Sayuri Sakuragi

Infection of macaque monkeys with a chimeric human and simian immunodeficiency virus

Two macaque monkeys were inoculated with a chimeric human and simian immunodeficiency virus carrying the tat, rev, vpu and env genes of human immunodeficiency virus type 1. Infectious virus was recovered from one of the monkeys at 2 and 6 weeks post-infection. The hybrid nature of the isolated viruses was verified by Southern and Western blotting analyses. Both of the monkeys infected with the chimera elicited a humoral antibody response against the virus.

Minimal Region Sufficient for Genome Dimerization in the Human Immunodeficiency Virus Type 1 Virion and Its Potential Roles in the Early Stages of Viral Replication

ABSTRACT It has been suggested that the dimer initiation site/dimer linkage sequence (DIS/DLS) region of the human immunodeficiency virus type 1 (HIV-1) RNA genome plays an important role at various stages of the viral life cycle. Recently we found that the duplication of the DIS/DLS region on viral RNA caused the production of partially monomeric RNAs in virions, indicating that this region indeed mediates RNA-RNA interaction. In this report, we followed up on this finding to identify the necessary and sufficient region for RNA dimerization in the virion of HIV-1. The region thus identified was 144 bases in length, extending from the junction of R/U5 and U5/L stem-loops to the end of SL4. The trans-acting responsive element, polyadenylation signal, primer binding site, upper stem-loop of U5/L, and SL2 were not needed for the function of this region. The insertion of this region into the ectopic location of the viral genome did not affect the level of virion production by transfection. However, the resultant virions contained monomerized genomes and showed drastic reductions in infectivity. A reduction was observed especially in the reverse transcription process. An attempt to generate a replication-competent virus with monomerized genome was performed by the long-term culture of mutant virus-infected cells. All recovered viruses were wild-type revertants, indicating a fatal defect of the mutation. These results suggest that genome dimerization or DIS/DLS itself also plays an important role in the early stages of virus infection.

Compatibility of Tat and Rev transactivators in the primate lentiviruses

SummaryPrimate immunodeficiency viruses carry a unique set of transacting regulator genes, which are essential for viral replication. The exchangeability of these Tat and Rev transactivators derived from viruses of the four major subgroups identified to date was assessed in transient transfection and infection assay systems. The human immunodeficiency virus type 1 (HIV-1), a major causative virus of human AIDS, efficiently activated the other viruses. In contrast, thetat andrev gene products of HIV-2, SIVAGM (virus of the African green monkey), and SIVMND (virus of the mandrill) did not fully transactivate the HIV-1. In particular, therev of HIV-1 was not substantially replaced by those of the other viruses. The result that HIV-1 is distinct from the other immunodeficiency viruses with respect to the compatibility of two transactivators gives a firm functional basis for the unique phylogenetic position of HIV-1.

Functional classification of simian immunodeficiency virus isolated from a chimpanzee by transactivators

In reporter-based transient expression systems, we characterized simian immunodeficiency virus from a chimpanzee (SIVCPZ), with special reference to the human immunodeficiency virus type 1 (HIV-1). SIVCPZ was not equally activated by tat and rev transactivators derived from representative primate lentiviruses. HIV-1 alone activated SIVCPZ to the full extent in both tat and rev assays. The tat and rev gene products of SIVCPZ, as well as those of HIV-1, efficiently transactivated the other viruses. These results indicate that SIVCPZ is identical to HIV-1 with regard to the compatibility of tat and rev gene activities among four subgroups of primate lentiviruses.

Genetic characterization of simian immunodeficiency virus isolated from an African mandrill

SummaryWe constructed an infectious molecular clone of simian immunodeficiency virus from an African mandrill (SIVMND). Upon transfection, this clone directed the production of progeny virus particles infectious to and cytopathic for CD4+ human leukemia cells. Thirteen frameshift proviral mutants with an alteration in the eight open reading frames of SIVMND were generated by recombinant DNA techniques, and were analyzed biologically and biochemically. While mutations in the structural genesgag, pol, andenv abolished viral growth and induction of cytopathology, mutants of thevif, vpr, andnef genes were fully biologically active. Of thetat andrev mutants, only onerev mutant grew in CD4+ cells with delayed kinetics. In reporter-based transient expression systems, transactivation potentials of thetat andrev mutants were evaluated. A mutant lacking 2nd coding exon oftat gene exhibitedtat activity similar to that of the wild type clone. The infectiousrev mutant was partially defective forrev gene activity.

Functional analysis of biologically distinct genetic variants of simian immunodeficiency virus isolated from a mandrill

We examined the biological properties of two infectious clones of a simian immunodeficiency virus, SIVMND, which were designated as pMD121 and pMD122. Upon transfection into CD4-negative cells, pMD122 generated virions much less efficiently than pMD121. Likewise, the growth kinetics in CD4-positive cells of virus derived from pMD122 were remarkably delayed relative to those of virus from pMD121. The cytocidal activity of the MD122 virus was also low. A series of recombinant clones were constructed from pMD121 and pMD122 to determine the sequence responsible for the low virulence of the MD122 virus. The genetic determinant in pMD122 responsible for its properties was mapped to within a region (316 base pairs) encompassing the tat, rev, and env coding sequences. Sequence analysis revealed that the two clones differed by only one nucleotide in this region. A nucleotide substitution G (pMD121) to T (pMD122) altered an arginine codon to a serine codon in the first tat coding exon. Transient transfection experiments showed that the tat activity of pMD122 was about twofold less than that of pMD121. These findings indicate that small differences in tat activity can have a dramatic effect on the biological behavior of SIVMND.

Sequences responsible for efficient replication of simian immunodeficiency virus SIVMND in cells of the monocyte/macrophage lineage

We determined the susceptibility of monocytic cell lines to infection with viral strains derived from two infectious clones of simian immunodeficiency virus isolated from a mandrill. One of the strains, which replicates poorly in T cell lines, was found to grow more rapidly than the other in these cells. The viral determinant for this property was genetically mapped within the env gene encoding a surface protein. Six amino acid substitutions identified appeared to be located outside of the domains corresponding to human immunodeficiency virus type 1 env functional domains such as the CD4-binding and V3 loop regions.

Both SU and TMenv proteins are responsible for monkey cell tropism of simian immunodeficiency virus SIVmac

SummaryWhile simian immunodeficiency virus (SIV) derived from an infectious molecular clone pMA239 is tropic and pathogenic for monkeys, the virus derived from another infectious clone pMA142 does not replicate in monkey cells. To determine genetic sequences responsible for this tropism, a series of recombinant clones were constructed from pMA142 and pMA239. The determinant in pMA239 was mapped within regions encompassing theenv gene. Viruses, which carry the 239env gene encoding surface and/or transmembrane proteins, were tropic for monkey cells.

Functional analysis of simian immunodeficiency virus SIVAGM long terminal repeat

We have previously shown that long terminal repeats (LTRs) derived from various isolates of SIVAGM share a unique functional property. In the absence of viral Tat, all SIVAGM LTRs act as much more efficient promoters than any of the other LTRs derived from representative primate immunodeficiency viruses. In the presence of Tat, however, SIVAGM LTRs are activated relatively inefficiently. To map the elements that confer these features on the SIVAGM LTR, a number of deletion mutants were constructed, and their promoter activities were determined using a bacterial CAT gene as a marker. The results obtained indicated that various elements located in the U3 region may contribute to the high basal promoter activity and that no negative elements are present in the region. The Tat-responsive sequence TAR was localized to the R region as observed for the other LTRs. A mutant carrying a single nucleotide deletion in this region completely lost responsiveness to Tat protein.

Relationship between genome packaging and Gag translation/AUG of primate lentiviruses

About the relationship between retroviral genome packaging and translation, three possible modes (random-, trans-, and cis-) of packaging process could be assumed. In this report, we developed an assay system based on the RT-qPCR to measure the packaging efficiency of primate lentiviruses. With this system, we analyzed the genome packaging modes of primate lentiviruses such as HIV-1, 2, SIVmac and SIVagm. The data suggested that the modes of all viruses analyzed were very similar. In addition, we observed that the Gag-AUG sequences of them played important roles for maintaining efficient packaging, other than the initiation of translation.