Role of viral RNA in virion stability and disassembly

Abstract

Viruses are metastable macromolecular entities that are assembled into compact particles. Entry into a target host cell initiates quaternary conformational changes in response to distinct host‐specific environmental changes including temperature, pH, osmolality, divalent cation concentrations, which promote disassembly and release of the virion's genome into the host cell. This host stimulus‐triggered disassembly is critical for initiating the infectious phase of the particle. How viruses use their quaternary coat protein structures as thermodynamic sensors for detecting entry into a conducive host cell environment is largely unknown. The process of viral disassembly is largely impervious to static structural methods as these only capture end‐state conformations. Amide Hydrogen Deuterium Exchange Mass Spectrometry (HDXMS) can be used to monitor whole viral particle dynamics in solution. The disassembling virion represents the virus at its most vulnerable state and is consequently a transient dynamic intermediate. A map of the quaternary structural changes in this state offers critical insights into cryptic epitopes as novel vaccine targets. Our research has pioneered structural mass spectrometry characterization of temperature and divalent cation‐dependent conformational changes on Dengue virus and Turnip Crinkle Virus (TCV) and mapped the specific disassembly processes in these two model virus systems. We have extended these studies to deconstruct the whole viral particle‐antibody (DENV2‐2D22) complex. Our results reveal the high intrinsic dynamics of the RNA packing capsid C‐protein which underpins viral transition from compact to expanded states in the process of disassembly. We have also uncovered new disassembly intermediates triggered by varying monovalent and divalent cation concentrations. Viral disassembly processes in TCV and Dengue reveal conformations of disassembly intermediates which represent powerful new targets for therapeutic antibody design as well as offer fundamental insights into strategically timed viral disassembly processes which can be extended to all viruses.Support or Funding InformationSingapore Ministry of Education Tier 3 grantThis abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.