Arlette Doucet scite author profile

Background: Despite some controversy regarding the preferential infection and replication of human immunodeficiency virus type 1 (HIV-1), it appears that primary T lymphocytes, in their quiescent state, are nonpermissive for viral expression and propagation. Massive activation of viral gene expression occurs only when the host lymphocyte is activated. These observations prompted us to investigate the transcriptional regulation of HIV-1 in resting or activated T cells that were isolated from cord blood or adult peripheral blood. Materials and Methods: To this end, we employed cellular purification and phenotyping techniques, in vitro protein-DNA binding studies, functional transactivation assays using proteins isolated from cord blood or adult peripheral blood T lymphocytes, and transfection experiments in primary T cells. Results: We showed that transcription from the HIV-1 long terminal repeat is repressed in resting naive T lymphocytes; whereas, mitogenically stimulated CD4 ϩ cells form an activator that derepresses transcription. Negative and positive regulation act through a repressor-activator target sequence (RATS), which shares homology with the interleukin-2 (IL-2) purine-rich response element, through the adjacent binding site of the nuclear factor of activated T cells (NFAT), and weakly, through the B region. Conclusions: This regulation exerted by cellular transcription factors can account for several important features of HIV-1 expression in primary CD4 ϩ cells. Tight repression in resting naive T helper cells may be a main cause of viral latency and transcriptional activation accounts for massive viral production in activated T lymphocytes.

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Benefit of Prestorage Leukocyte Depletion of Single‐Donor Platelet Concentrates

Chalandon

Mermillod

Beris

et al. 1999

Vox Sanguinis

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Occurrence of a silencer of the interleukin‐2 gene in naive but not in memory resting T helper lymphocytes

et al. 1993

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In the immune system the first activation of a naive T cell by antigen is a key step in the shaping of the peripheral T cell specificity repertoire and maintenance of self-tolerance. In the present study, analysis of the interleukin-2 (IL-2) gene activation shows that naive human helper T cells (cord blood CD4+ T cells, adult CD4+CD45RO- T cells) regulate IL-2 transcription by a mechanism involving both a silencer and an activator acting on the purine-rich IL-2 promoter elements (NF-AT binding sites). By contrast, memory cells, either in vitro activated helper T cells reverting to a resting state, or CD4+ T (memory) clones, or CD4+CD45RO+ T cells isolated ex vivo, no longer have a silencer. Their IL-2 transcription seems to be controlled solely by the transition from inactive to active functional state of a positive transcription factor binding to these promoter elements as well as its cytoplasmic or nuclear location: in resting memory T cells the activator is located in the cytoplasm and is inactive, whereas in stimulated cells it is functional in promoting transcription and now resides in the nucleus. Thus, the regulation of the gene coding for the main T cell growth factor changes irreversibly after the first encounter of T cells with antigen. It is most likely that the presence of a silencer contributes to the more stringent activation requirements of naive CD4+ T cells.

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Trans‐active factors controlling the IL‐2 gene in adult human T‐cell subsets

Mouzaki

Zubler

Doucet

et al. 1992

Mediators of Inflammation

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IL-2 secretion in total or subsets of PHA/PMA-stimulated PBMC-derived human T-lymphocytes was monitored and found to be largely due to CD4+CD8− cells. The presence and functional state of transcription factors (TF) was assessed by protein-DNA interaction assays and functional transactivation experiments in the Xenopts oocyte system, modulating IL-2 transcription by injection of proteins. The results reveal that CD4+CD8− cells contain both, functional silencer in their resting, and positive TF in their activated states while the CD4+CD8− group contains only non-functional positive TF. This demonstrates that the on/off switch of IL-2 transcription is based on the same mechanism in primary T-lymphocytes of mouse spleen and in peripheral human CD4+CD8− cells.

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Quality evaluation of plateletpheresis using the new AMICUS (Baxter) cell separator: Evolution of CD 62 expression

et al. 1998

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Arlette Doucet

A Repression-derepression Mechanism Regulating the Transcription of Human Immunodeficiency Virus Type 1 In Primary T Cells

Benefit of Prestorage Leukocyte Depletion of Single‐Donor Platelet Concentrates

Occurrence of a silencer of the interleukin‐2 gene in naive but not in memory resting T helper lymphocytes

Trans‐active factors controlling the IL‐2 gene in adult human T‐cell subsets

Quality evaluation of plateletpheresis using the new AMICUS (Baxter) cell separator: Evolution of CD 62 expression

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