5 Must Know Facts For Your Next Test

1. Neuraminidase is a critical target for antiviral drugs like oseltamivir (Tamiflu), and mutations can reduce the effectiveness of these treatments.
2. Mutations in neuraminidase can lead to changes in the virus's antigenicity, potentially evading recognition by the immune system.
3. Surveillance for neuraminidase mutations is essential during influenza seasons to inform vaccine composition and update antiviral strategies.
4. Some neuraminidase mutations confer fitness advantages to the virus, allowing it to spread more efficiently among hosts or survive in challenging environments.
5. Combination therapies are often recommended to manage infections with neuraminidase mutant strains, reducing the risk of resistance development.

Review Questions

• How do neuraminidase mutations contribute to antiviral drug resistance in influenza viruses?
  • Neuraminidase mutations can lead to changes in the structure and function of the neuraminidase protein, which is targeted by antiviral drugs like oseltamivir. These mutations may alter the binding affinity of the drug, rendering it less effective or completely ineffective. As a result, viruses with these mutations can replicate and spread despite treatment, highlighting the need for continuous monitoring of viral strains for these genetic changes.
• Discuss the implications of neuraminidase mutations on vaccine development and efficacy against influenza.
  • Neuraminidase mutations can significantly impact vaccine development as they may alter the antigenic properties of the virus. If a vaccine is based on a viral strain that does not accurately represent circulating strains due to these mutations, its effectiveness can be diminished. Therefore, regular surveillance and understanding of these mutations are crucial to ensure that vaccines are updated and tailored to provide optimal protection against current strains.
• Evaluate the role of combination therapy in managing infections caused by neuraminidase mutant strains of influenza virus.
  • Combination therapy plays a vital role in managing infections caused by neuraminidase mutant strains as it targets multiple viral mechanisms simultaneously. By using different antiviral agents that act on various aspects of viral replication, combination therapy reduces the chances of resistance developing against any single drug. This strategy not only enhances treatment efficacy but also prolongs the effectiveness of existing antiviral medications by minimizing selective pressure on the virus to mutate further.

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