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Structures of influenza A and B replication complexes give insight into avian to human host adaptation and reveal a role of ANP32 as an electrostatic chaperone for the apo-polymerase

Benoît Arragain, Tim Krischuns, Martin Pelosse, Petra Drncová, Martin Blackledge, Nadia Naffakh, S. Cusack

2024Nature Communications25 citationsDOIOpen Access PDF

Abstract

Replication of influenza viral RNA depends on at least two viral polymerases, a parental replicase and an encapsidase, and cellular factor ANP32. ANP32 comprises an LRR domain and a long C-terminal low complexity acidic region (LCAR). Here we present evidence suggesting that ANP32 is recruited to the replication complex as an electrostatic chaperone that stabilises the encapsidase moiety within apo-polymerase symmetric dimers that are distinct for influenza A and B polymerases. The ANP32 bound encapsidase, then forms the asymmetric replication complex with the replicase, which is embedded in a parental ribonucleoprotein particle (RNP). Cryo-EM structures reveal the architecture of the influenza A and B replication complexes and the likely trajectory of the nascent RNA product into the encapsidase. The cryo-EM map of the FluB replication complex shows extra density attributable to the ANP32 LCAR wrapping around and stabilising the apo-encapsidase conformation. These structures give new insight into the various mutations that adapt avian strain polymerases to use the distinct ANP32 in mammalian cells.

Topics & Concepts

PolymeraseInfluenza A virus subtype H5N1Chaperone (clinical)Replication (statistics)Host (biology)BiologyAdaptation (eye)Host adaptationVirologyCell biologyComputational biologyGeneticsGeneVirusMedicineVirulenceNeurosciencePathologyinterferon and immune responsesInfluenza Virus Research StudiesHeat shock proteins research
Structures of influenza A and B replication complexes give insight into avian to human host adaptation and reveal a role of ANP32 as an electrostatic chaperone for the apo-polymerase | Litcius