HIV-1 assembly in macrophages

Philippe Benaroch,Mabel Jouve,Elisabeth Billard,Raphaël Gaudin,Michael Schindler

doi:10.1186/1742-4690-7-29

Philippe Benaroch, Mabel Jouve + Show 3 more

Open Access

https://doi.org/10.1186/1742-4690-7-29

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Abstract

The molecular mechanisms involved in the assembly of newly synthesized Human Immunodeficiency Virus (HIV) particles are poorly understood. Most of the work on HIV-1 assembly has been performed in T cells in which viral particle budding and assembly take place at the plasma membrane. In contrast, few studies have been performed on macrophages, the other major target of HIV-1. Infected macrophages represent a viral reservoir and probably play a key role in HIV-1 physiopathology. Indeed macrophages retain infectious particles for long periods of time, keeping them protected from anti-viral immune response or drug treatments. Here, we present an overview of what is known about HIV-1 assembly in macrophages as compared to T lymphocytes or cell lines.Early electron microscopy studies suggested that viral assembly takes place at the limiting membrane of an intracellular compartment in macrophages and not at the plasma membrane as in T cells. This was first considered as a late endosomal compartment in which viral budding seems to be similar to the process of vesicle release into multi-vesicular bodies. This view was notably supported by a large body of evidence involving the ESCRT (Endosomal Sorting Complex Required for Transport) machinery in HIV-1 budding, the observation of viral budding profiles in such compartments by immuno-electron microscopy, and the presence of late endosomal markers associated with macrophage-derived virions. However, this model needs to be revisited as recent data indicate that the viral compartment has a neutral pH and can be connected to the plasma membrane via very thin micro-channels. To date, the exact nature and biogenesis of the HIV assembly compartment in macrophages remains elusive. Many cellular proteins potentially involved in the late phases of HIV-1 cycle have been identified; and, recently, the list has grown rapidly with the publication of four independent genome-wide screens. However, their respective roles in infected cells and especially in macrophages remain to be characterized. In summary, the complete process of HIV-1 assembly is still poorly understood and will undoubtedly benefit from the ongoing explosion of new imaging techniques allowing better time-lapse and quantitative studies.

Highlights

The molecular mechanisms involved in the assembly of newly synthesized Human Immunodeficiency Virus (HIV) particles are poorly understood
Current view(s) of HIV-1 assembly Coordinating viral assembly we focus on the late events of viral replication in macrophages
They were based on the usage of the ruthenium red (RR), which is a membrane-impermeant dye added during the fixation of infected macrophages and before their analysis by electron microscopy

Summary

II Alix

Remains unknown as well as the exact role of Vpu in different cell types, especially in macrophages [32]. Only one team observed by Immuno-EM some ESCRT-related specific staining at the limiting membrane of these compartments [62] These ESCRT-components were present elsewhere in the cell and did not appear to be relocated to the site of viral assembly upon HIV infection [62]. Despite the numerous evidence showing that HIV-1 assembly occurs in macrophages in MVB-related compartments, recent studies have challenged this view They were based on the usage of the ruthenium red (RR), which is a membrane-impermeant dye added during the fixation of infected macrophages and before their analysis by electron microscopy. Future work will elucidate the connection between lipid homeostasis, Nef and the assembly process in macrophages

Conclusions

Findings

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