Abstract
HIV-1 fusion leading to productive entry has long been thought to occur at the plasma membrane. However, our previous single virus imaging data imply that, after Env engagement of CD4 and coreceptors at the cell surface, the virus enters into and fuses with intracellular compartments. We were unable to reliably detect viral fusion at the plasma membrane. Here, we implement a novel virus labeling strategy that biases towards detection of virus fusion that occurs in a pH-neutral environment—at the plasma membrane or, possibly, in early pH-neutral vesicles. Virus particles are co-labeled with an intra-viral content marker, which is released upon fusion, and an extra-viral pH sensor consisting of ecliptic pHluorin fused to the transmembrane domain of ICAM-1. This sensor fully quenches upon virus trafficking to a mildly acidic compartment, thus precluding subsequent detection of viral content release. As an interesting secondary observation, the incorporation of the pH-sensor revealed that HIV-1 particles occasionally shuttle between neutral and acidic compartments in target cells expressing CD4, suggesting a small fraction of viral particles is recycled to the plasma membrane and re-internalized. By imaging viruses bound to living cells, we found that HIV-1 content release in neutral-pH environment was a rare event (~0.4% particles). Surprisingly, viral content release was not significantly reduced by fusion inhibitors, implying that content release was due to spontaneous formation of viral membrane defects occurring at the cell surface. We did not measure a significant occurrence of HIV-1 fusion at neutral pH above this defect-mediated background loss of content, suggesting that the pH sensor may destabilize the membrane of the HIV-1 pseudovirus and, thus, preclude reliable detection of single virus fusion events at neutral pH.
Highlights
HIV-1 fusion with a host cell is initiated after the viral Env glycoprotein forms ternary complexes with the receptor (CD4) and coreceptors (CCR5 or CXCR4) on the cell surface
We found that a small fraction of pseudoviruses bound to the plasma membrane lost their content marker, but, unexpectedly, the content release could not be blocked by HIV-1 fusion inhibitors
Single HIV-1 fusion visualized by viral content release
Summary
HIV-1 fusion with a host cell is initiated after the viral Env glycoprotein forms ternary complexes with the receptor (CD4) and coreceptors (CCR5 or CXCR4) on the cell surface. HIV-1 has long been thought to fuse directly with the plasma membrane. Evidence supporting this entry pathway include: (i) the formation of ternary complexes with CD4 and coreceptors on the cell surface [3, 5, 7, 8]; (ii) pH-independence of Env-mediated membrane fusion [9, 10]; and (iii) the ability of cell-expressed Env or viruses adhered to adjacent cells to promote cell-cell fusion [11,12,13,14]. Single HIV-1 imaging in live cells revealed viral content release into the cytoplasm from within endosomes, but not from the cell surface [4, 20]
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