulocyte colony-stimulating factor (G-CSF) treatment caused a rapid stiffening of neutrophils through the polymerization of F-actin but not microtubule assembly. The expression of CD11b, CD11c, and CD18 on human neutrophils after G-CSF treatment increased, but CD11a did not. Intravenous injection of rhG-CSF did not induce neutrophil emigration or albumin leakage into alveolar space, wet/dry lung weight ratios were unchanged, and no pathologic changes in lung histology were observed. These studies indicate that injection of rhG-CSF caused a rapid neutropenia and neutrophil sequestration in the lungs that is likely to be mediated through a G-CSF-induced decrease in neutrophil deformability, although neutrophil-endothelial cell adhesion may also play a role. However, this G-CSF-induced neutrophil sequestration did not induce a massive lung injury.
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PMID:Granulocyte colony-stimulating factor induces neutrophil sequestration in rabbit lungs. 965 Nov 93

The initiation of hemodialysis using cuprophane membranes is followed by a rapid fall in the circulating neutrophil count. This neutropenia is caused by a transient sequestration of neutrophils in the lung due to homotypic aggregation, largely in response to generation of C5a by contact of plasma with the dialyzer. The transient nature of hemodialysis neutropenia is due to desensitization of neutrophils to stimulation by C5a, thus demonstrating desensitization in vivo. To examine the in vivo effects on surface phenotype of continuous exposure of neutrophils to C5a over 3 h, the surface expression of 22 antigens was examined by flow cytometry in patients undergoing dialysis. Neutropenia was prominent at 15 min and absent at 60 and 180 min of dialysis. CD10, CD11b, CD11c, CD13, CD18, CD35, CD45, CD66acde, and CD66b were upregulated at 15 min and remained upregulated at 180 min. CD61 and CD63 increased slightly at 15 min and returned to baseline by 180 min. CD16 and CD62L were down regulated at 15 min and normalized by 180 min. CD15s, CDw17, CD32, and CD44 were slightly down regulated at 15 min and then returned to baseline by 180 min. CD11a, CD15, CD24, CD31, and CDw65 did not change during dialysis. This study demonstrates the changes in surface phenotype of neutrophils during prolonged in vivo exposure to C5a over 3 h, during which time neutrophils become desensitized to subsequent stimulation by similar concentrations of C5a but maintain responsiveness to other chemotactic stimuli.
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PMID:Changes in neutrophil surface phenotype during hemodialysis. 982 71

Neutropenia and impairment of neutrophil function are commonly observed in patients with human immunodeficiency virus (HIV) infections. The HIV regulatory protein Tat is known to exert immunosuppressive effects. Alcohol is known also to be an immunosuppressive factor, and as alcohol abuse is common among HIV infected hosts, both factors may interact in an additive or synergistic fashion to further impair the host defenses of these patients. In order to test this possibility, endotoxin-induced neutrophil beta2-integrins CD11b and CD18 expression, phagocytosis, and hydrogen peroxide generation were examined in normal and HIV-1 Tat-transgenic mice in the absence and presence of ethanol intoxication. Acute ethanol intoxication was induced in mice (body weight of 25+/-1 g) by an intraperitoneal (ip) injection of ethanol (3 g/kg, 20% in normal saline). Thirty min later, the animals were given an ip injection of endotoxin (20 microg in 0.2 ml of saline/mouse). Vehicle-treated controls received an ip injection of saline without ethanol or endotoxin. Two hr after endotoxin administration, the animals were killed to determine neutrophil functions with flow cytometry. The baseline expression of CD11b and CD18 was similar in normal nontransgenic and Tat-transgenic mice. Endotoxin administration significantly up-regulated CD11b and CD18 expression in normal mice. This up-regulation was suppressed in Tat-transgenic mice. Ethanol intoxication inhibited endotoxin-induced CD11b and CD18 expression in normal mice and totally abolished endotoxin-induced CD11b and CD18 expression in Tat-transgenic mice. Neutrophil phagocytic activity in normal and Tat-transgenic mice was similar. Ethanol intoxication produced a similar inhibition of phagocytosis in both study groups. Endotoxin suppressed phagocytosis in normal mice, and this suppression was more pronounced in Tat-transgenic mice. Spontaneous and phorbol myristate acetate (PMA)-stimulated hydrogen peroxide generation by circulating neutrophils (PMNs) were similar in normal and Tat-transgenic mice. Neither ethanol nor endotoxin affected hydrogen peroxide generation by PMNs. These data show that both Tat and alcohol significantly impair PMN function, and this may be a mechanism leading to the increased susceptibility of the HIV-infected host to bacterial infection.
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PMID:The human immunodeficiency virus type I Tat protein potentiates ethanol-induced neutrophil functional impairment in transgenic mice. 988 49

Acute thermal trauma is well known to produce evidence of a "systemic inflammatory response" in vivo, as manifested by evidence of complement activation, appearance in plasma of a variety of inflammatory factors, and development of multi-organ injury. The current studies were focused on acute thermal injury of rat skin and factors responsible for accompanying activation of blood neutrophils. Acute thermal injury of rat skin resulted in a time-dependent loss of L-selectin and up-regulation of Mac-1 (CD11b/CD18) on blood neutrophils, with no changes in LFA-1 (CD11a/CD18). The loss of L-selectin was prevented by blockade of C5a but not by blockade of the alpha-chemokine, macrophage inflammatory protein-2 (MIP-2). C5a, the alpha chemokines, MIP-2 and keratinocyte-derived cytokine (KC), and platelet activating factor (PAF) contributed to up-regulation of blood neutrophil Mac-1. Blocking interventions against these mediators also blunted the degree of neutropenia developing after thermal trauma. These data suggest that activation of blood neutrophils after thermal trauma is related to the role of several chemotactic mediators. These studies may provide clues regarding factors responsible for development of the "systemic inflammatory response syndrome" after thermal injury in the experimental model employed.
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PMID:Role of chemotactic factors in neutrophil activation after thermal injury in rats. 1044 99

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