Analysis of antibody responses to phenotypically distinct lentiviruses

To define the immune responses against phenotypically and pathogenically distinct lentiviruses, we used an immunoblotting assay to study antibodies to viral proteins of ovine lentivirus (OvLV) in 16 experimentally and 12 naturally infected sheep. Two distinct phenotypes of OvLV were used to experimentally infect lambs: strain 85/34, a "rapid/high" isolate which rapidly induced lysis in infected primary macrophage cultures and replicated to relatively high titers, and strains 84/28 and 85/14, "slow/low" isolates which induced slowly progressive syncytia with minimal lysis in vitro and replicated only to low titers in the same cell type. Serum antibodies against four major viral structural proteins, gp105, p25, p16, and p14, were detected. In a longitudinal study of experimentally infected lambs, the antibody to p25 (major gag protein) usually appeared first (average, about 3 weeks postinoculation [p.i.]) and was followed in about 2 weeks by p16, p14, and gp105 almost simultaneously. Six of 16 animals did not develop anti-p14 antibody by the time of necropsy at 9 to 29 weeks p.i. Two of 10 lambs which developed antibody to p14 had the antibody only transiently from 3 to 8 or 13 weeks p.i. and lost it by the time of necropsy at 21 or 22 weeks p.i. In contrast, antibodies to the other three structural proteins remained fairly constant until the time of necropsy. There were differences in the antibody responses of the experimentally infected lambs to the two phenotypes of OvLV. Seven of 10 (70%) lambs which were inoculated with the rapid/high strain developed antibody to p14, whereas only 17% of the lambs inoculated with the slow/low strains had antibody to this protein. In the longitudinal study, no decline was observed in the activity of any specific antibody such as that which occurs with anti-p24 antibody in human immunodeficiency virus infection, except in the case of anti-p14 antibody in two lambs. There were no significant differences in antibody titers against p25, p16, and p14 in final blood samples between rapid/high virus- and slow/low virus-infected groups. However, the rapid/high virus-infected group developed a fivefold-higher geometric mean titer of anti-env product (gp 105) antibody than did the slow/low virus-infected group (P </= 0.1). Antibody titers to all major structural proteins, except p14, in the naturally infected sheep were markedly lower than those in experimentally induced OvLV infections (P </= 0.01). The failure of the slow/low virus-infected group to develop anti-p14 antibody may suggest diminished viral replication in vivo or a failure of the host to recognize p14 in the slow/low virus-infected group. Since the geometric mean antibody titer to gp105 was threefold higher in lambs with lymphoid interstitial pneumonia than in those without lesions and since no differences were observed in the titers of other antiviral antibodies between these groups, we found no evidence to suggest that levels of such antibodies correlated with protection from OvLV-induced disease.

[1]  I. M. Nauta,et al.  Immunoblot analysis of the antibody response to ovine lentivirus infections. , 1989, Veterinary microbiology.

[2]  J. Albert,et al.  Distinct replicative and cytopathic characteristics of human immunodeficiency virus isolates , 1988, Journal of virology.

[3]  F. Chiodi,et al.  AIDS two months after primary human immunodeficiency virus infection. , 1988, The Journal of infectious diseases.

[4]  K. Brogden,et al.  Ovine progressive pneumonia (maedi-visna) in sheep. , 1988, Veterinary microbiology.

[5]  D. Baltimore,et al.  Standardized and simplified nomenclature for proteins common to all retroviruses , 1988, Journal of virology.

[6]  A. Hatzakis,et al.  Antibody responses in early human immunodeficiency virus type 1 infection in hemophiliacs. , 1988, The Journal of infectious diseases.

[7]  M. Lairmore,et al.  Lentivirus-induced lymphoproliferative disease. Comparative pathogenicity of phenotypically distinct ovine lentivirus strains. , 1988, The American journal of pathology.

[8]  M. Lairmore,et al.  Replication and cytopathic effects of ovine lentivirus strains in alveolar macrophages correlate with in vivo pathogenicity , 1987, Journal of virology.

[9]  J. Nielsen,et al.  Temporal relation of antigenaemia and loss of antibodies to core antigens to development of clinical disease in HIV infection. , 1987, British medical journal.

[10]  D. Ho,et al.  Pathogenesis of infection with human immunodeficiency virus. , 1987, The New England journal of medicine.

[11]  V. Barban,et al.  Characteristics of a novel lentivirus derived from South African sheep with pulmonary adenocarcinoma (jaagsiekte). , 1987, Virology.

[12]  J. Clements,et al.  Topographical rearrangements of visna virus envelope glycoprotein during antigenic drift , 1987, Journal of virology.

[13]  G. Dawson,et al.  Antigenemia and antibody titers to core and envelope antigens in AIDS, AIDS-related complex, and subclinical human immunodeficiency virus infection. , 1987, The Journal of infectious diseases.

[14]  J. Goudsmit,et al.  Persistent HIV antigenaemia and decline of HIV core antibodies associated with transition to AIDS. , 1986, British medical journal.

[15]  M. Lairmore,et al.  Ovine lentivirus lymphoid interstitial pneumonia. Rapid induction in neonatal lambs. , 1986, The American journal of pathology.

[16]  W. Kuis,et al.  HTLV-III/LAV infection in nine children infected by a single plasma donor: clinical outcome and recognition patterns of viral proteins. , 1986, The Journal of infectious diseases.

[17]  J. Goudsmit,et al.  Distinct IgG recognition patterns during progression of subclinical and clinical infection with lymphadenopathy associated virus/human T lymphotropic virus. , 1986, British medical journal.

[18]  K. Steimer,et al.  Infection by the retrovirus associated with the acquired immunodeficiency syndrome. Clinical, biological, and molecular features. , 1985, Annals of internal medicine.

[19]  J. Groopman,et al.  Virus envelope protein of HTLV-III represents major target antigen for antibodies in AIDS patients. , 1985, Science.

[20]  H. Joller,et al.  Antibodies to HTLV-III in Swiss patients with AIDS and pre-AIDS and in groups at risk for AIDS. , 1985, The New England journal of medicine.

[21]  O. Narayan,et al.  Lentiviral diseases of sheep and goats: chronic pneumonia leukoencephalomyelitis and arthritis. , 1985, Reviews of infectious diseases.

[22]  V. Barban,et al.  Highly lytic and persistent lentiviruses naturally present in sheep with progressive pneumonia are genetically distinct , 1984, Journal of virology.

[23]  J. Chermann,et al.  Antibodies to the core protein of lymphadenopathy-associated virus (LAV) in patients with AIDS. , 1984, Science.

[24]  A. Haase,et al.  Visna DNA synthesis and the tempo of infection in vitro. , 1982, Virology.

[25]  G. Quérat,et al.  Precursor Polypeptides to Structural Proteins of Visna Virus , 1982, Journal of virology.

[26]  J. Gaskin,et al.  Morphological and immunological comparison of caprine arthritis encephalitis and ovine progressive pneumonia viruses , 1981, Journal of virology.

[27]  J. Gorham,et al.  Serologic prevalence of ovine progressive pneumonia in a western range flock of sheep. , 1981, Journal of the American Veterinary Medical Association.

[28]  H. Towbin,et al.  Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. , 1979, Proceedings of the National Academy of Sciences of the United States of America.

[29]  H. Lehmkuhl,et al.  Lesions of ovine progressive pneumonia: interstitial pneumonitis and encephalitis. , 1979, American journal of veterinary research.

[30]  D. Griffin,et al.  Antigenic shift of visna virus in persistently infected sheep. , 1977, Science.

[31]  D. Griffin,et al.  Slow virus infection: replication and mechanisms of persistence of visna virus in sheep. , 1977, The Journal of infectious diseases.

[32]  A. Haase,et al.  Slow persistent infection caused by visna virus: role of host restriction. , 1977, Science.

[33]  R. Cutlip,et al.  Prevalence of ovine progressive pneumonia in a sampling of cull sheep from western and midwestern United States. , 1977, American journal of veterinary research.

[34]  J. Anderson STATISTICS WITH APPLICATIONS TO THE BIOLOGICAL AND HEALTH SCIENCES , 1970 .