Residue 41 of the Eurasian avian-like swine influenza a virus matrix protein modulates virion filament length and efficiency of contact transmission.

Position 41 of the influenza A virus matrix protein encodes a highly conserved alanine in human and avian lineages. Nonetheless, strains of the Eurasian avian-like swine (Easw) lineage contain a change at this position: position 41 of A/swine/Spain/ 53207/04 (H1N1) (SPN04) encodes a proline. To assess the impact of this naturally occurring polymorphism on viral fitness, we utilized reverse genetics to produce recombinant viruses encoding wild-type M1 41P (rSPN04-P) and consensus 41A (rSPN04-A) residues. Relative to rSPN04-A, rSPN04-P virus displayed reduced growth in vitro. In the guinea pig model, rSPN04-P was transmitted to fewer contact animals than rSPN04-A and failed to infect guinea pigs that received a low-dose inoculum. Moreover, the P41A change altered virion morphology, reducing the number and length of filamentous virions, as well as reducing the neuraminidase activity of virions. The lab-adapted human isolate, A/PR/8/34 (H1N1) (PR8), is nontransmissible in the guinea pig model, making it a useful background in which to identify certain viral factors that enhance transmissibility. We assessed transmission in the context of single-, double-, and triple-reassortant viruses between PR8 and SPN04; PR8/SPN04 M, PR8/SPN04 M +NA, and PR8/SPN04M +NA +HA, encoding either matrix 41 A or P, were generated. In each case, the virus possessing 41P transmitted less well than the corresponding 41A-encoding virus. In summary, we have identified a naturally occurring mutation in the influenza A virus matrix protein that impacts transmission efficiency and can alter virion morphology and neuraminidase activity.