Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression from the human parvovirus B19p6 promoter fused to the firefly luciferase ('Luc') reporter gene was evaluated in a non-erythroid human nasopharyngeal carcinoma cell line, KB, and a human megakaryocytic leukaemia cell line, MB-02, known to become permissive for B19 replication following erythroid-differentiation. The B19p6-Luc construct was introduced into KB and MB-02 cells, both in undifferentiated and differentiated states, either via DNA-mediated transfection, or via infection with recombinant adeno-associated virus 2 (AAV), a non-pathogenic human parvovirus known to possess a broad host-range. Although Luc activity was readily detected in KB cells following transfection of the B19p6-Luc plasmid DNA, no expression from the B19p6 promoter was observed following infection with recombinant virus. In addition, transfection of the reporter plasmid resulted in high-level expression of Luc in differentiated but not in undifferentiated MB-02 cells. However, no Luc activity was detected, even in differentiated MB-02 cells, following infection with recombinant virus. Further studies with an additional recombinant as well as wild-type (wt) AAV revealed that MB-02 cells were non-permissive for AAV infection. A second human megakaryocytic leukaemia cell line, M07e, was likewise resistant to infection by recombinant as well as wt AAV. Taken together, these studies identify the first human cell type that cannot be infected by AAV. They indicate that expression from the B19p6 promoter, in the context of an AAV genome, is restricted to primary human haematopoietic cells, perhaps because parvoviral DNA replication and transcription are intrinsically coupled.
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PMID:Differential expression in human cells from the p6 promoter of human parvovirus B19 following plasmid transfection and recombinant adeno-associated virus 2 (AAV) infection: human megakaryocytic leukaemia cells are non-permissive for AAV infection. 868 95

Bone marrow of 61 HIV-1-infected patients and 23 control patients was examined to determine the incidence of B19 infection and its clinical impact in HIV-1-infected persons. Of the 61 HIV-infected patients studied, ages ranged from 22-47 years with a mean of 33.2 years. There was a man:woman ratio of 3.8:1. With regard to staging of HIV disease at the time of bone marrow sampling, 52 patients were CDC group 4, 5 patients were CDC group 3, and 4 patients were CDC group 2. Control patients, were not known to be HIV-1-infected, and had one of the following conditions: lymphoma, leukaemia, thrombocytopenia, thrombocytosis, anaemia, multiple myeloma, raised serum IgM. Thirteen of 61 HIV-infected patients and 0 of 23 control patients were positive for B19 DNA in bone marrow (two-tailed P value = 0.016). Within the HIV-infected group, the average haemoglobin among persons testing B19 DNA positive (n = 13) was 11.1 g/dl, compared with 11.5 g/dl among persons testing B19 DNA negative (n = 48). In conclusion, B19 persistence may be common and frequently subclinical in AIDS patients.
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PMID:Parvovirus B19 infection in AIDS patients. 908 29

The blood borne viruses must be separated into major and minor agents. Major viruses transmissible by blood transfusion are human immunodeficiency virus (HIV) and hepatitis B and C viruses (respectively HBV, HCV). The prevalence of virological markers in French blood donors has been continuously decreasing since the implementation of serological screening methods as soon as they were available. In 1998, the prevalences (per 10,000 donations) were 0.17 for antibody to HIV, 0.08 for antibody to human T-cell leukemia virus (HTLV), 2.23 for hepatitis B surface antigen (HBs Ag) and 2.52 for antibody to HCV. The values are, of course, higher in new donors when compared to regular donors: approximately five-fold for HIV, 50-fold for HCV and 300-fold for HBs Ag. The remaining major questions concern the residual risk due to infectious donations which could escape the preventive measures. It seems evident that the major risk is imputable mainly to donations collected during the window period. During the 1996-1998 period, the residual risk for HIV was 1 out of 1,350,000 donations, 0 for HTLV, 1 out of 375,000 for HCV, and 1 out of 220,000 for HBV. A few cases of "immunosilent" patients have been reported. They remain exceptional. The first data collected after the implementation of nucleic acid technology (NAT) confirm the very low residual risk. The recent introduction of leukodepletion probably brought an important contribution to diminishing the risk of transmission of leucotropic viruses such as cytomegalovirus (CMV), Epstein-Barr virus (EBV), human herpesviruses-6, -7 and -8, and HTLV. If the purification process of plasma-derived medicinal products including inactivation procedures makes it possible to be confident with the elimination of infectivity due to enveloped viruses, the detection of nucleic acid sequences derived from naked viruses in plasma pools such as parvovirus B19 or hepatitis A virus (HAV), and/or the introduction of a nanofiltration step during the purification process, when possible, may greatly contribute to their safety. The emergence of a new form of the Creutzfeldt-Jakob disease (nvCJD) introduces a new series of questions about the safety of blood products that, although the risks appear limited, are not yet resolved.
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PMID:[Viruses and unconventional transmissible agents: update on transmission via blood ]. 1091 17

Inhibitors against factor XI (FXI) have been frequently described in patients who acquired inhibitors (due to auto-immune disorders, malignancies or infections), but less often in those with a congenital deficiency of this factor, who had received plasma infusions. The present report concerns one such inhibitor found in the plasma of a patient with chronic myelomonocytic leukaemia and infected by B19 parvovirus, who was neither a heterozygote nor a homozygote for FXI deficiency, and who had no bleeding tendency despite a very low FXI level. Taking this case into account, we discuss and present the clinical and biological features of acquired FXI deficiency caused by an inhibitor.
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PMID:A case of chronic myelomonocytic leukaemia and factor XI deficiency with a circulating anticoagulant. 1144 50

A preleukaemic phase, typified by pancytopenia and bone marrow (BM) hypoplasia, is an uncommon but well-documented prelude to acute lymphoblastic leukaemia (pre-ALL) in children. Parvovirus B19 (B19) exhibits a marked tropism to human BM and replicates only in erythroid progenitor cells acting as a confounding, but treatable agent in immunocompromised patients. We present the first case of B19-associated pre-ALL characterized by severe and recurring transient pancytopenia in a child who developed ALL 5 months later. The advent of B19-specific IgG at the time of infection and the subsequent disappearance 1.5 years later has not previously been described. In this patient the observed cytopenias were probably the result of B19 acting in concert with the failing BM and B19 is possibly one of several factors capable of triggering the onset of pre-ALL.
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PMID:Transient pancytopenia preceding acute lymphoblastic leukaemia (pre-ALL) precipitated by parvovirus B19. 1249 95

This review addresses three related bone marrow failure diseases, the study of which has generated important insights in hematopoiesis, red cell biology, and immune-mediated blood cell injury. In Section I, Dr. Young summarizes the current knowledge of acquired aplastic anemia. In most patients, an autoimmune mechanism has been inferred from positive responses to nontransplant therapies and laboratory data. Cytotoxic T cell attack, with production of type I cytokines, leads to hematopoietic stem cell destruction and ultimately pancytopenia; this underlying mechanism is similar to other human disorders of lymphocyte-mediated, tissue-specific organ destruction (diabetes, multiple sclerosis, uveitis, colitis, etc.). The antigen that incites disease is unknown in aplastic anemia as in other autoimmune diseases; post-hepatitis aplasia is an obvious target for virus discovery. Aplastic anemia can be effectively treated by either stem cell transplantation or immunosuppression. Results of recent trials with antilymphocyte globulins and high dose cyclophosphamide are reviewed. Dr. Abkowitz discusses the diagnosis and clinical approach to patients with acquired pure red cell aplasia, both secondary and idiopathic, in Section II. The pathophysiology of various PRCA syndromes including immunologic inhibition of red cell differentiation, viral infection (especially human parvovirus B19), and myelodysplasia are discussed. An animal model of PRCA (secondary to infection with feline leukemia virus [FeLV], subgroup C) is presented. Understanding the mechanisms by which erythropoiesis is impaired provides for insights into the process of normal red cell differentiation, as well as a rational strategy for patient management. Among the acquired cytopenias paroxysmal nocturnal hemoglobinuria (PNH) is relatively rare; however, it can pose formidable management problems. Since its first recognition as a disease, PNH has been correctly classified as a hemolytic anemia; however, the frequent co-existence of other cytopenias has hinted strongly at a more complex pathogenesis. In Section III, Dr. Luzzatto examines recent progress in this area, with special emphasis on the somatic mutations in the PIG-A gene and resulting phenotypes. Animal models of PNH and the association of PNH with bone marrow failure are also reviewed. Expansion of PNH clones must reflect somatic cell selection, probably as part of an autoimmune process. Outstanding issues in treatment are illustrated through clinical cases of PNH. Biologic inferences from PNH may be relevant to our understanding of more common marrow failure syndromes like myelodysplasia.
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PMID:New Insights into the Pathophysiology of Acquired Cytopenias. 1170 33

There have been few reports of large granular lymphocyte (LGL) leukemia with neutropenia complicated with pure red cell aplasia (PRCA) that developed after human parvovirus (HPV) B19 infection. We report here the case of a 35-year-old female who developed HPV B19-associated PRCA with T-LGL leukemia. LGL count of peripheral blood was lower than 2 x 10(9) l(-1), although phenotypic analysis of LGL showed CD3+, CD16-, CD56-, CD57+ with double positive for CD3 and CD57, and genetic study showed the clonal rearrangement of T-cell receptor gene. Microscopically, the patient's bone marrow showed characteristic giant proerythroblasts. A serologic study of HPV B19 was positive for IgM, but negative for IgG, with a positive result on Dot-blot hybridization assay for HPV B19 DNA. Severe anemia and reticulocytopenia ameliorated without treatment 10 days after the initial examination, but slight anemia, neutropenia, a moderate increase of LGL counts with rearrangement of TCR gene, and positive result of HPV B19 DNA has persisted 7 months after the initial examination. We suggest that this viral infection may play an etiologic role in some patients with LGL leukemia who develop PRCA.
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PMID:Pure red cell aplasia associated with parvovirus B19 infection in T-large granular lymphocyte leukemia. 1191 33

The reconstitution of blood and its components is hampered by factors of compatibility, availability, and the risk of transmission of infectious diseases. Protozoal agents such as plasmodium malariae and trypanosoma cruzi are only regionally relevant. Bacterial transmissions are easy to prevent and treat. Antibody, antigen, and nucleic acid screening have been implemented to prevent transmission of blood-borne viruses. Transfusion-relevant viruses include hepatitis B and C virus (HBV and HCV), human immunodeficiency virus (HIV), human T leukemia virus (HTLV-I), and in certain circumstances, parvovirus B19, hepatitis A virus (HAV), and cytomegalovirus (CMV). Of great concern is the possible transmission of prion protein causing transmissible spongiform encephalopathy. Of future interest will be whether other viruses such as Nipah and Hendra virus are blood-borne and whether viruses such as TT, SEN, and GBV-C are involved in diseases or their progression, while not causing hepatitis.
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PMID:Virus safety of human blood, plasma, and derived products. 1237 92

Human parvovirus B19 (PV B19) infection in children commonly presents as fifth disease. Transient red cell crisis, the other manifestation of PV B19 infection, is usually reported in children with chronic hemolytic anemia, with a worsening of the anemia. However, this condition may pass unrecognized in children without an underlying hemolytic disorder, since the anemia may be of a short duration and self-limiting. The authors report 3 cases of PV B19-induced transient aplastic in different clinical settings--pancytopenia in one child, during induction phase for acute lymphoblastic leukemia in the second, and fever with joint pains in the third. Treatment for PV B19-induced transient aplastic crisis is essentially supportive. There may be a dilemma in patients on immunosuppressive therapy, since initially it is difficult to distinguish between chronic pure red cell aplasia (a condition where intravenous immunoglobulin therapy is beneficial) and transient aplastic crisis, where supportive red cell transfusions suffice. The patient with leukemia also recovered spontaneously despite being on steroids. In all the 3 patients, the pure red cell aplasia recovered spontaneously without administration of intravenous gammaglobulins.
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PMID:Parvovirus B19-associated transient red cell aplasia in children: the role of bone marrow examination in unusual presentations. 1555 14

This study was carried out to detect Parvovirus B19 (PB19) DNA together with its antibodies in the sera of children with a range of hematological disorders to clarify the contribution of this infection to changes observed in hematological picture in those populations. This study included 85 pediatric patients with different hematological disorders. Twenty healthy subjects with matched age and sex were included as controls. Patients were classified into four groups; group I included 25 patients with hemolytic anemia in aplastic crisis, group II included 20 patients with hemolytic anemia without aplastic crisis, group III included 20 acute leukemia patients under chemotherapy, group IV included 20 patients with recently diagnosed acute leukemia. Virological study for PB19 included determination of specific IgG & IgM together with viral DNA by polymerase chain reaction (PCR). In all groups of patients with positive markers for PB19, there were statistically significant differences in the mean Hb concentration and RBC count (P < 0.001 for each), presence of neutropenia (P = 0.003) and lymphocytosis (P < 0.001) compared to controls. There was statistically significant difference in the prevalence of PB19 IgM, IgG and PCR among studied groups compared to control group. In group I and group II IgG had the highest positive rate (56 and 35%, respectively). In group III IgG also had a high positive rate (45%). However, in group IV IgM had the highest positive rate (50%) followed by PCR (45%) then IgG (40%). In conclusion, PB19 infection is detected in high rates among children with hematological disorders. PB19 must be suspected and screened for when there is anemia in those patients associated with neutropenia and lymphocytosis. In patients with acute leukaemia under chemotherapy who have unexpected anemia, neutropenia and lymphocytosis Parvovirus infection should be considered before a change of chemotherapy protocol. Screening of blood for PB19 may be helpful in understanding the epidemiology of infection with this virus. The direct detection of DNA by PCR in sera needs to be coupled with serology for a more reliable diagnosis of PB19 infections in these children.
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PMID:Parvovirus B19 infection in children with a variety of hematological disorders. 1717 65


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