H5N1 Genetic Structure - Surface Encoding Gene Segments

Surface Encoding Gene Segments

• Surface antigen encoding gene segments (RNA molecule): (HA, NA)

• HA codes for hemagglutinin which is an antigenic glycoprotein found on the surface of the influenza viruses and is responsible for binding the virus to the cell that is being infected. Hemagglutinin forms spikes at the surface of flu viruses that function to attach viruses to cells. This attachment is required for efficient transfer of flu virus genes into cells, a process that can be blocked by antibodies that bind to the hemagglutinin proteins. One genetic factor in distinguishing between human flu viruses and avian flu viruses is that "avian influenza HA bind alpha 2-3 sialic acid receptors while human influenza HA bind alpha 2-6 sialic acid receptors. Swine influenza viruses have the ability to bind both types of sialic acid receptors." A mutation found in Turkey in 2006 "involves a substitution in one sample of an amino acid at position 223 of the haemoagglutinin receptor protein. This protein allows the flu virus to bind to the receptors on the surface of its host's cells. This mutation has been observed twice before — in a father and son in Hong Kong in 2003, and in one fatal case in Vietnam last year. It increases the virus's ability to bind to human receptors, and decreases its affinity for poultry receptors, making strains with this mutation better adapted to infecting humans." Another mutation in the same sample at position 153 has as yet unknown effects. "Amino acid residues at positions 226 and 228 of the receptor binding pocket of HA appear to determine binding affinity to cell surface receptors and to influence the selective binding of the virus to avian (sialic acid -2,3-NeuAcGal) or human (sialic acid -2,6-NeuAcGal) cell surface receptors. The human A/HK/212/03 and A/HK/213/03 isolates retain the signature associated with avian receptor binding, but they have a unique amino acid substitution (Ser227Ile) within the receptor binding pocket that was not present even in the closely related A/Gs/HK/739.2/02 (genotype Z+) virus." Recent research reveals that humans have avian type receptors at very low densities and chickens have human type receptors at very low densities. Researchers "found that the mutations at two places in the gene, identified as 182 and 192, allow the virus to bind to both bird and human receptors." See research articles Host Range Restriction and Pathogenicity in the Context of Influenza Pandemic (Centers for Disease Control and Prevention, 2006) (by Gabriele Neumann and Yoshihiro Kawaoka) and Structure and Receptor Specificity of the Hemagglutinin from an H5N1 Influenza Virus (American Association for the Advancement of Science, 2006) (by James Stevens, Ola Blixt, Terrence M. Tumpey, Jeffery K. Taubenberger, James C. Paulson, Ian A. Wilson) for further details.

• NA codes for neuraminidase which is an antigenic glycoprotein enzyme found on the surface of the influenza viruses. It helps the release of progeny viruses from infected cells. Flu drugs Tamiflu and Relenza work by inhibiting some strains of neuraminidase. They were developed based on N2 and N9. "In the N1 form of the protein, a small segment called the 150-loop is inverted, creating a hollow pocket that does not exist in the N2 and N9 proteins. When the researchers looked at how existing drugs interacted with the N1 protein, they found that, in the presence of neuraminidase inhibitors, the loop changed its conformation to one similar to that in the N2 and N9 proteins."