Abstract
Oligomerization of Pr55Gag is a critical step of the late stage of the HIV life cycle. It has been known that the binding of IP6, an abundant endogenous cyclitol molecule at the MA domain, has been linked to the oligomerization of Pr55Gag. However, the exact binding site of IP6 on MA remains unknown and the structural details of this interaction are missing. Here, we present three high-resolution crystal structures of the MA domain in complex with IP6 molecules to reveal its binding mode. Additionally, extensive Differential Scanning Fluorimetry analysis combined with cryo- and ambient-temperature X-ray crystallography and GNM-based transfer entropy calculations identify the key residues that participate in IP6 binding. Our data provide novel insights about the multilayered HIV-1 virion assembly process that involves the interplay of IP6 with PIP2, a phosphoinositide essential for the binding of Pr55Gag to membrane. IP6 and PIP2 have neighboring alternate binding sites within the same highly basic region (residues 18–33). This indicates that IP6 and PIP2 bindings are not mutually exclusive and may play a key role in coordinating virion particles’ membrane localization. Based on our three different IP6-MA complex crystal structures, we propose a new model that involves IP6 coordination of the oligomerization of outer MA and inner CA domain’s 2D layers during assembly and budding.
Highlights
Oligomerization of Pr55Gag is a critical step of the late stage of the HIV life cycle
At the beginning of the Human immunodeficiency virus type 1 (HIV-1) replication cycle, Pr55Gag is synthesized from a viral genomic RNA transcript inside the host cell. Pr55Gag consists of four domains: the matrix domain (MA), capsid domain (CA), nucleocapsid domain (NC) and p6 domain respectively
We employed X-ray crystallography to reveal the molecular mechanism of interaction between the MA domain and IP6 molecules
Summary
Oligomerization of Pr55Gag is a critical step of the late stage of the HIV life cycle. Our data provide novel insights about the multilayered HIV-1 virion assembly process that involves the interplay of IP6 with PIP2, a phosphoinositide essential for the binding of Pr55Gag to membrane. Virus release has (1) Gag membrane binding (2) Gag-assembly and (3) the budding process, encompassing multimerization of viral proteins and their assembly at the host’s cellular membrane. This process involves the recruitment of key host proteins to allow for viral budding and facilitates the recruitment of other essential components necessary for viral infection such as lipids and nucleic acids[3,4]. As any structural ablation of the higher-order state will lead to viral release inhibition, it makes the N-terminus amino acid sequence critical[14]
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