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)

Feline immunodeficiency virus (FIV) grown in cat lymphocyte and thymocyte cultures was labelled with L-[35S]methionine or [3H]glucosamine and virus-coded proteins were identified using immunoprecipitation. Polypeptides with apparent Mr values of 15K, 24K, 43K, 50K, 120K and 160K were detected. An additional polypeptide of 10K was detected by Western blot analysis. The two highest Mr species sometimes appeared as one band, of which only the 120K polypeptide was glycosylated. In the presence of tunicamycin gp120 was no longer detectable and a non-glycosylated precursor of 75K was found instead. Pulse-chase experiments suggested that the smaller polypeptides p24 and p15 are cleavage products of both p160 and p50. Western blot analysis using a rabbit serum directed against p26 of equine infectious anaemia virus (EIAV) and an anti-EIAV horse serum from a field case of infection revealed a cross-reactivity with p24 of FIV. Cat sera collected late after experimental FIV infection recognized p26 of EIAV, indicating a reciprocal cross-reactivity.
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PMID:Intracellular proteins of feline immunodeficiency virus and their antigenic relationship with equine infectious anaemia virus proteins. 169 Feb 64

We describe here a one step HPLC technique for purifying the four gag proteins (p26, p15, p11 and p9) and two env glycoproteins (gp90 and gp45) from purified equine infectious anemia virus (EIAV), a member of the lentivirus subfamily of retroviruses. The purification procedure employs a reverse-phase phenyl Radial-pak cartridge contained in a high pressure radial compression chamber in which a shallow, multistep acetonitrile gradient is applied at ambient temperatures. The purified proteins are recovered at an efficiency of 60-70%. Moreover, the isolated components retain their antigenicity and are suitable for a variety of biochemical analyses including protein sequencing. The purification of EIAV gp90 and gp45 represents the first successful isolation of a lentivirus glycoprotein from purified virus preparations. The availability of these separated proteins permitted direct protein sequencing which confirmed the previously reported env gene sequence and provides important antigens for the development of diagnostic immunoassays and subunit vaccines. The procedures described appear applicable to other lentiviruses, including human immunodeficiency virus (HIV), and perhaps to hydrophobic membrane proteins in general.
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PMID:Lentivirus antigen purification and characterization: isolation of equine infectious anemia virus gag and env proteins in one step by reverse phase HPLC and application to human immunodeficiency virus glycoproteins. 283 62

The viral core proteins (p15, p26, p11, and p9) of equine infectious anemia virus (EIAV) (Wyoming strain) were purified by reverse-phase high-pressure liquid chromatography. Each purified protein was analyzed for amino acid content, N-terminal amino acid sequence, C-terminal amino acid sequence, and phosphoamino acid content. The results of N- and C-terminal amino acid sequence analysis of each gag protein, taken together with the nucleotide sequence of the EIAV gag gene (R. M. Stephens, J. W. Casey, and N. R. Rice, Science 231:589-594, 1986), show that the order of the proteins in the precursor is p15-p26-*-p11-p9, where a pentapeptide also found in the virus is represented by the asterisk. The data are in complete agreement with the predicted structure of the gag polyprotein and show the peptide bonds cleaved during proteolytic processing. The N-terminus of p15 is blocked to Edman degradation. The p11 protein is identical to the nucleic acid-binding protein of EIAV previously isolated (C. W. Long, L. E. Henderson, and S. Oroszlan, Virology 104:491-496, 1980). High-titer rabbit antiserum was prepared against each purified protein. These antisera were used to detect the putative gag precursor (Pr55gag) and intermediate cleavage products designated Pr49 (p15-p26-*-p11), Pr40 (p15-p26), and Pr35 (p26-*-p11) in the virus and in virus-infected cells. High-titer antisera to EIAV p15 and p26 showed cross-reactivity with the homologous protein of human T-cell lymphotropic virus type III/lymphadenopathy-associated virus.
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PMID:Chemical and immunological characterizations of equine infectious anemia virus gag-encoded proteins. 302 6

The pathogenic Friend virus complex is of considerable interest in that, although members of this group are genetically related, they differ markedly in biochemical and biological properties. Heteroduplex mapping of molecular clones of the Friend virus complex, which includes the replication-competent ecotropic Friend murine leukemia virus (F-MuLV) and mink cell focus-forming virus (F-MCF) and replication-defective polycythemia- and anemia-inducing strains of spleen focus-forming virus (SFFVp and SFFVa, respectively), was employed to provide insight into the molecular basis of their relationships. In heteroduplexes of F-MuLV X F-MCF, a major substitution of 0.89 kilobases in the env gene of F-MCF was discerned. Heteroduplexes of SFFVp X F-MuLV or F-MCF and SFFVa X F-MuLV or F-MCF showed several major deletions in the pol gene region and a single major deletion in the 3' half of the env gene region of SFFVp and SFFVa. A major substitution of 0.89 kilobases was mapped to the 5' end of the env deletion of SFFVp and SFFVa in heteroduplexes with F-MuLV, similar to that seen in F-MuLV X F-MCF heteroduplexes. In contrast, this env gene region was totally homologous in F-MCF X SFFVp or SFFVa and SFFVp X SFFVa heteroduplexes. Our results suggest that (i) both SFFVp and SFFVa lack part of the env gene at its 3' end, corresponding to the p15(E) coding region, (ii) major deletions occur in the pol and env genes which account for the replication defectiveness of SFFVp and SFFVa, (iii) minor substitutions occur in the gag gene region of SFFVa that are not present in SFFVp, F-MuLV, or F-MCF, (iv) a major substitution exists in the gp70 region of the env gene between F-MuLV and F-MCF that probably accounts for the differences in their host range specificities, (v) this substitution in F-MCF is identical to the gp70 part of the gp52 coding region of SFFVp and SFFVa, and (vi) heteroduplexes to F-MCF show unambiguously that no additional large substitutions are present in SFFVp or SFFVa that could account for differences in their leukemogenicity.
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PMID:Heteroduplex analysis of molecular clones of the pathogenic Friend virus complex: Friend murine leukemia virus, Friend mink cell focus-forming virus, and the polycythemia- and anemia-inducing strains of Friend spleen focus-forming virus. 608 47

We describe procedures for the large-scale production of equine infectious anemia virus (EIAV) and for the isolation of the four major non-glycosylated virion proteins, designated p26, p15, p11, and p9. Comparisons of the purified proteins by peptide mapping procedures and by enzyme-linked immunosorbent assays demonstrated the unrelatedness of the four proteins. The characteristic properties of each purified protein were examined by determining isoelectric points and amino acid compositions. We found that EIAV p26 and p9 focus at pI values of 6.2 and 5.0, respectively, and that these proteins contain no unusual amino acids. In contrast, EIAV p15 reproducibly displayed a heterogeneous isoelectric focusing pattern, with major pI values ranging from 5.7 to 8.3. This charge variation evidently correlated with different levels of phosphorylated serine or threonine or both, which could be detected by an amino acid analysis of purified p15. EIAV p11 apparently focused at a pI of greater than 10, reflecting its high content of basic amino acids. Moreover, localization experiments indicated that all four nonglycosylated proteins constitute the internal components of the virus, with all of the virion p11 closely associated with the viral RNA genome. Thus, our results demonstrated that EIAV, a lentivirus, contains structural polypeptides which are analogous to the structural polypeptides described previously in prototype C oncoviruses.
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PMID:Isolation and comparative biochemical properties of the major internal polypeptides of equine infectious anemia virus. 617 43

Two distinct clones of Friend spleen focus-forming virus (SFFV), differing in their erythroleukemic potential, are described. These isolates have been cloned free of their associated helper viruses and shown to be replication-defective. Both SFFV isolates have been rescued from rat fibroblast nonproducer cell clones with cloned replication-competent viruses, F-MuLVA and F-MuLVP, obtained from the anemia- or polycythemia-inducing isolates of Friend virus complex, respectively. These rescued viruses induce a rapid proliferative disease associated with the appearance of macroscopic spleen foci and splenomegaly. In addition, each is subject to regulation by the W, Steel (Sl), and Fv-2 host gene loci. These two isolates of SFFV can, however, be distinguished by both biological and molecular criteria. Friend SFFVP induces a rapid polycythemia associated with the appearance of large numbers of erythropoietin (EPO)-independent erythroid colony-forming cells in the marrow and spleen. In contrast, SFFVA induces a rapid anemia associated with a progressive decrease in the number of EPO-dependent erythroid colony-forming cells in marrow, and a rapid increase in the number of EPO-dependent erythroid colony-forming cells in spleen. Furthermore, the nature of the disease induced by the two isolates of SFFV is independent of the Friend helper virus: SFFVP, rescued from a nonproducer cell clone with either F-MuLVA or F0MuLVP, induced a polycythemic transformation, whereas SFFVA, rescued with either F-MuLVA or F-MuLVP, induced an anemic transformation. The two Friend SFFV isolates can also be discriminated on the basis of translational products encoded by their gag and env genes: SFFVP encodes the amino-terminal gag-gene protein p15, whereas SFFVA encodes the gag-gene proteins p15, p12, and p30. In addition, the SFFV isolates encode nonidentical 55,000-mol wt env gene-related proteins that can be distinguished by analysis of their methionine-containing tryptic peptides.
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PMID:Anemia- and polycythemia-inducing isolates of Friend spleen focus-forming virus. Biological and molecular evidence for two distinct viral genomes. 692 80

A case of therapy-related acute non-lymphocytic leukemia (t-ANLL) in a 70-year-old female patient is reported. An operation for lung cancer was performed in February 1991, and she was treated with etoposide (VP-16), a topoisomerase II inhibitor. Nineteen months after the start of chemotherapy, she complained of palpitations, and anemia and thrombocytopenia developed. The myelogram revealed 41.2% leukemic cells, and a diagnosis of t-ANLL induced by VP-16 was made. The karyotype of bone marrow cells showed 46, XX, t(7;11) (p13;p15), 16p+. She obtained complete remission (CR) by treatment with low dose cytosine arabinoside (Ara-C) and cytarabine ocfosfate (SPAC). Karyotype with t-ANLL induced by alkylate agents frequently shows unbalanced abnormalities. The difference of cytogenetic findings suggest the difference of mechanisms. Detailed chromosomal analysis make clear the oncogenesis of t-ANLL. It is reported that the prognosis of patients with t-ANLL treated by conventional chemotherapy is poor. Considering that elderly cases of acute leukemia have a lower probability of achieving CR than non-elderly cases, because of complications and side effects of chemotherapy such as bone marrow suppression, treatment with low dose Ara-C and SPAC is thought to be indicated in elderly patients with t-ANLL.
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PMID:[Therapy-related acute non-lymphocytic leukemia (M2) with 7;11 chromosome translocation induced into complete remission by low dose cytosine arabinoside and cytarabine ocfosfate therapy]. 807 12

Most equine infectious anemia virus (EIAV)-infected horses have acute clinical disease, but they eventually control the disease and become lifelong carriers. Cytotoxic T lymphocytes (CTL) are considered an important immune component in the control of infections with lentiviruses including EIAV, but definitive evidence for CTL in the control of disease in carrier horses is lacking. By using retroviral vector-transduced target cells expressing different Gag proteins and overlapping synthetic peptides of 16 to 25 amino acids, peptides containing at least 12 Gag CTL epitopes recognized by virus-stimulated PBMC from six long-term EIAV-infected horses were identified. All identified peptides were located within Gag matrix (p15) and capsid (p26) proteins, as no killing of target cells expressing p11 and p9 occurred. Each of the six horses had CTL recognizing at least one Gag epitope, while CTL from one horse recognized at least eight different Gag epitopes. None of the identified peptides were recognized by CTL from all six horses. Two nonamer peptide epitopes were defined from Gag p26; one (18a) was likely restricted by class I equine leukocyte alloantigen A5.1 (ELA-A5.1) molecules, and the other (28b-1) was likely restricted by ELA-A9 molecules. Sensitization of equine kidney target cells for CTLm killing required 10 nM peptide 18a and 1 nM 28b-1. The results demonstrated that diverse CTL responses against Gag epitopes were generated in long-term EIAV-infected horses and indicated that ELA-A class I molecules were responsible for the diversity of CTL epitopes recognized. This information indicates that multiple epitopes or whole proteins will be needed to induce CTL in horses with different ELA-A alleles in order to evaluate their role in controlling EIAV.
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PMID:Gag protein epitopes recognized by ELA-A-restricted cytotoxic T lymphocytes from horses with long-term equine infectious anemia virus infection. 981 94

Antigen-specific T-helper (Th) lymphocytes are critical for the development of antiviral humoral responses and the expansion of cytotoxic T lymphocytes (CTL). Identification of relevant Th lymphocyte epitopes remains an important step in the development of an efficacious subunit peptide vaccine against equine infectious anemia virus (EIAV), a naturally occurring lentivirus of horses. This study describes Th lymphocyte reactivity in EIAV carrier horses to two proteins, p26 and p15, encoded by the relatively conserved EIAV gag gene. Using partially overlapping peptides, multideterminant and possibly promiscuous epitopes were identified within p26. One peptide was identified which reacted with peripheral blood mononuclear cells (PBMC) from all five EIAV-infected horses, and three other peptides were identified which reacted with PBMC from four of five EIAV-infected horses. Four additional peptides containing both CTL and Th lymphocyte epitopes were also identified. Multiple epitopes were recognized in a region corresponding to the major homology region of the human immunodeficiency virus, a region with significant sequence similarity to other lentiviruses including simian immunodeficiency virus, puma lentivirus, feline immunodeficiency virus, Jembrana disease virus, visna virus, and caprine arthritis encephalitis virus. PBMC reactivity to p15 peptides from EIAV carrier horses also occurred. Multiple p15 peptides were shown to be reactive, but not all infected horses had Th lymphocytes recognizing p15 epitopes. The identification of peptides reactive with PBMC from outbred horses, some of which encoded both CTL and Th lymphocyte epitopes, should contribute to the design of synthetic peptide or recombinant vector vaccines for EIAV.
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PMID:Gag protein epitopes recognized by CD4(+) T-helper lymphocytes from equine infectious anemia virus-infected carrier horses. 1019 22

The reciprocal translocation t(7;11)(p15;p15) has been reported as occurring mainly in acute myelogenous leukaemia (AML) and the acute phase of chronic myelogenous leukaemia (CML). This translocation in AML involves both the nucleoporin gene NUP98 on 11p15 and the homeobox gene HOXA9 on 7p15. The invariant chimaeric NUP98/HOXA9 transcripts are a result of the fact that each breakpoint of the NUP98 and the corresponding breakpoint of the HOXA9 gene cluster occur within the same intron. Only one patient with myelodysplastic syndromes (MDS) carrying this chromosome aberration has been reported, but this study did not involve molecular analysis. We describe two patients with MDS associated with t(7;11): patient 1 was a Japanese man diagnosed with chronic myelomonocytic leukaemia; patient 2 was a Japanese woman with refractory anaemia with excess of blasts in transformation. Within a year both patients developed AML and showed multidrug resistance to chemotherapy. Southern blot analysis showed rearrangements of the NUP98 gene of the two patients and the HOXA9 gene of patient 2. Patient 1 had two types of the novel NUP98/HOXA9 fusion transcripts. Each of them lacked the common 141 bp NUP98 exon which was contained in the NUP98/HOXA9 fusion transcripts detected in patient 2 and the reported AML cases. These data indicated that t(7;11) could determine the development of various myeloid leukaemias and that the resultant chimaeric transcripts are heterogenous.
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PMID:Molecular heterogeneity of the NUP98/HOXA9 fusion transcript in myelodysplastic syndromes associated with t(7;11)(p15;p15). 1058 65


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