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Vpu-mediated intracellular targeting of HIV-1 core protein precursor Pr55[gag] and association of Pr55[gag] with lipid microdomains

thesis
posted on 2024-09-02, 22:31 authored by Kirsi Harila

HIV-1 has been suggested to use lipid rafts for assembly and budding. Lipid rafts can be separated from the bulk membranes by extraction with non-ionic detergents, such as Triton X-100 at cold, followed by a density gradient centrifugation. The analysis of intracellular Pr55gag on iodixanol density gradients yielded intermediate density buoyant complexes while raft-associated proteins floated to the light-density fractions. Extracellular virus-like particles (VLPs) showed a similar intermediate flotation pattern after TX-100 extraction suggesting that Pr55gag was not a genuine raft-associated protein. The lipid analysis of TX-100 extracted VLPs suggested that the intermediate buoyant complexes were largely devoid of membrane cholesterol and phospholipids. We also tested the extractability of the membranes with Brij98 which has been shown to detect rafts at physiological temperatures. Our analyses showed that intracellular Pr55gag as well as VLPs were largely resistant to Brij98-extraction. We concluded that Pr55gag associates with lipid microdomains distinct from the classical TX-100-resistant lipid rafts.

We also analyzed the intracellular targeting of Pr55gag. It has been under an intense debate at which cellular membrane the productive assembly takes place, as Pr55gag has been seen to accumulate at both the internal membranes and the plasma membrane depending on the cell type. To resolve this issue, we performed our analyses in HeLa H1-cells, where the Pr55gag can be found both at the plasma membrane and the internal membranes. We employed pulse-chase studies and a subcellular fractionation assay by which an efficient separation of the plasma membrane from the internal membrane fraction is achieved. The kinetic analyses revealed that in the HeLa H1-cells newly synthesized Pr55gag is exclusively targeted to the plasma membrane. To our surprise, the plasma membrane-associated Pr55gag was subsequently endocytosed, if the viral accessory protein Vpu was defective in our proviral construct. Our work was the first to implicate that Vpu had an important role in the subcellular localization of Pr55gag.

We probed by which mechanism the Pr55gag is taken up into the cells in the absence of Vpu. Our analyses implicated that neither clathrin-mediated endocytosis nor macropinocytosis was involved in Pr55gag uptake. In contrast, the cholesterol depletion affected the uptake of Gag thus suggesting the possibility that cholesterol-mediated uptake might be involved. However, cholesterol depletion had a more pronounced effect if it was applied before the maximal membrane insertion and at least some level of the higher-order multimerization of Pr55gag were achieved. This implicated that the cholesterol-dependent uptake pathway was only indirectly associated with the endocytosis of Pr55gag as cholesterol depletion most likely interfered with Gag multimerization and virus assembly.

List of scientific papers

I. Holm K, Weclewicz K, Hewson R, Suomalainen M. 2003. Human Immunodeficiency Virus Type 1 Assembly and Lipid rafts: Pr55gag Associates with Membrane Domains That Are Largely Resistant to Brij98 but Sensitive to Triton X-100. J Virol. 77(8): 4805-4817.
https://doi.org/10.1128/JVI.77.8.4805-4817.2003

II. Harila K, Prior I, Sjöberg M, Salminen A, Hinkula J, Suomalainen M. 2006. Vpu and Tsg101 Regulate Intracellular Targeting of the Human Immunodeficiency Virus Type 1 Core Protein Precursor Pr55gag. J Virol. 80(8):3765-3772.
https://doi.org/10.1128/JVI.80.8.3765-3772.2006

III. Harila K, Salminen A, Prior I, Hinkula J, Suomalainen M. The Vpuregulated endocytosis of HIV-1 Gag is clathrin-independent. 2007. Virology. 369(2):299-308.
https://doi.org/10.1016/j.virol.2007.08.009

History

Defence date

2011-11-18

Department

  • Department of Medicine, Huddinge

Publisher/Institution

Karolinska Institutet

Main supervisor

Suomalainen, Maarit

Publication year

2011

Thesis type

  • Doctoral thesis

ISBN

978-91-7457-543-9

Number of supporting papers

3

Language

  • eng

Original publication date

2011-10-27

Author name in thesis

Harila, Kirsi

Original department name

Department of Biosciences and Nutrition

Place of publication

Stockholm

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