The nef gene controls syncytium formation in primary human lymphocytes and macrophages infected by HIV type 1

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Ressource 1Download: Meylan (Nef), AIDS Res Hum Retr 1998b.pdf (4516.05 [Ko])
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Serval ID
serval:BIB_3F347BBBDA67
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
The nef gene controls syncytium formation in primary human lymphocytes and macrophages infected by HIV type 1
Journal
AIDS Research and Human Retroviruses
Author(s)
Meylan P. R., Baumgartner M., Ciuffi A., Munoz M., Sahli R.
ISSN
0889-2229 (Print)
Publication state
Published
Issued date
11/1998
Volume
14
Number
17
Pages
1531-42
Language
english
Notes
Journal Article
Research Support, Non-U.S. Gov't --- Old month value: Nov 20
Abstract
nef, the 3'-most open reading frame of HIV, has been reported to enhance HIV replication in various host cell types and to promote in vivo replication and pathogenesis. The mechanism underlying the increased in vivo viral replication is still unclear. We have examined the effect of a nef deletion on the infection of primary human CD4+ T lymphocytes and macrophages, using clones with nef and env sequences derived, respectively, from T cell- and macrophage-tropic viruses. The deletion of nef enhanced the formation of syncytia in CD4+ T lymphocytes infected with macrophage-tropic clones, despite a severalfold reduced viral production. No such enhancement of syncytium formation was observed in CD4+ T lymphocytes infected with a T cell line-tropic clone, but in this clone, the deletion of nef imparted a more severe replication defect. A similar increase in syncytium formation was observed in primary human macrophages infected with nef-deleted clones compared with wild-type counterparts, except under conditions in which the deletion of nef markedly reduced viral replication. We could not demonstrate an enhanced cell surface expression of HIV-1 envelope in lymphocytes infected with nef-deficient clones to explain the increased syncytium formation. In enhancing the HIV-1 cytopathic effect, the deletion of nef might curtail virus production by infected cells, and thus explain in part the reduced viral load observed in vivo in hosts infected with nef-deficient viruses.
Keywords
Animals CD4-Positive T-Lymphocytes/metabolism/*virology COS Cells Cells, Cultured Gene Products, nef/genetics/*physiology Giant Cells HIV Envelope Protein gp120/biosynthesis HIV-1/metabolism/*physiology Humans Macrophages/metabolism/*virology Peptide Fragments/biosynthesis
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Web of science
Create date
24/01/2008 20:51
Last modification date
18/05/2023 6:09
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