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UNIGE researchers establish how the influenza A virus manages to penetrate host cells



Influenza epidemics, brought on by influenza A or B viruses, end in acute respiratory an infection. They kill half 1,000,000 individuals worldwide yearly. These viruses can even wreak havoc on animals, as within the case of avian flu. A crew from the College of Geneva (UNIGE) has recognized how the influenza A virus manages to penetrate cells to contaminate them. By attaching itself to a receptor on the cell floor, it hijacks the iron transport mechanism to start out its an infection cycle. By blocking the receptor concerned, the researchers had been additionally in a position to considerably scale back its potential to invade cells. These outcomes, revealed within the journal PNAS, spotlight a vulnerability that could possibly be exploited to fight the virus.

Influenza viruses signify a serious threat to human and animal well being. Their potential for mutation makes them significantly elusive.

‘We already knew that the influenza A virus binds to sugar buildings on the cell floor, then rolls alongside the cell floor till it finds an appropriate entry level into the host cell. Nonetheless, we didn’t know which proteins on the host cell floor marked this entry level, and the way they favored the entry of the virus.”


Mirco Schmolke, Affiliate Professor, Division of Microbiology and Molecular Medication and within the Geneva Centre for Irritation Analysis (GCIR) on the UNIGE School of Medication

A receptor as a key to an infection

The scientists first recognized cell floor proteins current within the neighborhood of the viral haemagglutinin, the protein utilized by the influenza A virus to enter the cell. One in every of these proteins stood out: transferrin receptor 1. This acts as a revolving door transporting iron molecules into the cell, that are important for a lot of physiological features.

”The influenza virus takes benefit of the continual recycling of the transferrin receptor 1 to enter the cell and infect it,” explains Béryl Mazel-Sanchez, a former post-doctoral researcher in Mirco Schmolke’s laboratory and first creator of this work. ”To substantiate our discovery, we genetically engineered human lung cells to take away the transferrin receptor 1, or quite the opposite to overexpress it. By deleting it in cells usually inclined to an infection, we prevented influenza A from coming into. Conversely, by overexpressing it in cells usually proof against an infection, we made them simpler to contaminate”.

Inhibiting this mechanism

The analysis crew then succeeded in reproducing this mechanism by inhibiting the transferrin receptor 1 utilizing a chemical molecule. ”We examined it efficiently on human lung cells, on human lung tissue samples and on mice with a number of viral strains,” says Béryl Mazel-Sanchez. ”Within the presence of this inhibitor, the virus replicated a lot much less. Nonetheless, in view of its probably oncogenic traits, this product can’t be used to deal with people.” Alternatively, anti-cancer therapies based mostly on the inhibition of the transferrin receptor are beneath improvement and may be attention-grabbing on this context.

”Our discovery was made potential due to the superb collaboration throughout the School of Medication in addition to with the College Hospitals of Geneva (HUG) and the Swiss Institute of Bioinformatics (SIB),” the authors add. Along with the transferrin receptor 1, scientists have recognized some 30 different proteins whose position within the influenza A entry course of stays to be deciphered. It’s certainly probably that the virus makes use of a mixture involving different receptors. ”Though we’re nonetheless removed from a medical utility, blocking the transferrin receptor 1 might change into a promising technique for treating influenza virus infections in people and probably in animals.”

Supply:

Journal reference:

Mazel-Sanchez, B., et al. (2023) Influenza A virus exploits transferrin receptor recycling to enter host cells. PNAS. doi.org/10.1073/pnas.2214936120.

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