Molecular cloning of integrated caprine arthritis-encephalitis virus

Specific G2 arrest of caprine cells infected with a caprine arthritis encephalitis virus expressing vpr and vpx genes from simian immunodeficiency virus

Primate lentivirus (HIV and SIV) vpr accessory genes encode 12- to 14-kDa proteins which induce cell cycle arrest at the G2 phase of infected cells, preventing them from going through mitosis. Members of the HIV-2/SIVmac/SIVsmm group also encode a second closely related accessory protein called Vpx. Vpx and HIV Vpr are critical for virus replication in nondividing cells due to their participation in nuclear import of the preintegration complex. Caprine arthritis encephalitis virus (CAEV) and maedi visna virus are the natural lentiviruses of domestic goat and sheep, respectively, and their genomes do not carry vpr and vpx genes. In this study, we generated chimeric CAEV-based genomes carrying vpr and vpx genes from SIVmac239 and tested their ability to induce G2 cell cycle arrest in infected caprine cells. CAEV-pBSCAvpxvpr is the chimeric genome that was shown to be infectious and replication competent. Our data demonstrated that CAEV-pBSCAvpxvpr-infected goat synovial membrane cell monolayer developed more cytopathic effects and a high proportion of cells remained in the G2 phase of cell cycle. This G2 arrest was observed both at the early and at the late stages of infection, while minimal effect was observed with the parental CAEV-pBSCA. These results, described for the first time in mammalian cells other than those of primates, indicate that Vpr-induced G2 cell cycle arrest is not restricted to only primate cells. Thus, conservation of Vpx/Vpr protein functions in caprine cells suggests a possible role for these proteins in the virus life cycle and its ability to adapt to new hosts. The data presented here thus raise a pertinent question about the biological significance of the conservation of Vpr and Vpx functions in caprine cells despite the high phylogenic distance between primates and small ruminants.

A long term study of goats naturally infected with caprine arthritis-encephalitis virus

The caprine arthritis-encephalitis virus (CAEV) is a big problem in dairy goat industry. Little is known about its characteristics in naturally infected goat herds. The aims of this study were: 1) to study how antibody expression, measured by agar gel immunodiffusion test (AGIDT), varied over time in naturally infected, seropositive goats, 2) to observe clinical signs in seropositive adult goats and 3) to follow seroconversion and gamma globulin concentration in goat kids artificially reared on cow milk replacement product only, compared to kids reared on untreated goat milk. The antibody expression pattern to the viral proteins gp135 and p28 varied in the individual goat and intermittent negative reactions were seen in 19 adult animals followed for 30-91 weeks. Four seropositive goats developed clinical symptoms with difficulties to move. However, no correlation between clinical signs and antibody expression pattern was seen. During the first 27 weeks of age no kid in the milk replacement reared group (N = 4) seroconverted, but 5 of the 7 kids fed goat milk occasionally showed a positive antibody reaction. The gamma globulin concentration was significantly higher in the goat milk fed group until the kids had become more than 19 weeks old. The results show that a great variation of the antibody pattern in individual goats occurs, and therefore the AGIDT is only reliable as a herd screening test. Frequent sampling is necessary to get reliable information about spreading of the CAEV in a naturally infected goat herd. Removing kids from their dams immediately after birth combined with segregation and artificial rearing protected them from CAEV infection. However their gamma globulin concentration was initially low.

Two species of Rev proteins, with distinct N termini, are expressed by caprine arthritis encephalitis virus

Several cDNA clones representing alternatively spliced Rev-specific transcripts were isolated from a cDNA library prepared from Himalayan tahr cells infected with caprine arthritis encephalitis virus (CAEV). We previously characterized two rev-like cDNA species, d1 and d2, and a tat e1 cDNA containing the rev coding sequence downstream to the tat. In these cDNAs, the rev coding domain derives its amino terminus from the N terminus of env, which is spliced to the 3' open reading frame encoding the putative Rev protein. In this study, we report the genetic structure of a fourth rev-like cDNA (designated g1), which lacks the 5' env-derived sequences. All of these rev transcripts, including cDNA g1, increased the level of chloramphenicol acetyltransferase expression when cotransfected with a reporter plasmid containing the CAEV Rev-response element-spanning region downstream of the cat coding sequences. Western blot (immunoblot) analysis showed that each transfected cDNA species gave rise to a 16-kDa protein lacking env-encoded amino-terminal epitopes. In contrast, CAEV-infected Himalayan tahr cells expressed only a 20-kDa protein, whose N terminus, in contrast, is derived from the env. Moreover, only the 20-kDa protein was also detected in the mature CAEV virions. These observations suggest that the transcripts d1, d2, and e1 can potentially, in appropriate cellular context, encode two Rev isoforms differing in their N termini, whereas the g1 transcript encodes only the 16-kDa species. Elucidation of the significance of the 16-kDa Rev protein in CAEV biology must await further studies.

Chemiluminescent detection of caprine arthritis encephalitis virus with a PCR-generated single stranded nonradiolabelled probe

A 814-bp digoxigenin-labelled single stranded DNA probe was produced and utilized in slot-blot hybridization for detection of caprine arthritis encephalitis virus (CAEV) in goat synovial membrane (GSM) cell culture infected with CAEV. The sensitivity of a PCR-generated probe was compared with a random primer labelled probe. The probe with digoxigenin-dUTP incorporated in the PCR reaction mixture was more sensitive for RNA detection than the random primer probe and it was much simpler to use. The probe was applied for detection of CAEV by blot blot hybridization in peripheral blood mononuclear cells (PBMC) and macrophage cultures obtained from naturally infected goats. This technique was not sufficiently sensitive to detect the viral nucleic acid directly from PBMC or cultured macrophages. When macrophages were cultured in vitro and then cocultured with susceptible GSM cells, samples gave a positive signal in the slot-blot hybridization technique. The use of slot-blot RNA hybridization permits more convenient and rapid confirmation of CAEV isolation in susceptible cells than the conventional identification by syncytia formation.

Double-nested polymerase chain reaction for detection of caprine arthritis-encephalitis virus proviral DNA in blood, milk, and tissues of infected goats

A nested polymerase chain reaction (PCR) for detecting proviral DNA of caprine arthritis-encephalitis virus (CAEV) in biological samples was developed. Primers for both gag and pol sequences of the CAEV genome were included in a single tube for simultaneous amplification ('double' PCR), and the resulting bands were resolved visually in ethidium bromide-stained agarose gels. Internal gag and pol probes were used to verify the identity of the amplified products by non-radioactive Southern hybridization. Final confirmation of the identity of representative PCR bands was provided by DNA sequence analysis. A comparison between the PCR and an antibody ELISA (with recombinant CAEV p28 as target) using 141 caprine blood samples indicated very strong agreement between the two assays (kappa = 0.912). Four of 7 goats with indeterminate ELISA results were PCR-positive as were 5 of 40 (12.5%) seronegative goats, most probably indicating delayed seroconversion. Eleven of 27 goats (41%) PCR-positive on blood had detectable CAEV proviral DNA in milk. Proviral DNA was also detected in lung, mesenteric lymph node, bone marrow, synovial membrane, and mammary gland of a seropositive, clinically affected goat, but not in equivalent tissues of a healthy seronegative goat.

Phosphorothioate oligonucleotides inhibit the replication of lentiviruses and type D retroviruses, but not that of type C retroviruses

Phosphorothioate analogs of oligodeoxynucleotides at a concentration of 2 microM protected Himalayan tahr cells from infection by caprine arthritis encephalitis virus (CAEV) and equine dermis cells from infection by equine infectious anemia virus (EIAV). The characteristics of this inhibition against these lentiviruses are similar to those previously described for the inhibition of HIV-1 in ATH8 cells [17]. Thus, the 28-mer homo-oligomer of cytidine [S-(dC)28] was at least as effective as three anti-sense sequences targeted to the LTR, gag, and env regions of CAEV. The effectiveness of homo-oligomers of equal length was in the order C >> A > T, and a random 28-copolymer with a composition of 2C:1G was as effective as S-(dC)28. Shorter oligonucleotides were less effective (28 > 14 > 5 mers) for all base compositions tested. While replication of a simian type D retrovirus was inhibited by S-(dC)28, this compound did not inhibit the cytopathogenicity of two type C retroviruses, amphotropic murine leukemia virus (MuLV), and baboon endogenous virus, when they were tested in the same cell lines used to support the replication of lentiviruses. Southern blot analysis of the high molecular weight DNA of drug-treated CAEV-infected cells showed that S-(dC)28 was acting at or before the reverse transcription step. Our present data and the earlier finding that S-(dC)28 is a potent in vitro inhibitor of the MuLV reverse transcriptase [15] suggest that S-(dC)28 is acting very early in the replication cycle of these lentiviruses. Since MuLV reverse transcriptase is inhibited in vitro, but its replication is not blocked in permissive cells, our data suggest that the phosphorothioate oligonucleotides are preventing virus attachment.

Human immunodeficiency virus type 1 infection of the brain

Direct infection of the central nervous system by human immunodeficiency virus type 1 (HIV-1), the causative agent of AIDS, was not appreciated in the early years of the AIDS epidemic. Neurological complications associated with AIDS were largely attributed to opportunistic infections that arose as a result of the immunocompromised state of the patient and to depression. In 1985, several groups succeeded in isolating HIV-1 directly from brain tissue. Also that year, the viral genome was completely sequenced, and HIV-1 was found to belong to a neurotropic subfamily of retrovirus known as the Lentivirinae. These findings clearly indicated that direct HIV-1 infection of the central nervous system played a role in the development of AIDS-related neurological disease. This review summarizes the clinical manifestations of HIV-1 infection of the central nervous system and the related neuropathology, the tropism of HIV-1 for specific cell types both within and outside of the nervous system, the possible mechanisms by which HIV-1 damages the nervous system, and the current strategies for diagnosis and treatment of HIV-1-associated neuropathology.

Genomic heterogeneity of small ruminant lentiviruses detected by PCR

In order to detect a large spectrum of small ruminant lentiviruses, primers for PCR were chosen in conserved parts of the LTR and GAG genes of Icelandic Visna virus 1514 and of the POL gene of caprine arthritis-encephalitis virus. This set of primers was tested in six different caprine arthritis-encephalitis virus (CAEV)- and Maedi-Visna virus isolates of Dutch, American and Swiss origin. The LTR primers allowed the detection of the corresponding fragments of all isolates. The GAG primers allowed amplification of the corresponding fragments of all but the Swiss Maedi-Visna virus strain OLV. Using the POL primers, one Maedi-Visna- and two caprine arthritis-encephalitis virus strains were detected after one round of amplification. Sequencing of the GAG and POL amplification products and comparison to Icelandic Visna virus and CAEV strain CO revealed total heterogeneity of 38% for the GAG- and 28% for the POL fragment. The virus strains studied fall into two groups which are more closely related to one another than to Icelandic Visna virus.

Defective viral particles in caprine arthritis encephalitis virus infection

Attempts to isolate full-length unintegrated circular forms of the caprine arthritis encephalitis virus (CAEV) genome yielded only a large number of molecules with deletions. The 3' borders of most of these deletions were near the U3 region of the long terminal repeat whereas the 5' edges were found at various upstream sites within pol or env. With one exception, gag sequences were always present. Analysis of molecular clones derived from integrated proviral CAEV genomes from the same infected cells showed a similar spectrum of deletions. The presence of transcriptionally active elements within the U3 domain of the defective genomes, as well as cis-acting elements within the leader sequences known to be required for efficient encapsidation of viral RNA, suggested that the defective viral DNA genomes could be transcribed into defective RNA molecules which could then be packaged into virions. Isopycnic density gradient centrifugation of supernatants of infected cell cultures indicated the presence of particles with densities less than that expected for intact virions (1.16 g/cc). Northern analysis revealed the presence of smaller viral-specific RNAs that lacked env sequences. These data, along with the structures of the molecular clones, suggest that CAEV stocks contain particles with defective genomes. The role of these particles in influencing the course of virus infection remains to be determined.

rev-like transcripts of caprine arthritis encephalitis virus

The pattern of expression of the caprine arthritis encephalitis virus genome (CAEV) in acutely infected tahr lung cells was found to be complex and temporally regulated. Employing Northern analysis, five CAEV-specific transcripts, 9, 6.5, 5.0, 2.5, and 1.4 kb, were detected. Nucleotide sequence analysis established the genetic structure of two species of cDNA, isolated from a library of CAEV-infected tahr cells, and suggested that they represent rev-like transcripts. One of these cDNA species was composed of three exons--the leader, an exon derived from the 5' region of env, and an exon which spanned the 3' orf. The second cDNA species consisted of four exons--three of which were identical with those of the former species. The additional exon (the second) was located at the 3' end of pol. These transcripts could potentially encode three proteins--a Rev-like protein, which is a fusion of 38 amino acids derived from the N-terminus of env and 91 residues from the 3' orf; a truncated form of the env transmembrane protein, and a novel protein, designated X composed of 73 amino acids. Thus, CAEV, like other lentiviruses, displays a complex pattern of gene expression, characterized by alternative splicing and the production of potentially polycistronic transcripts.

Nucleotide sequence and transcriptional analysis of molecular clones of CAEV which generate infectious virus

The lentivirus caprine arthritis-encephalitis virus (CAEV) is closely related by nucleotide sequence homology to visna virus and other sheep lentiviruses and shows less similarity to the other animal and human lentiviruses. The genomic organization of CAEV is very similar to that of visna virus and the South African ovine maedi visna virus (SA-OMVV) as well as to those of other primate lentiviruses. The CAEV genome includes the small open reading frames (ORF) between pol and env which are the hallmarks of the lentivirus genomes. The most striking difference in the organization of CAEV is in the env gene. The Env polyproteins of visna virus and the related SA-OMVV contain 20 amino acids between the translational start and the signal peptide not present in CAEV. In addition to nucleotide sequence analysis, the transcriptional products of CAEV were determined by Northern analysis. The viral mRNA present in cells transfected with the infectious clone reveal a pattern characteristic of the mRNAs observed in other lentivirus infections. The putative tat ORF of CAEV could be identified by genomic location and amino acid homology to the visna virus tat gene. However, the CAEV rev gene could not be identified in a similar fashion. Thus, to determine the location of the rev ORF cDNA clones were obtained by PCR amplification of the mRNA from infected cells. To determine if a Rev response element was contained in the CAEV genome, secondary structural analysis of the viral RNA was performed. A stable stem loop structure which is similar in location, stability, and configuration to that determined for the Rev response element of HIV was found.

Detection of caprine arthritis-encephalitis- and maedi-visna viruses using the polymerase chain reaction

The polymerase chain reaction (PCR) was used to demonstrate proviral DNA of lentiviruses of small ruminants in cultured cells. Primers for the Taq polymerase were selected in the GAG gene of Icelandic maedi-visna virus and POL gene of caprine arthritis-encephalitis (CAE) virus. Using PCR, proviral DNA of CAE virus was detected at 1 day post infection, 4 days before viral protein could be demonstrated using a sensitive immunoblotting protocol and 6 days before the appearance of syncytia. Primers derived from the published sequence of CAE virus successfully primed for the synthesis of homologous virus and Icelandic maedi-visna virus but not for maedi-visna virus isolated in The Netherlands. In contrast, primers derived from the GAG region of Icelandic maedi-visna virus allowed the amplification of DNA of homologous virus, maedi-visna virus isolated in The Netherlands as well as CAE virus.

Analysis of regulatory elements of the equine infectious anemia virus and caprine arthritis-encephalitis virus long terminal repeats

We analyzed the equine infectious anemia virus (EIAV) long terminal repeat (LTR) for sequences that influence its promoter activity and ability to be trans-activated by the EIAV tat gene product. A series of LTR deletion mutants and recombinants between LTR and simian virus 40 (SV40) regulatory sequences were used for these studies. We were able to identify the EIAV promoter region and showed that sequences within the U3 region significantly inhibited LTR-directed transcription. However, when placed in a heterologous context (SV40 promoter) these U3 sequences functioned as an enhancer. trans-activation of the EIAV LTR was found to depend upon sequences downstream of the transcription initiation site and also within U3. Deletion mutagenesis experiments showed that the major downstream element was present in a 46-nucleotide stretch (+4 to +50). An SV40 promoter construct containing these sequences could be trans-activated in cells expressing the EIAV tat gene product. For comparative purposes we also examined the LTR of another animal lentivirus, caprine arthritis-encephalitis virus (CAEV), for positive and negative transcriptional regulatory elements and demonstrated the presence of an enhancer within its U3 sequence. There is evidence that trans-activation of the CAEV LTR requires U3 sequences. When the EIAV U3 region was replaced by the CAEV U3 sequence, the promoter activity of the EIAV LTR was markedly elevated, but the responsiveness to the EIAV trans-activator could not be restored.

Growth factor genes as oncogenes

The oncogenic retroviruses can be divided into two main categories: those that induce neoplasia after a long latent period (chronic leukemia viruses) and those that induce neoplasia relatively rapidly (acute transforming viruses). Chronic leukemia viruses do not transform cells in tissue culture and contain only the virally encoded genes. By nucleotide sequence comparison, it was possible to show that all retroviruses have a common evolutionary origin. In contrast, acute transforming viruses have substituted viral genes with genetic information specifically implicated in the oncogenic process. These genetic elements (oncogenes) were derived from uninfected host genomes. It was shown that one of the oncogenes, c-sis proto-oncogene, is the structural gene for the B-chain polypeptide of platelet-derived growth factor (PDGF). Furthermore, high level expression of human c-sis resulted in transformation of recipient cells. Similar results have been subsequently obtained for other growth factors, including granulocyte-macrophage colony stimulating factor, transforming growth factor alpha, epidermal growth factor, and basic fibroblast growth factor. It is possible that growth factor gene activation represents one of the steps leading toward malignancy in vivo.

Separate epitopes in the envelope of visna virus are responsible for fusion and neutralization: biological implications for anti-fusion antibodies in limiting virus replication

Visna virus is a lentivirus which causes fusion of infected cells in vitro. Two types of fusion occur. Fusion from without requires no viral replication and a relatively high multiplicity of infection; fusion from within results from the replication of virus in cells. By using fusion from without as an assay, the mechanism of fusion by visna virus was investigated. Immune sera which contained both anti-fusion and neutralizing antibodies interacted with the virus with rapid kinetics in blocking fusion but relatively slow kinetics in the virus neutralization assay. By using visna virus and an antigenic variant, the epitopes responsible for fusion and virus neutralization were shown to be different. Antigenic variation of visna virus resulted in alteration of the neutralization epitope and conservation of the fusion epitope. This suggested that there were two populations of antibodies and that the viral epitopes for fusion and neutralization were separate. These data suggest that visna virus is capable of infecting cells via two pathways: one via the fusion site and the other via the viral epitope which mediates neutralization.

EIAV genomic organization: further characterization by sequencing of purified glycoproteins and cDNA

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.

Immune responses are required to terminate viremia in equine infectious anemia lentivirus infection

Six normal and four immunodeficient horses were injected with a cloned variant of equine infectious anemia virus (EIAV). The six normal horses had detectable EIAV in their plasma by 7 days postinjection. During their primary viremic episode, which was accompanied by fever and anemia, maximum titers of EIAV in plasma ranged from 10(3.8) to 10(4.8) 50% tissue culture infective doses per ml. All six normal horses cleared detectable virus from their plasma by 21 to 35 days after injection. Horses with combined immunodeficiency became viremic by 9 days postinjection and also developed anemia. In contrast to normal horses, foals with combined immunodeficiency did not eliminate the virus from their plasma.

Localization of sequences responsible for trans-activation of the equine infectious anemia virus long terminal repeat

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.

Antigenic variation and lentivirus persistence: variations in envelope gene sequences during EIAV infection resemble changes reported for sequential isolates of HIV

The extent and nature of genomic variation among nine antigenically distinct EIAV isolates recovered during sequential clinical episodes from two experimentally infected ponies were examined by restriction fragment analysis and nucleotide sequencing. Only minor variations in restriction enzyme patterns were observed among the viral genomes. In contrast, env gene sequences of four isolates from one pony revealed numerous clustered base substitutions. Divergence in env gene nucleotide and deduced amino acid sequences between pairs of virus isolates ranged from 0.62 to 3.4% env gene mutation rates for isolates recovered during sequential febrile episodes were calculated to be greater than 10(-2) base substitutions per site per year. The degree and nature of env gene variation in EIAV is remarkably similar to the human immunodeficiency virus, suggesting common mechanisms for env gene variation among lentiviruses.

Nucleotide sequence analysis of equine infectious anemia virus proviral DNA

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.

Characteristics of a novel lentivirus derived from South African sheep with pulmonary adenocarcinoma (jaagsiekte)

A novel lentivirus was isolated from South African sheep with experimentally transmitted lung adenocarcinoma. Similar to visna virus and caprine arthritis encephalitis virus, this new strain induced cytopathic effects on ovine plexus choroid cultures. In contrast to a recent Israeli isolate from sheep with adenocarcinoma, the South African lentivirus could not transform fibroblast cultures. The antigenic relatedness between the new isolate and visna virus was assessed by immunoprecipitation of radiolabeled viral proteins, using monospecific antisera against visna virus proteins. The results indicate that the new virus contains four major structural proteins of sizes similar to those of visna virus (i.e., gp135, p30, p16, and p14) and have some common antigenic determinants (about 90% in the major core antigen p30). However, the nucleotidic sequences of the novel lentivirus were found to be only 16.5 to 27.4% homologous to visna virus and 8.3 to 15% homologous to caprine arthritis encephalitis virus, by means of liquid hybridization under stringent conditions. The genetic divergence indicated by this last result was confirmed by the dissimilar restriction endonuclease cleavage map of the new virus in comparison to those of visna virus and three caprine arthritis encephalitis virus strains. The demonstration of a third type of ovine lentivirus supports the concept of an important genetic variation among the lentiviruses infecting one animal species.

Topographical rearrangements of visna virus envelope glycoprotein during antigenic drift

Visna virus undergoes antigenic drift during persistent infection in sheep and thus eludes neutralizing antibodies directed against its major envelope glycoprotein, gp135. Antigenic variants contain point mutations in the 3' end of the genome, presumably within the envelope glycoprotein gene. To localize the changes in the viral proteins of antigenic mutants, we isolated 35 monoclonal antibodies (MAbs) against the envelope glycoprotein gp135 or the major core protein p27 of visna virus. The MAbs defined five partially overlapping epitopes on gp135. We used the MAbs and polyclonal immune sera directed against visna virus, gp135, or p27 in enzyme-linked immunosorbent assays to compare visna virus (strain 1514) with antigenic mutants (LV1-1 to LV1-6) previously isolated from a single sheep persistently infected with plaque-purified strain 1514. Polyclonal immune sera and anti-core p27 MAbs failed to distinguish antigenic differences among the viruses. By contrast, the anti-gp135 MAbs detected changes in all five epitopes of the envelope glycoprotein. Three gp135 epitopes, prominently exposed on strain 1514, were lost or obscured on the mutants; two covert gp135 epitopes, poorly exposed on strain 1514, were reciprocally revealed on the mutants. Even virus LV1-2, which is indistinguishable from parental strain 1514 by serum neutralization tests and which differs from it by only two unique oligonucleotides on RNase-T1 fingerprinting, displayed global changes in gp135. Our data suggest that visna virus variants may emerge more frequently during persistent infection than can be detected by serological tests involving the use of polyclonal immune sera, and the extent of phenotypic changes in their envelope glycoproteins may be greater than predicted by the small number of genetic changes previously observed. We suggest that topographical rearrangements in the three-dimensional structure of gp135 may magnify the primary amino acid sequence changes caused by point mutations in the env gene. This may complicate strategies to construct lentiviral vaccines by using the envelope glycoprotein.

Lentivirus genomic organization: the complete nucleotide sequence of the env gene region of equine infectious anemia virus

The nucleotide sequence of the envelope (env) gene region of equine infectious anemia virus (EIAV), a member of the lentivirus subfamily of retroviruses, has been determined from a clone of integrated proviral DNA for which the gag and pol sequences have been reported previously. The env gene is 859 codons in length and the sequence reported here is consistent with the published biochemical properties of EIAV glycoproteins. The env gene region of EIAV shares considerable structural similarities but negligible sequence homologies with the env genes of other members of the lentivirus subfamily, visna virus, and human T-lymphotropic virus (HTLV-III) or lymphadenopathy virus (LAV). As in visna virus and HTLV-III, the polymerase (pol) and env genes of EIAV do not overlap. EIAV contains two short open reading frames (orf) of 50 and 66 codons in the pol-env intergenic region. However, unlike the orf Q regions reported for visna virus and HTLV-III, neither EIAV orf overlaps the 3' terminus of the adjacent pol gene. The EIAV genome also contains a third short open reading frame of 135 codons which is contained completely within the env gene, in contrast to the 3'-orf/orf F gene reported for HTLV-III/LAV which extends beyond the env gene terminus. These results provide a detailed description of the env gene region of EIAV and describe a number of characteristic features of genomic organization in lentiviruses which contrast with the genomic organization of oncogenic retroviruses.

Molecular cloning and physical characterization of integrated equine infectious anemia virus: molecular and immunologic evidence of its close relationship to ovine and caprine lentiviruses

Molecular clones of the integrated form of the genome of equine infectious anemia virus (EIAV), the etiologic agent of a naturally occurring, worldwide disease of horses, were obtained. The restriction map of a full-length genome was determined. Additional evidence for the close evolutionary relationship between EIAV and a prototype lentivirus (caprine arthritis encephalitis virus) was acquired by Southern blotting and immunological analyses. An interspecies radioimmunoassay was developed in which EIAV and ovine and caprine lentiviruses could be detected equally well. These studies make available precisely defined reagents to pursue the study of the mechanisms of pathogenesis of lentiviral induced diseases.

Nucleotide sequence analysis of the long terminal repeat of integrated caprine arthritis encephalitis virus

The nucleotide sequence of the long terminal repeat (LTR) of caprine arthritis encephalitis virus (CAEV), a prototype lentivirus was determined. 6-bp directly repeated host cell sequences flank the 376-bp proviral LTRs. By comparison with other retroviral sequences, the CAEV LTR likely contains U3, R and U5 regions 207, 86 and 83 base-pairs in length, respectively. Sequences conforming to consensus transcriptional promoter sites were identified in the U3 region upstream of a potential transcription initiation site. A consensus polyadenylation signal is present 20 bases upstream of the putative R-U5 border and a potential poly(A) addition site. Sequence comparisons of the CAEV LTR with those of other retroviruses uncovered significant similarities with that of visna virus. No other global homologies with other retrovirus LTRs could be detected. CAEV utilizes a primer binding site complementary to lysine tRNA as does visna, AIDS associated retroviruses, and mouse mammary tumor virus. The putative primer for positive-strand DNA synthesis identified in the CAEV sequence is identical to that of visna virus and very similar to those of AIDS retroviruses and MMTV. In addition, a stretch that includes the TATA box of the CAEV LTR resembles closely the corresponding region in the AIDS retrovirus. These and other findings further strengthen the classification of AIDS retrovirus as a lentivirus.

Pathogenesis of lentivirus infections

Following infection of animals or humans, lentiviruses play a prolonged game of hide and seek with the host's immune system which results in a slowly developing multi-system disease. Emerging knowledge of the disease processes is of some relevance to acquired immune deficiency syndrome (AIDS), which is caused by a virus possessing many of the characteristics of a lentivirus.

Sequence homology between cloned caprine arthritis encephalitis virus and visna virus, two neurotropic lentiviruses

Caprine arthritis encephalitis virus (CAEV) is an exogenous, nononcogenic retrovirus which causes neurological disease and crippling arthritis in goats. A complete CAEV genome was cloned from unintegrated viral DNA in two fragments of 9.4 and 0.4 kilobases in length, respectively. The biological activity of these clones was tested by ligation of the fragments followed by transfection onto goat synovial membrane cells; infectious virus was recovered. Cloned CAEV and visna virus, a related neurotropic virus of sheep, were compared by heteroduplex and molecular hybridization analyses. These data demonstrated that the greatest overall conservation of nucleotide sequences occurred in the gag and pol gene regions and two smaller regions, sor and the putative tat gene. The region of greatest divergence occurred in the env gene and, in particular, was localized primarily in the region coding for the glycosylated outer membrane protein. These findings and the recently demonstrated genetic relationship of visna virus, CAEV, and human T-cell lymphotropic virus type III, the etiologic agent of the acquired immune deficiency syndrome, may have important implications concerning the biological properties of these related viruses for human and veterinary medicine.

Nucleotide sequence evidence for relationship of AIDS retrovirus to lentiviruses

Lentiviruses are a subfamily of retroviruses which have been aetiologically linked to the induction of arthritis, encephalitis, progressive pneumonia and slow neurological diseases in certain species. Relatively little is known about their genome structure, mechanisms of pathogenesis or evolutionary relationships with other retroviral subfamilies. In an effort to understand better the mechanisms by which these viruses induce such a variety of chronic diseases, we have molecularly cloned and physically characterized the genomes of caprine arthritis-encephalitis virus (CAEV) and equine infectious anaemia virus (EIAV) (A.Y. et al., in preparation). The latter, which bears some morphological similarity to the lentiviruses, has yet to be classified definitively as one. Here, we have determined the nucleotide sequence of a highly conserved region within the CAEV and EIAV pol genes. We demonstrate a much closer relationship of their predicted pol gene products to that of the presumed aetiological agent of human acquired immune deficiency syndrome (AIDS) than to those of other retroviruses. Additional pairwise comparisons allowed us to generate an evolutionary tree showing that the pol genes of lentiviruses and oncoviruses have evolved from a common progenitor.