High variety of different simian T-cell leukemia virus type 1 strains in chimpanzees (Pan troglodytes verus) of the Taï National Park, Côte d'Ivoire.

We found human T-cell leukemia virus type 1- and simian T-cell leukemia virus type 1 (STLV-1)-related infections in 5 of 10 chimpanzees originating from three groups of wild chimpanzees. The new virus isolates showed a surprising heterogeneity not only in comparison to STLV-1 described previously in other primate species but also between the different chimpanzee groups, within a group, or even between strains isolated from an individual animal. The interdisciplinary combination of virology, molecular epidemiology, and long-term behavioral studies suggests that the primary route of infection might be interspecies transmission from other primates, such as red colobus monkeys, that are hunted and consumed by chimpanzees.

Transmission of human T-cell leukaemia virus type I into adult mice.

Human T-cell leukaemia virus type I (HTLV-I)-transformed rabbit T-cells, F647a, were intraperitoneally injected into eight 10-week-old C3H/He and C3H/HeJ mice (1 x 10(7) F647a cells/mouse), respectively. Antibody titres against HTLV-I increased to a peak at 1-3 months after injection in both C3H/He and C3H/HeJ mice. At 12 months after injection, antibody titres of two of the eight C3H/HeJ mice became undetectable, whereas those of all the C3H/He mice still ranged from 1:10 to 1:40. Sera from both seropositive C3H/He and C3H/HeJ mice reacted with HTLV-I core proteins, but not with the env protein. HTLV-I proviral sequences were detected in two of eight C3H/He mice and three of the eight C3H/HeJ mice. These results suggest that HTLV-I is able to infect an adult mouse.

[Cytogenic characteristics and virogenic status of lymphoid cells from malignant baboon lymphomas]. / Tsitogeneticheskaia kharakteristika i virogennyi status limfoidnykh kletok iz zlokachestvennykh limfom pavianov.

Four lymphoid cell cultures obtained from Papio hamadryads with malignant lymphomas were studied. The cultured cells produced two lymphotropic EBV-like herpes virus of Papio (HVP) and T-lymphotropic monkey retrovirus STLV-1 (HTLV-1 family) or HVP alone. More than 100 subcultured cell lines were shown to remain mixed B- and T-cellular, the levels of T cells of different subpopulations were 15-50%. Cytogenetic investigations showed that one of the 4 cultures was tumorogenic and the others were derived from the normal cells of monkeys with malignant lymphomas. It is suggested that the presence of a cultural virus (viruses) may affect the karyotypes of cells.

Genomic evolution, patterns of global dissemination, and interspecies transmission of human and simian T-cell leukemia/lymphotropic viruses.

Using both env and long terminal repeat (LTR) sequences, with maximal representation of genetic diversity within primate strains, we revise and expand the unique evolutionary history of human and simian T-cell leukemia/lymphotropic viruses (HTLV/STLV). Based on the robust application of three different phylogenetic algorithms of minimum evolution-neighbor joining, maximum parsimony, and maximum likelihood, we address overall levels of genetic diversity, specific rates of mutation within and between different regions of the viral genome, relatedness among viral strains from geographically diverse regions, and estimation of the pattern of divergence of the virus into extant lineages. Despite broad genomic similarities, type I and type II viruses do not share concordant evolutionary histories. HTLV-I/STLV-I are united through distinct phylogeographic patterns, infection of 20 primate species, multiple episodes of interspecies transmission, and exhibition of a range in levels of genetic divergence. In contrast, type II viruses are isolated from only two species (Homo sapiens and Pan paniscus) and are paradoxically endemic to both Amerindian tribes of the New World and human Pygmy villagers in Africa. Furthermore, HTLV-II is spreading rapidly through new host populations of intravenous drug users. Despite such clearly disparate host populations, the resultant HTLV-II/STLV-II phylogeny exhibits little phylogeographic concordance and indicates low levels of transcontinental genetic differentiation. Together, these patterns generate a model of HTLV/STLV emergence marked by an ancient ancestry, differential rates of divergence, and continued global expansion.

The natural history and evolution of human and simian T cell leukemia/lymphotropic viruses.

The past five years have seen significant advances in understanding the origin and evolution of human T-cell leukemia/lymphotropic virus types I and II. The highlights include the identification of human T-cell leukemia/lymphotropic virus types I and II genotypic variants in remote human populations and the discovery of widely divergent simian T-cell leukemia virus in African and Asian non-human primates.

Seroepidemiologic, molecular, and phylogenetic analyses of simian T-cell leukemia viruses (STLV-I) from various naturally infected monkey species from central and western Africa.

A study of simian T-cell lymphoma/leukemia virus infection, conducted on 747 nonhuman primates belonging to 14 different species in Central and Western Africa, indicated that 4 species (Cercopithecus aethiops, Erythrocebus patas, Papio doguera, and Cercopithecus mona pogonias) had a high prevalence of seropositivity to simian T-cell lymphoma/leukemia virus type I (STLV-I). The other nonhuman primate species, however, had negative or low levels of anti-HTLV-I antibodies. STLV-I pol and env DNA was detected in 12 of 12 different animals among the seropositive species. However, STLV-I pX DNA could be detected in only 10 of 12 animals. Comparative phylogenetic analyses based on 140 bp sequence of the pol gene indicate that these STLV-I isolates were 0-9% divergent from each other and were 3.5-7% divergent from the prototype related human retrovirus HTLV-I (ATK). The West African STLV-I isolates formed a unique phylogenetic cluster as did most of the Central African STLV-I isolates, save for STLV-I (Tan 90). The phylogenetic data indicate that cross species transmission of HTLV-I and STLV-I continued to occur long after their ancestral strain separated from the progenitor to HTLV-II. Comparative amino acid analyses indicated that there was marked conservation of the TAX protein regardless of host species, while the pol and REX proteins exhibited increasing levels of diversity.

High prevalence of HTLV antibodies in wild-caught bonnet monkeys in southern India.

The prevalence of human T-lymphotropic virus (HTLV) type-1 antibodies was determined in the bonnet monkeys, living naturally, within about 30 km radius of Vellore (south India). Sera from 157 animals, collected between January 1982 and May 1993 were screened for the presence of HTLV-I infection by a particle agglutination test (PAT). When sera repeatedly reactive in PAT were subjected to indirect immunofluorescence and western blot tests, 63 (40%) were confirmed to be positive for HTLV-1 antibody. These findings are significant in the light of recent reports that HTLV infection is endemic to southern India.