Abstract
During HIV pathogenesis, infected macrophages behave as “viral reservoirs” that accumulate and retain virions within dedicated internal Virus-Containing Compartments (VCCs). The nature of VCCs remains ill characterized and controversial. Using wild-type HIV-1 and a replication-competent HIV-1 carrying GFP internal to the Gag precursor, we analyzed the biogenesis and evolution of VCCs in primary human macrophages. VCCs appear roughly 14 hours after viral protein synthesis is detected, initially contain few motile viral particles, and then mature to fill up with virions that become packed and immobile. The amount of intracellular Gag, the proportion of dense VCCs, and the density of viral particles in their lumen increased with time post-infection. In contrast, the secretion of virions, their infectivity and their transmission to T cells decreased overtime, suggesting that HIV-infected macrophages tend to pack and retain newly formed virions into dense compartments. A minor proportion of VCCs remains connected to the plasma membrane overtime. Surprisingly, live cell imaging combined with correlative light and electron microscopy revealed that such connections can be transient, highlighting their dynamic nature. Together, our results shed light on the late phases of the HIV-1 cycle and reveal some of its macrophage specific features.
Highlights
Macrophages are versatile cells present in most tissues and endowed with a variety of functions, including innate and adaptive immunity
Since HIV-1 Gag is a structural polyprotein critical for viral assembly, we investigated the kinetics of its expression and localization in HIV-infected macrophages
The present study brings new insights regarding the dynamics of Virus-Containing Compartments (VCCs), their content, their fate and their connection with the plasma membrane
Summary
Macrophages are versatile cells present in most tissues and endowed with a variety of functions, including innate and adaptive immunity. Several studies have established that newly formed viral particles bud and pinch off at the limiting membrane of the VCCs [5,6,7], accumulating virions in the lumen of the compartment. Their exact nature remains debated [8,9], VCCs do not seem to be part of the endocytic pathway as they are not acidified and remain inaccessible to exogenously added BSA-gold [10,11]. The nature of VCCs is still controversial and their function remains unknown
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