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TitleStructural Studies Reveal that Endosomal Cations Promote Formation of Infectious Coxsackievirus A9 A-Particles, Facilitating RNA and VP4 Release.
Journal, issue, pagesJ Virol, Vol. 96, Issue 24, Page e0136722, Year 2022
Publish dateDec 21, 2022
AuthorsAušra Domanska / Zlatka Plavec / Visa Ruokolainen / Benita Löflund / Varpu Marjomäki / Sarah J Butcher /
PubMed AbstractCoxsackievirus A9 (CVA9), an enterovirus, is a common cause of pediatric aseptic meningitis and neonatal sepsis. During cell entry, enterovirus capsids undergo conformational changes leading to ...Coxsackievirus A9 (CVA9), an enterovirus, is a common cause of pediatric aseptic meningitis and neonatal sepsis. During cell entry, enterovirus capsids undergo conformational changes leading to expansion, formation of large pores, externalization of VP1 N termini, and loss of the lipid factor from VP1. Factors such as receptor binding, heat, and acidic pH can trigger capsid expansion in some enteroviruses. Here, we show that fatty acid-free bovine serum albumin or neutral endosomal ionic conditions can independently prime CVA9 for expansion and genome release. Our results showed that CVA9 treatment with albumin or endosomal ions generated a heterogeneous population of virions, which could be physically separated by asymmetric flow field flow fractionation and computationally by cryo-electron microscopy (cryo-EM) and image processing. We report cryo-EM structures of CVA9 A-particles obtained by albumin or endosomal ion treatment and a control nonexpanded virion to 3.5, 3.3, and 2.9 Å resolution, respectively. Whereas albumin promoted stable expanded virions, the endosomal ionic concentrations induced unstable CVA9 virions which easily disintegrated, losing their genome. Loss of most of the VP4 molecules and exposure of negatively charged amino acid residues in the capsid's interior after expansion created a repulsive viral RNA-capsid interface, aiding genome release. Coxsackievirus A9 (CVA9) is a common cause of meningitis and neonatal sepsis. The triggers and mode of action of RNA release into the cell unusually do not require receptor interaction. Rather, a slow process in the endosome, independent of low pH, is required. Here, we show by biophysical separation, cryogenic electron microscopy, and image reconstruction that albumin and buffers mimicking the endosomal ion composition can separately and together expand and prime CVA9 for uncoating. Furthermore, we show in these expanded particles that VP4 is present at only ~10% of the occupancy found in the virion, VP1 is externalized, and the genome is repelled by the negatively charged, repulsive inner surface of the capsid that occurs due to the expansion. Thus, we can now link observations from cell biology of infection with the physical processes that occur in the capsid to promote genome uncoating.
External linksJ Virol / PubMed:36448797 / PubMed Central
MethodsEM (single particle)
Resolution2.9 - 3.5 Å
Structure data

EMDB-15634, PDB-8at5:
native Coxsackievirus A9
Method: EM (single particle) / Resolution: 2.9 Å

EMDB-15692, PDB-8aw6:
Expanded Coxsackievirus A9 after 0.01% faf-BSA treatment
Method: EM (single particle) / Resolution: 3.5 Å

EMDB-15706, PDB-8axx:
Expanded Coxsackievirus A9 after treatment with endosomal ionic buffer
Method: EM (single particle) / Resolution: 3.3 Å

Chemicals

ChemComp-MYR:
MYRISTIC ACID

ChemComp-PLM:
PALMITIC ACID

Source
  • human coxsackievirus a9 (strain griggs)
KeywordsVIRUS / icosahedral symmetry / intact virion / picornavirus / expanded virion / A-particle

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