Human Immunodeficiency Virus Type 1 Nef: Adapting to Intracellular Trafficking Pathways

Roeth, Jeremiah F.; Collins, Kathleen L.

doi:10.1128/mmbr.00042-05

Cited by 168 publications

(168 citation statements)

References 173 publications

Supporting

Mentioning

157

Contrasting

Unclassified

Order By: Relevance

“…Among Nef functions, its ability to affect cell surface protein trafficking, including CD4 or MHC I molecules, has been well characterized (16). Nef also influences intracellular signaling pathways by physically interacting with host cell proteins, thus modifying their localizations and functions (for reviews, see Refs.…”

mentioning

confidence: 99%

HIV-1 Nef Triggers Macrophage Fusion in a p61Hck- and Protease-Dependent Manner

Vérollet

Zhang

Cabec

et al. 2010

The Journal of Immunology

View full text Add to dashboard Cite

Macrophages are a major target of HIV-1 infection. HIV-1–infected macrophages form multinucleated giant cells (MGCs) using poorly elucidated mechanisms. In this study, we show that MGC formation was reduced when human macrophages were infected with nef-deleted HIV-1. Moreover, expression of Nef, an HIV-1 protein required in several aspects of AIDS, was sufficient to trigger the formation of MGCs in RAW264.7 macrophages. Among Nef molecular determinants, myristoylation was dispensable, whereas the polyproline motif was instrumental for this phenomenon. Nef has been shown to activate hematopoietic cell kinase (Hck), a Src tyrosine kinase specifically expressed in phagocytes, through a well-described polyproline–SH3 interaction. Knockdown approaches showed that Hck is involved in Nef-induced MGC formation. Hck is expressed as two isoforms located in distinct subcellular compartments. Although both isoforms were activated by Nef, only p61Hck mediated the effect of Nef on macrophage fusion. This process was abolished in the presence of a p61Hck kinase-dead mutant or when p61Hck was redirected from the lysosome membrane to the cytosol. Finally, lysosomal proteins including vacuolar adenosine triphosphatase and proteases participated in Nef-induced giant macrophage formation. We conclude that Nef participates in HIV-1–induced MGC formation via a p61Hck- and lysosomal enzyme-dependent pathway. This work identifies for the first time actors of HIV-1–induced macrophage fusion, leading to the formation of MGCs commonly found in several organs of AIDS patients.

show abstract

mentioning

confidence: 99%

HIV-1 Nef Triggers Macrophage Fusion in a p61Hck- and Protease-Dependent Manner

Vérollet

Zhang

Cabec

et al. 2010

The Journal of Immunology

View full text Add to dashboard Cite

show abstract

“…More specifically, it has been proposed that Nef could reorganize actin to ensure initial viral core movement. Association of Nef with viral cores (Kotov et al, 1999) and cellular proteins involved in actin cytoskeleton dynamics such as Vav and PAK (a member of the p21-activated kinase family) could account to the early movement of the viral cores through cortical actin and into microtubules (Roeth and Collins, 2006). Therefore, it has been proposed that this function of Nef could account to the increase in virus infectivity .…”

Section: Tetherin and Nefmentioning

confidence: 99%

“…The effect of Nef is dependent on its myristoylation and SH3 domains. While Nef myristoylation is required for its membrane association, the proline-rich SH3-binding domain is involved in Nef association with Vav, DOCK2-ELMO1, Rac and the cellular kinase Pak2 (Roeth and Collins, 2006). First, Vav is activated by the interaction between its C-terminal SH3 domain and PxxP motif in Nef leading to Vav's downstream effectors activation, resulting in morphological changes, cytoskeleton rearrangements and the activation of the c-Jun Nterminal kinase (JNK)/stress-activated protein kinase (SAPK) cascade (Fackler et al, 1999).…”

Section: Interference With Cell Cytoskeletonmentioning

confidence: 99%

Functions of the Lentiviral Accessory Protein Nef During the Distinct Steps of HIV and SIV Replication Cycle

Costa¹,

Mendonça²,

Sampaio³

2011

HIV and AIDS - Updates on Biology, Immunology, Epidemiology and Treatment Strategies

View full text Add to dashboard Cite

“…Vpu is important for viral release and is thought to form an ion channel through the membrane [20] (1vpu and 1pi7). Nef (negative factor) interacts with several cellular systems to increase the replication and pathogenicity of the virus and is bound to the membrane through an attached myristoyl lipid [21,22] (1qa4 and 1avv). The envelope also includes cellular proteins that are trapped during budding of the virus, including ICAM-1, HLA-II, and others [23].…”

Section: Hivmentioning

confidence: 99%

Illustrating the machinery of life: Viruses

Goodsell

2012

Biochem Molecular Bio Educ

View full text Add to dashboard Cite

Data from electron microscopy, X-ray crystallography, and biophysical analysis are used to create illustrations of viruses in their cellular context. This report describes the scientific data and artistic methods used to create three illustrations: a depiction of the poliovirus lifecycle, budding of influenza virus from a cell surface, and a mature HIV particle in blood serum.Keywords: Viruses, HIV biochemistry, molecular biology, molecular graphics and representations, molecular visualization, outreach. I chose a simple virus-poliovirus-to present the concept of a viral lifecycle and depicted two more complex viruses-influenza and HIV-at a single point in their lifecycle. I gathered data on the structure, composition, and interactions of the virus and host from published sources and used these to synthesize an image that shows size, shape, location, and concentration of all macromolecular components. The sources of these data are included in this report, along with some thoughts about the design and pedagogical decisions included in the illustrations. Throughout the text, atomic structures from the Protein Data Bank (http://www.pdb.org) are included as fourcharacter accession codes. I have not included the references for publication of these structures-they are readily available in the entries at the PDB www site. POLIOVIRUS LIFECYCLEThe poliovirus illustration (Fig. 1) was designed to show the viral lifecycle. Even with this simple virus, there were far too many steps to show everything; so, I chose a few key points to illustrate. Unless otherwise mentioned, most of this material is based on the chapter on picornaviruses in Fields Virology [2].Starting on the left side, a virion has bound to receptors on the surface of the cell. A structure is available for the extracellular portion of the CD155 receptor and the poliovirus capsid [3] (1nn8). One of the capsid proteins then undergoes a conformational change, which is thought to expose a hydrophobic portion of the chain on the outer surface of the capsid, forming a pore through the membrane and allowing the viral RNA to enter the cell.Once inside, the RNA is translated by cellular ribosomes into the viral polyprotein. The 5 0 end of the RNA has a complex secondary structure that is essential for initiation of translation. The illustration captures the entering RNA during elongation, but the 5 0 end structure is shown in the lower portion of the illustration, in the three RNA strands that are being transcribed. The polyprotein is then immediately cut into functional pieces by viral proteases, which may cleave within its own polyprotein or act on neighboring polyproteins. The structure of the polyprotein is based on structures of proteases 3C (1hav), 2A (2hrv), and L (1qol), the RNA-dependent RNA polymerase (1rdr), and molecular weights of the remaining components. I have used a model where each functional protein is connected by flexible linkers within the polyprotein.Once an initial round of viral proteins has translated, they begin the production of viral RNA. ...

show abstract

Human Immunodeficiency Virus Type 1 Nef: Adapting to Intracellular Trafficking Pathways

Cited by 168 publications

References 173 publications

HIV-1 Nef Triggers Macrophage Fusion in a p61Hck- and Protease-Dependent Manner

HIV-1 Nef Triggers Macrophage Fusion in a p61Hck- and Protease-Dependent Manner

Functions of the Lentiviral Accessory Protein Nef During the Distinct Steps of HIV and SIV Replication Cycle

Illustrating the machinery of life: Viruses

Contact Info

Product

Resources

About