Catherine Ulich scite author profile

All primate lentiviruses (HIV-1, HIV-2, SIV) encode Nef proteins, which are important for viral replication and pathogenicity in vivo. It is not known how Nef regulates these processes. It has been suggested that Nef protects infected cells from apoptosis and recognition by cytotoxic T lymphocytes. Other studies suggest that Nef influences the activation state of the infected cell, thereby enhancing the ability of that cell to support viral replication. Here we show that macrophages that express Nef or are stimulated through the CD40 receptor release a paracrine factor that renders T lymphocytes permissive to HIV-1 infection. This activity requires the upregulation of B-cell receptors involved in the alternative pathway of T-lymphocyte stimulation. T lymphocytes stimulated through this pathway become susceptible to viral infection without progressing through the cell cycle. We identify two proteins, soluble CD23 and soluble ICAM, that are induced from macrophages by Nef and CD40L, and which mediate their effects on lymphocyte permissivity. Our results reveal a mechanism by which Nef expands the cellular reservoir of HIV-1 by permitting the infection of resting T lymphocytes.

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Tat is required for efficient HIV-1 reverse transcription

Harrich

et al. 1997

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The ability of human immunodeficiency virus-1 (HIV-1) to undergo efficient reverse transcription is dependent on a number of parameters. These include the binding of the tRNA(3)(Lys) to the HIV-1 primer binding site and the subsequent interaction with the heterodimeric reverse transcriptase. Recently, we demonstrated that TAR RNA was also necessary for efficient HIV-1 reverse transcription. Given the fact that the Tat protein is involved in the activation of HIV-1 gene expression in conjunction with TAR, we wished to determine whether Tat might also be involved in the control of HIV-1 reverse transcription. HIV-1 virions deleted in the tat gene were unable to initiate reverse transcription efficiently upon infection of peripheral blood mononuclear cells (PBMCs). This defect was not due to decreased amounts of genomic RNA, reverse transcriptase or other HIV-1 proteins which were incorporated into the virion. Following transfection of wild-type but not mutant tat genes into cell lines producing HIV-1 lacking tat, the virions produced could be complemented for defects in reverse transcription upon subsequent infection of PBMCs. In contrast, the defect in reverse transcription seen with HIV-1 lacking the tat gene could not be complemented when the target cells rather than the producer cells contained tat. Viruses lacking tat were also defective in endogenous assays of reverse transcription, although these viruses contained similar levels of reverse transcriptase. These results indicate that the Tat protein, in addition to regulating the level of gene expression, is also important for efficient HIV-1 reverse transcription.

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A critical role for the TAR element in promoting efficient human immunodeficiency virus type 1 reverse transcription

Harrich

Ulich

Gaynor

1996

J Virol

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The regulation of human immunodeficiency virus type 1 (HIV-1) gene expression is dependent on the transactivator protein Tat and an RNA element extending from the transcription initiation site to ؉57 known as TAR. TAR forms a stable RNA secondary structure which is critical for high levels of HIV-1 gene expression and efficient viral replication. Using a genetic approach, we isolated HIV-1 mutants in TAR that were competent for high levels of gene expression but yet were markedly defective for viral replication. Single-cycle infections with these viruses demonstrated that they were defective in the initiation of reverse transcription. Additional mutational analysis revealed a variety of other HIV-1 TAR mutants with the same defective phenotype. Thus, in addition to the well-characterized role of the primer binding site, other RNA elements within the HIV-1 genome are also critical in the regulation of reverse transcription. These studies demonstrate that HIV-1 TAR RNA is a key regulator of the reverse transcription and illustrate how a unique RNA structure can modulate diverse regulatory processes in the HIV-1 life cycle crucial for efficient viral replication.

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Analysis of Tat function in human immunodeficiency virus type 1-infected low-level-expression cell lines U1 and ACH-2

Cannon

Kim

Ulich

et al. 1994

J Virol

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The U1 and ACH-2 cell lines are subclones of human monocytic and T-lymphoid cells, respectively, persistently infected with human immunodeficiency virus type 1. These cell lines harbor the viral genome but produce only very low levels of viral progeny, which can be increased by stimulation with agents such as phorbol ester and cytokines. As such, they provide an in vitro model for human immunodeficiency virus type 1 latency. In order to examine the basis for their latent state, we have analyzed the activity of endogenous Tat protein in these cells and investigated the effect on viral replication of the addition of exogenous Tat protein. We find that U1 cells seem to have levels of Tat protein that are suboptimal for long terminal repeat (LTR) transcription, because transcription from a transfected LTR-chloramphenicol acetyltransferase plasmid can be enhanced by cotransfection of a Tat expression plasmid. Furthermore, viral replication can be stimulated in this cell line by incubation with purified Tat protein. In contrast, ACH-2 cells are not limited for LTR-chloramphenicol acetyltransferase transcription by endogenous levels of Tat, and virus production is not increased by the addition of exogenous Tat protein. By semiquantitative PCR analysis of viral RNA, we have demonstrated that Tat protein caused an increase in human immunodeficiency virus RNA expression in U1 cells but had no effect in ACH-2 cells. This suggests that a different mechanism underlies the latent state in U1 and ACH-2 cells.

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Functional Domains of Tat Required for Efficient Human Immunodeficiency Virus Type 1 Reverse Transcription

Ulich

Dunne

Parry

et al. 1999

J Virol

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Tat expression is required for efficient human immunodeficiency virus type 1 (HIV-1) reverse transcription. In the present study, we generated a series of 293 cell lines that contained a provirus with atat gene deletion (Δtat). Cell lines that contained Δtat and stably transfected vectors containing either wild-type tat or a number of tat mutants were obtained so that the abilities of these tat genes to stimulate HIV-1 gene expression and reverse transcription could be compared. tat genes with mutations in the amino terminus did not stimulate either viral gene expression or HIV-1 reverse transcription. In contrast, tat mutants in the activation, core, and basic domains of Tat did not stimulate HIV-1 gene expression but markedly stimulated HIV-1 reverse transcription. No differences in the levels of virion genomic RNA or tRNA3 Lys were seen in the HIV-1 Δtat viruses complemented with either mutant or wild-type tat. Finally, overexpression of the Tat-associated kinases CDK7 and CDK9, which are involved in Tat activation of HIV-1 transcription, was not able to complement the reverse transcription defects associated with the lack of a functionaltat gene. These results indicate that the mechanism by which tat modulates HIV-1 reverse transcription is distinct from its ability to activate HIV-1 gene expression.

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Catherine Ulich

HIV-1 Nef intersects the macrophage CD40L signalling pathway to promote resting-cell infection

Tat is required for efficient HIV-1 reverse transcription

A critical role for the TAR element in promoting efficient human immunodeficiency virus type 1 reverse transcription

Analysis of Tat function in human immunodeficiency virus type 1-infected low-level-expression cell lines U1 and ACH-2

Functional Domains of Tat Required for Efficient Human Immunodeficiency Virus Type 1 Reverse Transcription

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