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Profiling host ANP32A splicing landscapes to predict influenza A virus polymerase adaptation.

ABSTRACT: Species' differences in cellular factors limit avian influenza A virus (IAV) zoonoses and human pandemics. The IAV polymerase, vPol, harbors evolutionary sites to overcome restriction and determines virulence. Here, we establish host ANP32A as a critical driver of selection, and identify host-specific ANP32A splicing landscapes that predict viral evolution. We find that avian species differentially express three ANP32A isoforms diverging in a vPol-promoting insert. ANP32As with shorter inserts interact poorly with vPol, are compromised in supporting avian-like IAV replication, and drive selection of mammalian-adaptive vPol sequences with distinct kinetics. By integrating selection data with multi-species ANP32A splice variant profiling, we develop a mathematical model to predict avian species potentially driving (swallow, magpie) or maintaining (goose, swan) mammalian-adaptive vPol signatures. Supporting these predictions, surveillance data confirm enrichment of several mammalian-adaptive vPol substitutions in magpie IAVs. Profiling host ANP32A splicing could enhance surveillance and eradication efforts against IAVs with pandemic potential.

SUBMITTER: Domingues P 

PROVIDER: S-EPMC6667478 | biostudies-other | 2019 Jul

REPOSITORIES: biostudies-other

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Profiling host ANP32A splicing landscapes to predict influenza A virus polymerase adaptation.

Domingues Patricia P   Eletto Davide D   Magnus Carsten C   Turkington Hannah L HL   Schmutz Stefan S   Zagordi Osvaldo O   Lenk Matthias M   Beer Martin M   Stertz Silke S   Hale Benjamin G BG  

Nature communications 20190730 1

Species' differences in cellular factors limit avian influenza A virus (IAV) zoonoses and human pandemics. The IAV polymerase, vPol, harbors evolutionary sites to overcome restriction and determines virulence. Here, we establish host ANP32A as a critical driver of selection, and identify host-specific ANP32A splicing landscapes that predict viral evolution. We find that avian species differentially express three ANP32A isoforms diverging in a vPol-promoting insert. ANP32As with shorter inserts i  ...[more]

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