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)

Friend virus clearly provides an important model for understanding the molecular biology of cancer. Moreover, the most important aspects of the erythroleukemia can be caused by a single SFFV infection in the absence of any helper virus. The SFFV env gene encodes a membrane glycoprotein, gp55. This glycoprotein, when expressed on erythroblast surfaces, causes a constitutive mitogenesis. However, SFFV infections only rarely increase the cell's self-renewal capability or abrogate its commitment to differentiate. Therefore, the consequence of infection is initially a polyclonal erythroblastosis. This polyclonal proliferation usually leads to cell differentiation and to recovery unless helper virus is present to cause continuing infection of new erythroblasts. Extremely rare SFFV proviral integrations, however, result in abrogation of the cell's commitment to differentiate and in the concomitant acquisition of cell immortality. These immortalizing proviral integrations occur at only a small number of sites in the mouse genome. Therefore, the mitogenic and immortalizing stages of erythroleukemia are now known to be caused by discrete genetic events--the first involving the SFFV env gene and the second involving the rare proviral integration sites. In early investigations of Friend virus, the first stage always preceded the second stage by at least several weeks. Now it is known that this delay in onset of the second stage is caused solely by statistics. Every SFFV-infected erythroblast is mitogenically activated, yet only rarely does the SFFV proviral integration produce immortality. Both steps in leukemogenesis can be caused simultaneously in an erythroblast by a rare single SFFV proviral integration. There has been an explosion of interest in retroviral env gene-mediated pathogenesis. Such pathogenesis has been recently associated with most of the naturally transmitted retroviral diseases including AIDS. Such pathogenesis involves in different viruses immunosuppression, anemia, neuropathy, and leukemia (Mathes et al. 1978; Simon et al. 1984, 1987; Weiss et al. 1985; Lifson et al. 1986; Riedel et al. 1986; Sitbon et al. 1986; Sodroski et al. 1986; Mitani et al. 1987; Schmidt et al. 1987; Klase et al. 1988; Overbaugh et al. 1988a, b). The shuffling and dynamic env gene rearrangements that have been associated with murine retroviral leukemogenesis have also now been seen in FeLV-FAIDS and HIV (Fisher et al. 1988; Overbaugh et al. 1 t88b; Saag et al. 1988; Tersmette et al. 1988). Friend virus provides an important established example of such env gene pathogenesis. Although we still do not understand precisely how gp55 causes erythroblast mitosis, workers in this field have discovered important clues that may lead to answers.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Molecular biology of Friend viral erythroleukemia. 268 47

We determined the complete nucleotide sequence of an infectious proviral molecular clone (FIV-14) of the feline immunodeficiency virus (FIV). FIV-14 has a genome organization similar in complexity to other lentiviruses. In addition to three large open reading frames representing the gag, pol, and env genes, at least four small open reading frames are present in the pol-env intergenic, env, and env-3' long terminal repeat regions. Nucleotide and deduced amino acid sequence alignments of the FIV coding sequences with analogous sequences of other lentiviruses revealed significant identities only in the gag and pol genes. Phylogenetic tree analyses of gag and pol gene-encoded protein sequences demonstrate that FIV is more closely related to the ungulate lentiviruses, equine infectious anemia virus and visna virus, than to the primate lentiviruses, human and simian immunodeficiency viruses.
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PMID:Nucleotide sequence analysis of feline immunodeficiency virus: genome organization and relationship to other lentiviruses. 281 80

We used the Escherichia coli chloramphenicol acetyltransferase gene (cat) to study sequences that influence expression of the equine infectious anemia virus (EIAV) genome. The EIAV long terminal repeat (LTR) directed CAT activity in a canine cell line, but at levels much lower than those achieved with other eucaryotic viral promoters. In the same cells infected with EIAV or cotransfected with molecularly cloned EIAV genomic DNA, LTR-directed activity was markedly enhanced. Comparison of cat mRNA and protein levels in these cells indicated that this trans-activating effect could be accounted for by a bimodal mechanism in which both transcriptional and posttranscriptional events are enhanced. trans-Activation but not promoter activity was abolished by deletion of the R-U5 region of the EIAV LTR. EIAV sequences responsible for the trans-activating function could be localized to a region encompassing the 3' and 5' termini of the pol and env genes, respectively (nucleotides 4474 to 5775). Interestingly, this stretch harbors a short open reading frame with some amino acid sequence similarity to the human immunodeficiency virus type I tat gene product.
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PMID:Localization of sequences responsible for trans-activation of the equine infectious anemia virus long terminal repeat. 282 40

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

Deletion analysis of the equine infectious anemia virus long terminal repeat revealed that sequences responsive to virus-specific transactivation are located within the region spanning the transcriptional start site (-31 to +22). In addition, an active exon of a trans-acting factor (tat) was identified downstream of pol and overlapping env (nucleotides 5264 to 5461). Activation by tat is accompanied by an increase in the steady-state levels of mRNA directed by the equine infectious anemia virus long terminal repeat.
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PMID:cis- and trans-acting regulation of gene expression of equine infectious anemia virus. 284 2

Nucleotide sequence analyses of two different proviral clones of equine infectious anemia virus (EIAV), designated lambda 12 (K. Rushlow et al., 1986, Virology 155, 309-321) and 1369 (T. Kawakami et al., 1987, Virology 158, 300-312), indicate significant differences in the organization of two critical regions of the viral genome, i.e., in the short open reading frames in the pol-env intergenic region and in the 5'-end of the env gene. To determine the correct structure of the EIAV genome, we have performed nucleotide sequence analyses of cDNA clones produced from viral RNA and direct sequencing of purified EIAV envelope glycoproteins (gp90 and gp45). The results of the cDNA sequencing confirm the presence of two short open reading frames in the pol-env intergenic region, as reported previously for the lambda 12 clone. The protein sequencing data correlated exactly with the amino-terminal sequences of gp90 and gp45 deduced from lambda 12 nucleotide sequences. However, the protein sequencing also revealed that the putative signal sequence of EIAV gp90 is not removed during processing. Thus, EIAV apparently contains short open reading frames analogous to human immunodeficiency virus, but differs in its mode of env polyprotein processing.
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PMID:EIAV genomic organization: further characterization by sequencing of purified glycoproteins and cDNA. 284 5

A colinear molecular clone of the Lilly-Steeves polycythemia strain of Friend spleen focus-forming virus (SFFV) was modified by inserting a 215-base-pair tag of simian virus 40 DNA into its nonfunctional pol gene region. The DNA was then transfected into psi-2 packaging cells, and helper-free tagged SFFV was recovered in the culture medium. Injection of this helper-free virus into NIH/Swiss mice caused transient mild splenomegaly and formation of spleen foci at 9 to 10 days. Although the vast majority of infected erythroblast clones then differentiated and died out, rare cell clones that were present in only 20 to 30% of the mice grew extensively by 26 to 33 days to form transplantable leukemias. The clonality of these leukemias was established by Southern blot analysis of their DNAs by using several restriction endonucleases and the simian virus 40 tag as a hybridization probe. All transplantable leukemias lacked helper virus contamination and contained a single tagged SFFV provirus that expressed the mitogenic env gene product gp55. The SFFV proviruses in these leukemias also appeared to be integrated into a few tightly clustered sites in the cellular genome. Although the tagged SFFV caused polycythemia during the polyclonal early stage of erythroblastosis, growth of the helper-free clonal erythroleukemias caused severe anemia. These results suggest that a single SFFV can cause mitosis of erythroblasts, and that cell immortalization also occurs when the provirus integrates into a critical site in the host genome. We propose that mice with clonal-stage leukemia become anemic because the immortalizing proviral integrations interfere with the cellular commitment to differentiate.
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PMID:A tagged helper-free Friend virus causes clonal erythroblast immortality by specific proviral integration in the cellular genome. 284 27

The env genes of Friend spleen focus-forming viruses (F-SFFV) have been implicated in the rapid pathogenicity of these agents. Two env-gene products are detected in SFFV-infected cells: the primary translation product, gp52, and a more highly processed form, gp65. In this communication we demonstrate that gp65 is the major end product of the SFFV env gene, and is efficiently secreted from both erythroleukemia cells and infected fibroblasts. Secretion was observed for the mature env-gene products of both polycythemia- and anemia-inducing strains of SFFV. These results suggest that one function of the point mutation near the 3' end of the env gene, which is invariant in the formation of SFFVs, is to allow secretion of gp65, and that secreted gp65 may be the factor mediating the leukemogenic activity of these viruses.
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PMID:The mature form of the Friend spleen focus-forming virus envelope protein, gp65, is efficiently secreted from cells. 299 32

Previous results from our laboratory have demonstrated that equine infectious anemia virus displays structural variations in its surface glycoproteins and RNA genome during passage and chronic infections in experimentally infected Shetland ponies (Montelaro et al., J. Biol. Chem. 259:10539-10544, 1984; Payne et al., J. Gen. Virol. 65:1395-1399, 1984). The present study was undertaken to obtain an antigenic and biochemical characterization of equine infectious anemia virus isolates recovered from an experimentally infected pony during sequential disease episodes, each separated by intervals of only 4 to 8 weeks. The virus isolates could be distinguished antigenically by neutralization assays with serum from the infected pony and by Western blot analysis with a monoclonal antibody against the major surface glycoprotein gp90, thus demonstrating that novel antigenic variants of equine infectious anemia virus predominate during each clinical episode. The respective virion glycoproteins displayed different electrophoretic mobilities on sodium dodecyl sulfate-polyacrylamide gels, indicating structural variation. Tryptic peptide and glycopeptide maps of the viral proteins of each virus isolate revealed biochemical alterations involving amino acid sequence and glycosylation patterns in the virion surface glycoproteins gp90 and gp45. In contrast, no structural variation was observed in the internal viral proteins pp15, p26, and p9 from any of the four virus isolates. Oligonucleotide mapping experiments revealed similar but unique RNase T1-resistant oligonucleotide fingerprints of the RNA genomes of each of the virus isolates. Localization of altered oligonucleotides for one virus isolate placed two of three unique oligonucleotides within the predicted env gene region of the genome, perhaps correlating with the structural variation observed in the envelope glycoproteins. Thus these results support the concept that equine infectious anemia virus is indeed capable of relatively rapid genomic variations during replication, some of which result in altered glycoprotein structures and antigenic variants which are responsible for the unique periodic disease nature observed in persistently infected animals. The findings of envelope specific differences in isolates of visna virus and of human T-cell lymphotropic virus III (acquired immune deficiency syndrome-related virus) suggest that this variation may be a common characteristic of the subfamily Lentivirinae.
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PMID:Rapid emergence of novel antigenic and genetic variants of equine infectious anemia virus during persistent infection. 300 67

The nucleotide sequence of the integrated form of the genome of the equine infectious anemia virus was determined. By comparison with LTR sequences of other retroviruses, signals for the control of viral gene transcription and translation could be identified in the EIAV LTR. Open reading frames for gag and pol genes were identified and their sequences matched very closely to those determined previously by others. However, in the present study, the pol gene reading frame was open throughout its entire length. The open reading frame for the env gene product was constructed from the sequences of two independent EIAV clones. Thus, a noninfectious genomic-length clone was shown to contain a frameshift mutation approximately in the middle of the presumed env gene coding sequence, whereas the sequence of another clone was open in this region. The deduced amino acid sequences of the EIAV gag and pol products showed closer evolutionary relationships to those of known lentiviruses than to other retroviruses. There was also partial sequence homology between predicted env gene products of EIAV, visna virus, and HTLV-III/LAV. Sequences analogous to the sor region of other lentiviruses could not be identified in our EIAV clone. A short open reading frame at the 3' end of the genome that overlapped env but not the 3' LTR was present but lacked significant sequence similarity to the 3' open reading frames of other lentiviruses. Thus, the sequence and general structure of EIAV most closely resemble those of known lentiviruses.
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PMID:Nucleotide sequence analysis of equine infectious anemia virus proviral DNA. 303 86


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