Washington, February 22 : An international group of scientists has discovered a new class of molecular compounds capable of killing the influenza virus.
Their new compounds will lead to a new generation of anti-influenza drugs that the virus’ strains can’t adapt to, and resist, as easily as they do Tamiful – the anti-influenza drug that is becoming less effective against the constantly mutating flu virus.
Working on the premise that too much of a good thing can be a killer, the team that include Simon Fraser University virologist Masahiro Niikura and his doctoral student Nicole Bance have advanced previous researchers’ methods of manipulating an enzyme that is key to how influenza replicates and spreads.
They have described how to use their newly discovered compounds to interrupt the enzyme neuraminidase’s facilitation of influenza’s spread.
Tamiful and another anti-influenza drug, Relenza, focus on interrupting neuraminidase’s ability to help influenza detach from an infected cell’s surface by digesting sialic acid, a sugar on the surface of the cell. The flu virus uses the same sugar to stick to the cell while invading it. Once attached, influenza can invade the cell and replicate.
This is where the newly discovered compounds come to the still-healthy cells’ rescue. They clog up neuraminidase, stopping the enzyme from dissolving the sialic acid, which prevents the virus from escaping the infected cell and spreading.
The new compounds are also more effective because they’re water-soluble. “They reach the patient’s throat where the flu virus is replicating after being taken orally,” said Niikura, a Faculty of Health Sciences associate professor.
“Influenza develops resistance to Replenza less frequently, but it’s not the drug of choice like Tamiful because it’s not water-soluble and has to be taken as a nasal spray.
“Our new compounds are structurally more similar to sialic acid than Tamiful. We expect this closer match will make it much more difficult for influenza to adapt to new drugs,” Niikura explained.
Ultimately, the new compounds will buy scientists more time to develop new vaccines for emerging strains of influenza that are resistant to existing vaccines.
Their study has been published in the journal Science Express. (ANI)