| STUDENT ACTIVITY
Insects have fast and effective defenses against infections, and the mechanism
of this defense is much different from the human immune system. One key to the
success of an insects defenses are small antimicrobial peptides that essentially
latch onto the outer or inner membrane of a bacterium and degrade it.
Answer the following questions:
- Scientists are looking into the possibilities of these antimicrobial peptides
as potential antibiotics in humans. What are some of the criteria such a molecule
would have to fit to be acceptable for human therapies?
Answer:
a) Must not harm host
b) Must be stable in host
c) Might even be a molecule that could be
synthesized in the lab
d) Must be able to bind and degrade bacteria
known to cause human infection
- These molecules operate by binding bacterial receptors. How could knowledge
of these receptors aid in the development of synthetic antibacterial compounds?
Answer: If we identify the receptor and its characteristics,
we may be able to design antibacterial compounds specifically to fit that receptor.
We might also be able to use the knowledge to design antibiotics that fit similar
receptors in different bacterial strains.
- The receptor that has been identified is a heat-shock protein that helps repair
proteins misshapen by fevers that occur in response to infection. The antimicrobial
peptide identified in insects disrupts this heat-shock protein, thereby disrupting
its ability to restore functionality to bacterial proteins affected by fever.
This peptide does not bind to the human version of this heat-shock protein. Why
is this characteristic so important?
Answer: If the antimicrobial molecule bound the human version of the heat-shock
protein, it would disable human cells and cause harm to the host.
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