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:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A panel of 11 IgG monoclonal antierythrocyte antibodies was generated by fusing spleen and bone marrow cells from unimmunized New Zealand black mice with the nonsecreting murine plasmacytoma cell line P3.X63.NS1. The monoclonal antibodies were detected by indirect hemagglutination of unaltered erythrocytes from several strains of mice. Seven of the antibodies cross-reacted with rat erythrocytes, but none of the antibodies agglutinated erythrocytes from any other species tested. Seven of the monoclonal antibodies were also capable of fixing rabbit complement. In vivo studies utilizing these 11 IgG-secreting hybridomas were performed in syngeneic BALB/c mice. Mice injected with nine of the hybridomas showed positive direct antiglobulin test results but did not become anemic. In contrast, hybridoma 114, secreting an IgG3 antibody, and hybridoma 245, secreting an IgG1 antibody, were both capable of mediating an acute, rapidly fatal hemolytic anemia. Intraperitoneal injection of hybridomas 114 and 245 resulted in positive direct and indirect antiglobulin test results, decreased hematocrit level, and reticulocytosis 3 to 6 days after cell injection. The mice survived a mean of 8 days, and death was associated with severe anemia and spontaneous erythrocyte agglutination. Autopsy studies revealed hepatosplenomegaly, small mesenteric tumor (hybridoma) mass, and no ascites. The liver and spleens were characterized histologically by erythrophagocytosis, extramedullary hematopoiesis, and hemosiderin deposition. Acute hemolytic anemia in BALB/c mice mediated by hybridomas 114 and 245 represents a new animal model that can be used to further define the mechanisms of immune hemolytic disease.
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PMID:Monoclonal antibody-induced murine hemolytic anemia. 648 Dec 19

Intrauterine human parvovirus B19 infection is related to non-immune hydrops fetalis and fetal death. First, we performed epidemiological studies to determine the critical period during which maternal infection led to hydrops fetalis. The studies showed that the hepatic period of hematopoietic activity was correlated with the critical period of maternal infection, which suggested that B19 might have affinity for erythroid lineage cells at the stage of hematopoiesis. We next established an in vitro infection experimental system of B19 using erythroid lineage cells derived from fetal liver cells. We demonstrated that the erythroid lineage cells proved to be appropriate targets for B19 virus and that B19 infection could induce apoptosis of infected cells. The massive destruction of erythroid lineage cells through apoptosis seems to cause severe anemia and to result in heart failure of the fetus. To analyze the cytotoxic mechanism in more detail, we established a stringent regulatory expression system of the NS1 protein encoded by the B19 genome and indicated that the apoptosis induced by B19 was directly caused by the NS1 protein. Experiments using mutations engineered in the ATP-binding domain of NS1 indicated that this domain played a critical role for the apoptosis induction. The present studies may contribute to a better understanding of the pathogenesis of hydrops fetalis associated with B19 infection during pregnancy.
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PMID:Pathogenesis of nonimmune hydrops fetalis caused by intrauterine B19 infection. 1077 Jun 16

The isolation of infectious salmon anaemia virus (ISAV) from asymptomatic wild fish species including wild salmon, sea trout and eel established that wild fish can be a reservoir of ISAV for farmed Atlantic salmon. This report characterizes the biological properties of ISAV isolated from a disease outbreak in farmed Coho salmon in Chile and compares it with ISAV isolated from farmed Atlantic salmon in Canada and Europe. The virus that was isolated from Coho salmon tissues was initially detected with ISAV-specific RT-PCR (reverse transcription-polymerase chain reaction). The ability of the virus to grow in cell culture was poor, as cytopathology was not always conspicuous and isolation required passage in the presence of trypsin. Virus replication in cell culture was detected by RT-PCR and IFAT (indirect fluorescent antibody test), and the virus morphology was confirmed by positive staining electron microscopy. Further analysis of the Chilean virus revealed similarities to Canadian ISAV isolates in their ability to grow in the CHSE-214 cell line and in viral protein profile. Sequence analysis of genome segment 2, which encodes the viral RNA polymerase PB1, and segment 8, which encodes the nonstructural proteins NS1 and NS2, showed the Chilean virus to be very similar to Canadian strains of ISAV. This high sequence similarity of ISAV strains of geographically distinct origins illustrates the highly conserved nature of ISAV proteins PB1, NS1 and NS2 of ISAV. It is noteworthy that ISAV was associated with disease outbreaks in farmed Coho salmon in Chile without corresponding clinical disease in farmed Atlantic salmon. This outbreak, which produced high mortality in Coho salmon due to ISAV, is unique and may represent the introduction of the virus to a native wild fish population or a new strain of ISAV.
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PMID:Isolation and identification of infectious salmon anaemia virus (ISAV) from Coho salmon in Chile. 1141 49

Human parvovirus B19 (B19) infection during pregnancy is associated with the adverse foetal outcome known as non-immune hydrops fetalis (NIHF). Although B19 is known to infect erythroid-lineage cells in vivo as well as in vitro, the mechanism leading to the occurrence of NIHF is not clear. To investigate the possible involvement of the B19 non-structural protein NS1 in NIHF, three independent lines of transgenic mice were generated that expressed NS1 under the control of the Cre-loxP system and the GATA1 promoter. Two of the three lines expressed NS1 in erythroid-lineage cells. Most of the transgenic mice died at the embryonic stage, some of which developed hydropic changes caused by severe anaemia at embryonic day 15.5 (E15.5). Histological examination of embryos at E15.5 showed significantly fewer erythropoietic islands in the liver parenchyma, whereas their hearts showed no abnormal signs, such as cardiomegaly and apoptotic cells. The NS1-transgenic mouse lines established here provide an animal model for human NIHF and suggest that NS1 plays a crucial role in the adverse outcome associated with intrauterine B19 infection in humans.
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PMID:A transgenic mouse model for non-immune hydrops fetalis induced by the NS1 gene of human parvovirus B19. 1180 19

Parvovirus B19 is the causative agent of erythema infectiosum. In addition, the infection may be associated with other disease manifestations: anemia and aplastic crisis, thrombo- or granulocytopenies; spontaneous abortion or hydrops fetalis in pregnant women; acute and chronic arthritis in adults and children, myocarditis and hepatitis. Both acute and persistent courses of B19-infections have been reported. All patients develop IgG against the capsid proteins VP1 and VP2, the majority of virus neutralizing antibodies that offer life-long protection against reinfections are directed against the VP1-unique region. IgM is mainly directed against VP2-specific epitopes. These antibodies may be present for only a rather short period of two to ten weeks after acute infection. IgG-antibodies against the nonstructural protein NS1 are preferentially found in patients which are unable to eliminate the virus and develop persisting viremia or virus persistence in distinct organs, e.g. synovial fluid, liver, bone marrow.
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PMID:Antibody responses in parvovirus B19 infected patients. 1211 51

Human parvovirus B19 infections may cause a widespread benign and self-limiting disease in children and adults, known as erythema infectiosum or fifth disease. A variety of further manifestations are associated with the infection such as arthralgias, arthritis, leukopenia and thrombocytopenia, anemia and vasculitis, spontaneous abortion and hydrops fetalis in pregnant women. Both in children and adults parvovirus B19 infections have been frequently implicated as a cause or trigger of various forms of autoimmune diseases affecting joints, connective tissue and large and small vessels. In addition, autoimmune neutropenia, thrombocytopenia and hemolytic anemia are known as sequelae of B19 infection. The molecular basis of the autoimmune phenomena and resultant pathogenesis is unclear. The involvement of molecular mimicry between cellular and viral proteins, the induction of enhanced cytokine production via the viral transactivator protein NS1 and the phospholipase A2-like activity of the capsid protein VP1 may contribute to the induction of autoimmune reactions. All the known data and the potential mechanisms involved in the pathogenesis will be discussed in this review.
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PMID:Parvovirus B19 infection and autoimmune disease. 1284 49

Human parvovirus B19 (B19) infection causes human bone marrow failure, by affecting erythroid-lineage cells which are well-known target cells for B19. The anaemia induced by B19 infection is of minor clinical significance in healthy children and adults, however, it becomes critical in those afflicted with haemolytic diseases. This condition is called transient aplastic crisis, and the pathogenesis is explained by the short life-span of red blood cells. Similarly, fetuses are thought to be severely affected by B19-intrauterine infection in the first and second trimester, as the half-life of red blood cells is apparently shorter than RBC at the bone marrow haematopoietic stage. On the other hand, B19 is also the causative agent of persistent anaemia in immunocompromised patients, transplant recipients and infants. The deficiencies of appropriate immune responses to B19 impair viral elimination in vivo, which results in enlargement of B19-infected erythroid-lineage cells. The B19-associated damage of erythroid lineage cells is due to cytotoxicity mediated by viral proteins. B19-infected erythroid-lineage cells show apoptotic features, which are thought to be induced by the non-structural protein, NS1, of B19. In addition, B19 infection induces cell cycle arrests at the G(1) and G(2) phases. The G(1) arrest is induced by NS1 expression prior to apoptosis induction in B19-infected cells, while the G(2) arrest is induced not only by infectious B19 but also by UV-inactivated B19, which lacks the ability to express NS1. In this review, we address the clinical manifestations and molecular mechanisms for B19-induced anaemia in humans and a mouse model, and of B19-induced cell cycle arrests in erythroid cells.
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PMID:Parvovirus B19 and the pathogenesis of anaemia. 1462 83

Infection with parvovirus B19 (B19) may induce apoptosis resulting in anemia, acute fulminant liver failure, placental insufficiency and myocarditis. Apoptosis has been attributed to proapoptotic activity of the non-structural viral protein NS1, which is known to trigger a signaling cascade eventually leading to activation of caspases. In several cell types apoptosis was found to be paralleled by profound cytosolic acidification, which may be secondary to inhibition of the Na+/H+ exchanger. The acidification has been considered to support the activation of pH sensitive caspases and endonucleases. However, nothing is known about the effect of NS1 on Na+/H+ exchanger activity and cytosolic pH. The present study thus explored whether NS1 expression affects cytosolic pH (pHi) and Na+-dependent realkalinization (DeltapHi) following acidification by an ammonium pulse. According to FACS analysis, overexpression of NS1 in RXR-10SW cells led within 72 hours to activation of caspase 3 and DNA fragmentation. NS1 overexpression resulted within 24 hours in a significant decline of pHi from 6.93 +/- 0.03 (n = 6) to 6.78 +/- 0.04 (n = 7), and to a significant decrease of DeltapHi from 0.159 +/- 0.017 (n = 6) to 0.039 +/- 0.004, (n = 7). The decrease of pHi and of DeltapHi following NS1 expression could be significantly blunted by inhibition of caspase 3 with zVAD. Western blot analysis revealed degradation of NHE1 following NS1 expression. In vitro, caspase 3, but not caspase 6, caspase 7 and caspase 8 degraded NHE1 protein of cell lysates. In conclusion, overexpression of NS1 triggers a signaling cascade eventually leading to activation of caspase 3 and subsequent degradation of NHE1. The effect contributes to cytosolic acidification which may in turn favor activation of caspases and endonucleases and thus participate in the pathophysiology of B19-infection.
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PMID:Inhibition of Na+/H+ exchanger activity by parvovirus B19 protein NS1. 1925 16

Parvovirus B19 (B19V) is divided into three genotypes. Genotypes 2 and 3 may cause diagnostic difficulties and their epidemiology is not well understood. In the present study the prevalence of B19V genotypes in patients with symptomatic infection in Poland was evaluated and the course of infection in patients infected with non-genotype 1 strains is described. Real-time PCR, able to detect all three genotypes of B19V was used to screen patient plasma samples. Sixty-nine, mainly acute-phase B19V DNA positive cases were identified in patients from hematological and obstetric/gynecological wards between 2004 and 2008. Thirty patients were studied in greater detail and genotyping was performed by analysis of the NS1/VP1u region. The majority of samples were genotype 1. However two (6.6%) strains were identified as genotype 2, associated with high viremia and identified in a kidney transplant recipient with anemia and a leukemia patient, following chemotherapy, with pancytopenia. A change of immunosuppression treatment in the former and treatment with intravenous immunoglobulin in latter, resulted in normalization of clinical parameters, and whilst viral loads fell, B19V DNA was still detectable. The kidney transplant recipient subsequently became pregnant with no clinical complications, although persistently infected with B19V genotype 2. This is the first description of symptomatic cases of genotype 2 B19V infection in Eastern Europe suggesting that acute infection, particularly among immunocompromised patients with these virus strains may be more prevalent than thought.
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PMID:Identification and characterization of acute infection with parvovirus B19 genotype 2 in immunocompromised patients in Poland. 2110 52

We herein have reported a case of severe nonfebrile dengue infection complicated with refractory pancytopenia and a large perinephric hematoma with shock in a 16-year-old adolescent during the early postoperative period after kidney transplantation. After the diagnosis of end-stage renal disease she underwent living-related kidney transplantation. Thirteen days after successful transplantation, she exhibited a notable amount of ascites, bilateral pleural effusions, thrombocytopenia, and increased hemoglobin without pre-existent fever. Further investigation revealed positive dengue nonstructural protein 1 antigen (dengue NS1 Ag) and dengue virus serotype 1 by a reverse transcriptase-polymerase chain reaction (RT-PCR) in the patient's serum. She exhibited hemophagocytic syndrome, manifested by refractory pancytopenia and refractory anemia resulting in hypovolemic shock and acute graft failure on day 28 posttransplantation. The anemia was attributed to a large hematoma around the transplanted kidney requiring surgical evacuation of clotted blood. Postoperatively, she gradually recovered with resolution of thrombocytopenia and excellent graft function. Persistent dengue antigenemia and viremia was shown by dengue NS1 Ag and RT-PCR of dengue serotype-1. The viremia was present longer than the dengue antigenemia. Dengue-specific immunoglobulin M (IgM) and IgG by enzyme-linked immunosorbent assay confirmed the primary dengue infection and evidence of a recent donor dengue infection.
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PMID:Severe nonfebrile dengue infection in an adolescent after postoperative kidney transplantation: a case report. 2337 37


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