I anticipated this one too. VIRUSES GONE WILD!!!
Candidate H7N9 avian flu vaccine works better with adjuvant
H7N9: The Next Influenza Pandemic? Comes With A Chicken Dinner And A Healthy Portion Of FEAR. ;)
Since May of this year, 440 Chinese people have been infected with a new strain of influenza subtype H7N9, and 122 of them have died. Though the case-fatality rate suggested by this data is greatly inflated by asymptomatic and mild (and hence, unreported) cases, a new analysis in Trends in Microbiology suggests that the virus has the potential to become the next influenza pandemic.
Where did this new H7N9 strain come from? Genetic analyses suggest that four different avian influenza viruses swapped genes in a process known as "reassortment." (See figure.)
The influenza genome consists of eleven genes on eight RNA segments, meaning that each RNA segment encodes only one or two genes. (Pause just a moment to think about that: A microscopic particle consisting of a mere eleven genes is able to kill 250,000 to 500,000 human beings every single year. Incidentally, Ebola virus only has seven genes.)
Due to its genomic structure and the fact that a single animal can be infected by more than one strain at a time, influenza is prone to reassorting its genome. In other words, RNA segment #1 from influenza virus X can be replaced by the same RNA segment from influenza virus Y. In the case of H7N9, it is believed that the "H7" gene came from avian influenza subtype H7N3, recently found in Chinese ducks, and that the "N9" gene came from either avian influenza subtype H2N9 or H11N9, both of which have been found in migratory birds. The six remaining RNA segments appear to have come from two different strains of H9N2.
Such genetic shuffling is quite common and is often responsible for influenza pandemics. The reason is that new genetic combinations fool our immune systems; antibodies we might have against say, H1N1, are completely useless against H7N9 and other subtypes.
Currently, the H7N9 strain is infecting mostly elderly men with underlying health issues who likely came into direct contact with live poultry. But, this could change. Once the virus is in humans, natural selection may favor the production of viruses that transmit more easily between humans. Such a transition probably would require very slight mutations in the "H7" gene (more properly called HA), as well as the gene PB2, which encodes an enzyme that helps replicate the viral genome.
Disturbingly, the authors believe that H7N9 possesses a greater pandemic potential than H5N1, which already has been spreading around the globe. Indeed, the authors conclude:
"...these viruses exhibit high replicative ability and limited transmissibility in mammals, have acquired mammalian-adapting amino acid changes, may reassort with circulating human viruses (based on the reported coinfection of a patient with H7N9 and human H3N2 viruses), and readily acquire resistance to the NA inhibitor oseltamivir."
As always, there is no reason to panic, but you can be certain that epidemiologists are keeping a close eye on H7N9.
Source: Tokiko Watanabe, Shinji Watanabe, Eileen A. Maher, Gabriele Neumann, Yoshihiro Kawaoka. "Pandemic potential of avian influenza A (H7N9) viruses." Trends Microbiol pii: S0966-842X(14)00179-6. Published online: 2014-Sep-25. doi: 10.1016/j.tim.2014.08.008.