Abstract
Vif (viral infectivity factor) is a protein that is essential for the replication of the HIV-1 virus. The key function of Vif is to disrupt the antiviral activity of host APOBEC3 (apolipoprotein B mRNA-editing enzyme catalytic subunit 3) proteins, which mutate viral nucleic acids. Inside the cell, Vif binds to the host cell proteins Elongin-C, Elongin-B, and core-binding factor subunit β, forming a four-protein complex called VCBC. The structure of VCBC-Cullin5 has recently been solved by X-ray crystallography, and, using molecular dynamics simulations, the dynamics of VCBC have been characterized. Here, we applied time-lapse high-speed atomic force microscopy to visualize the conformational changes of the VCBC complex. We determined the three most favorable conformations of this complex, which we identified as the triangle, dumbbell, and globular structures. Moreover, we characterized the dynamics of each of these structures. Our data revealed the very dynamic behavior of all of them, with the triangle and dumbbell structures being the most dynamic. These findings provide insight into the structure and dynamics of the VCBC complex and may support efforts to improve HIV treatment, because Vif is essential for virus survival in the cell.
Highlights
HIV is an enveloped retrovirus that causes AIDS in humans [1]
Based on the data obtained for VCBC in complex with DNA, we identified free VCBC in the same experiments, just dissociated from the VCBC–DNA complex, and followed its dynamics
Frame-by-frame analysis of dozens of movies of free VCBC and VCBC in VCBC–DNA complexes allowed us to identify some characteristics of these structures
Summary
HIV is an enveloped retrovirus that causes AIDS in humans [1]. The virus particle contains two identical RNA copies and structural and replication enzymes for virus reproduction [2]. Our data show that VCBC in complex with DNA is very dynamic and samples different conformational states with the most favorable ones, including globular, dumbbell, and triangle structures. We revealed that free VCBC samples conformational states and undergo transitions between globular, dumbbell, and triangle structures.
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