IISc study highlights how H5N1 influenza poses serious risk to humans
Indian Institute of Science (IISc) researchers in a new study have discovered that the currently circulating 2.3.4.4b clade of H5N1 has specific mutations in its genome that increase its human adaptive potential.
H5N1 is a strain of the influenza virus harbouring type 5 haemagglutinin (H5) and type 1 neuraminidase (N1) surface proteins, which help in viral entry and spread, respectively.
Common ancestor
IISc said that clade represents a group of organisms having a common ancestor.
'The 2.3.4.4b clade has infected many mammalian species and is adapting to [non-human] mammals, which is a concern for human adaptation. The clade is panzootic, causing unprecedented mortality in birds and mammals, along with several sporadic human infections,' Kesavardhana Sannula, assistant professor in the Department of Biochemistry, IISc.
Growing risk
According to Ranjana Nataraj, project associate at the Department of Biochemistry and the study's first author, this clade is acquiring the same key mutations that pandemic human influenza strains possess, which could be a growing risk.
IISc said that when the influenza virus enters a new organism, it can develop genetic mutations. This helps the virus adapt to the new host.
The researchers were trying to decode whether the 2.3.4.4b clade was evolving to produce crucial adaptations in its proteins that allow it to infect humans. They also wanted to decipher which host animals can potentially accelerate this adaptation, giving the virus a leg up in scaling the evolutionary ladder.
Mr. Sannula's team took a computational approach and analysed 7,000 protein sequences of 2.3.4.4b H5N1 found in birds, 820 sequences from non-human mammals, and 35,000 human H1N1 and H3N2 sequences, in order to identify which amino acids are under selection pressure – rapidly changing.
They used multiple sequence alignment (a tool to identify similar regions in multiple proteins), constructed phylogenetic trees (which represent how species have diverged from their common ancestor over time), and annotated specific variations in all the proteins of H5N1 infecting non-human mammals and humans.
Increased mutations
The team found an increased number of mutations specifically in the viral polymerase complex (PA, PB2), nucleoproteins, and haemagglutinin (HA) proteins.
IISc said that once it identified these mutations, the team classified them depending on whether the mutations can help the virus spread from non-human mammals to humans (adaptive) or simply survive in the non-human host (barrier).
'Finally, they developed a simple mathematical approach and estimated the human adaptive potential for the 2.3.4.4b clade,' IISc said.
The team was also able to pinpoint animals that would be likely to harbour virus strains with the highest human adaptive potential. Interestingly, viruses that can adapt to fox hosts seemed to have higher adaptive potential than cattle-adapted strains.
Based on their findings, the researchers suggest that enhanced and proactive surveillance measures need to be implemented.
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