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

Immune responses to platelet and neutrophil alloantigens are involved in the pathogenesis of several clinical syndromes including: neonatal alloimmune thrombocytopenia (NATP), post-transfusion purpura (PTP), refractory responses to platelet transfusion, neonatal alloimmune neutropenia (NAN), transfusion-related acute lung injury (TRALI), and chronic benign autoimmune neutropenia of infancy. Initially, platelet alloantigens were only characterized serologically. Subsequently, they were localized to specific platelet surface glycoprotein structures and ultimately defined to the level of nucleic acid polymorphisms on platelet glycoprotein genes. These advances allowed the tools of molecular biology to be applied to typing for platelet alloantigens. The advantages of such typing methods include: 1) patient platelets are no longer required for the typing assays, and therefore, platelet types can be established on extremely thrombocytopenic samples (by using peripheral blood white blood cells [WBC]); 2) The genotyping methods eliminate the requirement for rare serologic reagents. A number of different genotyping methods have been developed. These include: restriction fragment length polymorphism (RFLP), sequence specific primers (SSP), and Dot-Blot hybridization. Clinical applications of this methodology include: determining the platelet genotype of fetuses at risk for NATP, in the diagnosis of PTP, and identifying causes of refractory responses to platelet transfusions. Analogous to platelet alloantigens, a limited number of neutrophil alloantigens can now be determined by molecular biologic methods. The new methods obviate the need to isolate fresh neutrophils for serologic typing and do not require rare serologic reagents. To date, molecular polymorphisms associated with alloantigens on the neutrophil Fc gamma RIIIb surface glycoprotein have been elucidated. These include the allo-antigens NA1, NA2, and SH.
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PMID:Platelet and neutrophil alloantigen genotyping in clinical practice. 957 76

Circulating levels of interleukin (IL)-6, IL-8, soluble Fc gamma receptor type III (sFc gammaRIII), mannose-binding protein (MBP), and C-reactive protein (CrP) were assessed among febrile children with cancer and neutropenia. Levels of IL-6, IL-8, sFc gammaRIII, MBP, and CrP were measured in serum from 56 pediatric cancer patients at the time of admission for 121 episodes of febrile neutropenia (88 febrile episodes without identifiable source, 5 clinically documented infections, 20 episodes of bacteremia due to gram-positive and 5 due to gram-negative organisms, and 3 fungal infections). IL-6 and IL-8 levels were higher in patients with either bacteremia due to gram-negative organisms or fungal infections than in patients with febrile episodes without an identifiable source (P < .00001 for each). IL-6 and IL-8 levels were higher in children with bacteremia due to gram-negative organisms than in those with bacteremia due to gram-positive organisms (P = .0011 and P = .0003, respectively). The measured levels of CrP, MBP, and sFc gammaRIII were not useful for identifying the type of infection. These preliminary results show the potential usefulness of IL-6 and IL-8 as early indicators for life-threatening infections in febrile cancer patients with neutropenia.
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PMID:Assessment of measuring circulating levels of interleukin-6, interleukin-8, C-reactive protein, soluble Fc gamma receptor type III, and mannose-binding protein in febrile children with cancer and neutropenia. 1047 51

Human neutrophil antigens play an important role in provoking immune neutropenia and transfusion-reactions. The aim of this study was to determine granulocyte-specific antigens on the neutrophil Fc gamma receptor IIIb (Fc gamma RIIIb, CD16b), namely, the HNA-1a(NA1) and HNA-1b(NA2) antigens and their gene frequencies in Tunisian blood donors and Berbers. One hundred and ninety-nine unrelated healthy Tunisian blood donors and Berbers were typed for HNA-1a and HNA-1b(NA1 and NA2), using polymerase chain reaction with sequence-specific primers (PCR-SSP). In 24 granulocyte samples, the HNA-1a and HNA-1b phenotypes was additionally determined by the granulocyte immunofluorescence test (GIFT) and correlated with the genotyping results. A subsequent analysis of the genotyping study showed that, the HNA-1a and HNA-1b gene frequencies observed, were 0.342 and 0.658 for Berbers, and 0.311 and 0.668 for blood donors, respectively. In the genotyping study conducted, it was determined that the HNA-1a and HNA-1b gene frequencies observed in Tunisian blood donors and Berbers are similar to those previously reported in other white populations.
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PMID:Gene frequencies of human neutrophil antigens in the Tunisian blood donors and Berbers. 1169 21

Antibodies directed against antigens on the granulocyte (neutrophil) membrane can cause a variety of disorders including neonatal immune neutropenia, immune neutropenia after bone marrow transplantation, autoimmune neutropenia, and drug-induced immune neutropenia. Since granulocyte alloantibodies can lead to severe pulmonary transfusion reactions (TRALI), febrile transfusion reactions and refractoriness to granulocyte transfusions, they also play an important part in blood transfusion. The implicated human neutrophil alloantigens (HNA) have been renamed in the recently introduced HNA nomenclature which is based on the antigen's glycoprotein location. The Fc gamma Receptor IIIb (CD16, HNA-1) and the NB1 glycoprotein (CD177, HNA-2) represent the major immunogenic molecules of the neutrophil membrane. They bear the clinically most important antigens HNA-1a,-1b,-1c (NA1, NA2, SH) and HNA-2a (NB1), respectively. For the detection of granulocyte antibodies, a combination of immunofluorescence and agglutination tests together with a panel of freshly isolated, typed test neutrophils has been shown to represent the best means of detection. The introduction of the glycoprotein-specific assay "MAIGA" has improved alloantibody identification considerably. To facilitate and improve neutrophil typing, PCR-SSP techniques have been established for HNA-1a,-1b, and -1c genotyping.
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PMID:Granulocyte immunology. 1173 15

Granulocyte (neutrophil) antibodies can cause autoimmune neutropenia, drug-induced neutropenia, immune neutropenia after bone marrow transplantation, neonatal immune neutropenia, refractoriness to granulocyte transfusions as well as febrile and pulmonary transfusion reactions. In the last decade, considerable progress has been made in the characterization of the implicated antigens. In 1998, the Granulocyte Antigen Working Party of the ISBT introduced a new nomenclature for human neutrophil alloantigens (HNA), which is based on the antigens' glycoprotein location. In the HNA nomenclature the immunogenic (glyco-) proteins are indicated by arabic numbers followed by a letter of the alphabet which identify the (glyco-) proteins' polymorphisms, i.e. the specific antigens. Currently, seven HNA antigens are assigned to five systems. The HNA-1a, HNA-lb and HNA-1c antigens, the former NA1, NA2, and SH antigens, have been identified as polymorphic forms of the neutrophil Fc gamma receptor IIIb (CD16b) encoded by three alleles. Recently, we could elucidate the primary structure of the HNA-2a antigen, the former NB1. We could identify the HNA-2a-bearing glycoprotein as a novel member of the Ly-6/uPAR superfamily which has been clustered meanwhile as CD177. The HNA-3a antigen, the former 5b, is located on a 70-95 kDa glycoprotein. However, its molecular basis is still unknown. Finally, the HNA-4a and HNA-5a antigens, the former MART and OND, were found to be caused by single nucleotide mutations in the alphaM (CD11b) and alphaL (CD11a) subunits of the leucocyte adhesion molecules (beta2 integrins). The glycoproteins CD11b, CD16b, and CD177 have been found to be also frequent targets of autoantibodies - approximately 30% of neutrophil autoantibodies are directed against CD16b. Characterization of granulocyte antigens have expanded our diagnostic tools by the introduction of genotyping techniques and immunoassays for antibody identification. In addition, it allowed new insights in the pathophysiology of immune neutropenias and transfusion reactions. Ongoing studies will further improve the prevention and management of granulocyte antibody-mediated diseases.
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PMID:Molecular nature of antigens implicated in immune neutropenias. 1243 Aug 90

The present study was performed to examine whether the expression of CD64 Fc gamma receptor type I (FcgammaRI) on both neutrophils and monocytes can be modulated by multiple daily administrations of granulocyte colony-stimulating factor (G-CSF) to patients with non-Hodgkin's lymphoma in neutropenia caused by CHOP (cyclophosphamide, doxorubicin, vincristine, and prednisone) chemotherapy. The expression of CD64 was determined by flow cytometric analysis at the following time points: before chemotherapy, at the nadir of the neutrophil count, at the fifth day after the start of G-CSF administration, and at more than 8 days after the start of G-CSF administration. CD64 expression was enhanced in patients given G-CSF during CHOP treatment, whereas CD64 expression remained unchanged in patients not given G-CSF CD64 expression levels on both neutrophils and monocytes were significantly up-regulated by the daily administration of G-CSF and reached peak levels at day 5 (P = .0007). Thereafter, expression on both cell types remained at almost the same levels as on day 5 for the rest of the treatment course, even though G-CSF therapy continued for 3 to 5 more days. Interestingly, CD64 expression on monocytes was already increased significantly (P = .0001) at the nadir of the neutrophil count relative to the baseline before chemotherapy and then was additionally up-regulated by day 5 after the start of G-CSF injections (P = .019). In antibody-dependent cellular cytotoxicity assays, we found that rituximab-mediated cell lysis was significantly enhanced at day 5 after the start of G-CSF treatment (P = .01). In conclusion, this study shows that multiple doses of G-CSF administered to lymphoma patients with neutropenia due to CHOP chemotherapy can enhance CD64 expression on both neutrophils and monocytes. Peak CD64 levels are reached at day 5 of G-CSF treatment, resulting in an activation of the rituximab-mediated antitumor ability of these effector cells. This finding may be useful in determining the optimal timing of administration for an antibody such as rituximab in a chemotherapeutic strategy designed to exert a maximal effect against tumor cells.
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PMID:CD64 surface expression on neutrophils and monocytes is significantly up-regulated after stimulation with granulocyte colony-stimulating factor during CHOP chemotherapy for patients with non-Hodgkin's lymphoma. 1497 80

Fc gamma RIIIb receptor is expressed primarily on neutrophils as three polymorphic antigens (HNA-1a, HNA-1b, and HNA-1c) that are encoded by alleles FCGR3B*1, FCGR3B*2, and FCGR3B*3, respectively. These antigens play an important role in immune neutropenia; their absence predisposes individuals who lack them to life-threatening infections. This study investigated the FCGR3B gene frequencies in three ethnic Chinese populations: Han, She, and Tajik. FCGR3B*1, FCGR3B*2, and FCGR3B*3 were genotyped by PCR using sequence specific primers (PCR-SSP). The results showed the gene frequencies were 0.55 for FCGR3B*1 and 0.45 for FCGR3B*2 in 177 Han individuals, 0.69 for FCGR3B*1 and 0.31 for FCGR3B*2 in 87 She individuals, and 0.35 for FCGR3B*1 and 0.65 for FCGR3B*2 in 99 Tajik individuals, respectively. The FCGR3Bnull genotype was not found, but the FCGR3B*3 allele was identified in only three individuals in the Tajik population. DNA clone and sequencing confirmed that these individuals had the C ==>A mutation at position 266 on exon 3. This study found that the gene frequencies in Han and She ethnic groups were similar to those previously reported in the Asian population, but the FCGR3B allele frequencies in the Tajik population were more similar to that of Caucasians.
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PMID:FCGR3B polymorphism in three ethnic Chinese populations. 1578 3

Transfusion-related acute lung injury (TRALI) is the most common cause of transfusion-related mortality. To explore the pathogenesis of TRALI, we developed an in vivo mouse model based on the passive transfusion of an MHC class I (MHC I) mAb (H2Kd) to mice with the cognate antigen. Transfusion of the MHC I mAb to BALB/c mice produced acute lung injury with increased excess lung water, increased lung vascular and lung epithelial permeability to protein, and decreased alveolar fluid clearance. There was 50% mortality at a 2-hour time point after Ab administration. Pulmonary histology and immunohistochemistry revealed prominent neutrophil sequestration in the lung microvasculature that occurred concomitantly with acute peripheral blood neutropenia, all within 2 hours of administration of the mAb. Depletion of neutrophils by injection of anti-granulocyte mAb Gr-1 protected mice from lung injury following MHC I mAb challenge. FcRgamma-/- mice were resistant to MHC I mAb-induced lung injury, while adoptive transfer of wild-type neutrophils into the FcRgamma-/- animals restored lung injury following MHC I mAb challenge. In conclusion, in a clinically relevant in vivo mouse model of TRALI using an MHC I mAb, the mechanism of lung injury was dependent on neutrophils and their Fc gamma receptors.
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PMID:Neutrophils and their Fc gamma receptors are essential in a mouse model of transfusion-related acute lung injury. 1671 Apr 75

Alloimmunization to granulocyte-specific antigens can occur during pregnancy. Maternal antibodies of IgG class can cross the placenta to result in alloimmune neonatal neutropenia. Antibodies to human neutrophil antigens anti-HNA-1a, HNA-1b, and HNA-2a have been most commonly reported to cause alloimmune neonatal neutropenia. Isoantibodies to Fc gamma RIIIb (CD16) if mother is a HNA-null phenotype are rarely involved in neonatal neutropenia. We report on a case of severe neutropenia (440 neutrophils/muL) due to anti-Fc gamma RIIIb (CD16) isoimmunization. On day 14 severe omphalitis developed, which was treated for 7 days by an antibiotic (ceftriaxone in a dose of 80 mg/kg/d) according to umbilical swab finding. Omphalitis persisted for 10 days in spite of antibiotic therapy and only resolved upon the introduction of rhG-CSF therapy. Therapy with rh-GCSF proved efficient and led to neutrophil count increase to 1970/muL and cure of omphalitis. However, therapeutic effect on granulocyte count was of transient nature, as granulocyte count fell to 760 n/muL on day 4 of therapy discontinuation. Neutropenia persisted for 2 months. The newborn was discharged from the hospital on day 26 with normal clinical status with clinical and laboratory control examinations at 2-week intervals. No additional infections were observed during the course of neutropenia.
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PMID:A Case of Neonatal Neutropenia Due to Anti-Fc Gamma Receptor IIIb Isoantibodies Treated with Recombinant Human Granulocyte Colony Stimulating Factor. 1973 Jul 45


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