5 Must Know Facts For Your Next Test

1. Proteases can be classified into different categories based on their catalytic mechanisms, including serine, cysteine, aspartic, and metalloproteases.
2. In many viruses, such as HIV and Hepatitis C, proteases are essential for cleaving viral polyproteins into functional proteins needed for viral assembly and maturation.
3. Inhibiting viral proteases is a common strategy in antiviral drug development, as it disrupts the virus's ability to replicate effectively within the host.
4. Proteases can also play roles in host cell processes, affecting immune responses and cellular pathways, which can lead to pathogenic effects.
5. Some viruses encode their own proteases to evade host immune defenses by altering host protein function or degrading antiviral proteins.

Review Questions

• How do proteases contribute to the life cycle of a virus?
  • Proteases are crucial for a virus's life cycle as they cleave viral polyproteins into smaller functional proteins necessary for viral assembly and maturation. For example, in retroviruses like HIV, the viral protease processes the Gag-Pol polyprotein to produce structural proteins and enzymes essential for producing new virions. This step is vital because without proper cleavage by proteases, the virus would not be able to form infectious particles.
• Discuss the role of protease inhibitors in antiviral therapy and their mechanism of action against viruses.
  • Protease inhibitors are designed to specifically target and inhibit viral proteases, preventing them from cleaving polyproteins into functional components. By blocking this critical step in the viral replication process, these inhibitors effectively halt the production of new virions. In diseases like HIV/AIDS and Hepatitis C, these therapies have significantly improved patient outcomes by reducing viral load and slowing disease progression.
• Evaluate the implications of protease activity on virus-host interactions within different organ systems.
  • Protease activity significantly impacts virus-host interactions by influencing both viral replication and host immune responses across various organ systems. For instance, certain viral proteases can degrade host antiviral proteins, enhancing viral survival and propagation. Additionally, they may alter cellular signaling pathways that lead to inflammatory responses or tissue damage. Understanding these dynamics is critical for developing effective treatments and predicting the outcomes of viral infections in organs such as the liver or lungs.

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