COLUMN: Handle genetically modified mosquitoes with care
Indiana Daily Student
March
6, 2019
Malaria affected 216 million people
in 2016, and most of the cases and deaths occurred in sub-Saharan Africa.
While
scientists have spent years searching for a vaccine, a lab in Terni, Italy, has
taken a different approach: genetic modification.
The
ultimate goal is to release these genetically modified mosquitoes into areas
affected by malaria in order to reduce mosquito populations overall. Certainly,
many people have fears about unintended consequences of such an action and are
calling for a shutdown to the research altogether.
However,
that would be exceedingly drastic. Instead, the researchers must proceed with
extreme caution, in an open and transparent way, to ensure they are acting
ethically and responsibly in this endeavor.
The male
mosquitoes each carry one copy of a gene that disrupts fertility, but they
remain unaffected. When they mate with unmodified females, all of their
offspring, both males and females, will now possess one copy of this modified
gene.
Typically,
only half of the mosquito offspring would receive a copy of the gene. However,
these scientists are taking advantage of a powerful new tool called a gene drive, which accelerates the
passing of traits to offspring.
When
females and males both have a copy of the modification and mate, all of their
offspring will inherit two copies. The key is this: Females with two copies
cannot bite or reproduce.
Recent London experiments, in which genetically
modified males were released into small cages of females, resulted in the
mosquito populations crashing after seven to eleven generations, or just six
months.
This new
lab seeks to mimic the mosquitoes’ natural African habitat more closely. It
contains shelter and contrasting colors that encourage mating. Additionally, a
computer works the lights to simulate sunset at the appropriate time, which is
when breeding occurs.
It’s
reasonable to be skeptical of such new, powerful technologies, but for the time
being, it appears researchers are proceeding carefully, saying it would be
years before they considered releasing genetically modified mosquitoes into the
wild.
Other
organizations have not been so cautious. The biotechnology company Oxitec, for
example, gave little warning to the scientific community before releasing their own version of
mosquitoes into the island of Grand Cayman.
The
company claims it got the consent of the island’s residents, but clearly they
acted too soon.
The
Italian researchers are part of the Target Malaria project
funded by the Bill and Melinda Gates Foundation, and appear much more
responsible than the Oxitec team. They want to do more to address unanswered
questions.
One point of opposition is that eradicating
mosquitoes, who act as both food and pollinators, would have a terrible
ecological impact. However, the particular species the Italian scientists are
researching, Anopheles gambiae, is not known to be a keystone species, so
removing it would not significantly affect the food chain or pollination. There
are hundreds of other types of mosquitoes that play a similar role.
Other
people wonder if the mutation could spread to other mosquito species through interbreeding,
but scientists say mating between species would be rare. This is also something
they are still studying.
Ultimately,
it’s an endeavor that holds great potential for good, and bad, results. Still
it appears that these researchers are moving slowly enough to gain a better
understanding of their work before they decide to release their mosquitoes into
the wild, if ever. And that’s how it should be done.
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