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Characterization and molecular basis of the oligomeric structure of HIV-1 Nef protein

Published online by Cambridge University Press:  01 June 2000

STEFAN AROLD
Affiliation:
Centre de Biochimie Structurale, UMR C5048 CNRS, U414 INSERM, Université Montpellier I, Avenue C. Flahault, 34060 Montpellier, France Present address: Laboratory of Molecular Biophysics, South Parks Road, Oxford, United Kingdom.
FRANÇOIS HOH
Affiliation:
Centre de Biochimie Structurale, UMR C5048 CNRS, U414 INSERM, Université Montpellier I, Avenue C. Flahault, 34060 Montpellier, France
STEPHANIE DOMERGUE
Affiliation:
Centre de Biochimie Structurale, UMR C5048 CNRS, U414 INSERM, Université Montpellier I, Avenue C. Flahault, 34060 Montpellier, France
CATHERINE BIRCK
Affiliation:
Groupe de Cristallographie Biologique, IPBS-CNRS, 31077 Toulouse, France
MARC-ANDRÉ DELSUC
Affiliation:
Centre de Biochimie Structurale, UMR C5048 CNRS, U414 INSERM, Université Montpellier I, Avenue C. Flahault, 34060 Montpellier, France
MAGALI JULLIEN
Affiliation:
Centre de Biochimie Structurale, UMR C5048 CNRS, U414 INSERM, Université Montpellier I, Avenue C. Flahault, 34060 Montpellier, France
CHRISTIAN DUMAS
Affiliation:
Centre de Biochimie Structurale, UMR C5048 CNRS, U414 INSERM, Université Montpellier I, Avenue C. Flahault, 34060 Montpellier, France
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Abstract

The Nef protein of human immunodeficiency virus type I (HIV-1) is an important determinant for the onset of AIDS disease. The self-association properties of HIV-1 Nef are analyzed by chemical cross-linking, dynamic light scattering, equilibrium analytical ultracentrifugation, and NMR spectroscopy. The experimental data show that the HIV-1 Nef core domain forms stable homo-dimers and trimers in solution, but not higher oligomers. These Nef homomers are not covalently linked by disulfide bridges, and the equilibrium between these forms is dependent on the Nef concentration. We further provide the molecular basis for the Nef core dimers and trimers obtained by analysis of crystallographic models. Oligomerization of biological polypeptides is a common tool used to trigger events in cellular signaling and endocytosis, both of which are targeted by Nef. The quaternary structure of Nef may be of physiological importance and may help to connect its cellular targets or to increase affinity of the viral molecule for its ligands. The herein described models for Nef dimers and trimers will allow further mutational studies to elucidate their role in vivo. These results provide novel insight into the structural and functional relationships of this important viral protein. Moreover, the oligomer interface may represent a novel target for the design of antiviral agents.

Type
Research Article
Copyright
2000 The Protein Society

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