The fruit fly study adds to the evidence "that using toxins in the
environment to medicate offspring may be common across the animal
kingdom," says biologist Todd Schlenke.
When fruit flies sense parasitic wasps in their environment, they lay
their eggs in an alcohol-soaked environment, essentially forcing their
larvae to consume booze as a drug to combat the deadly wasps.
The discovery by biologists at Emory University is being published in the journal Science on February 22.
"The adult flies actually anticipate an infection risk to their
children, and then they medicate them by depositing them in alcohol,"
says Todd Schlenke, the evolutionary geneticist whose lab did the
research. "We found that this medicating behavior was shared by diverse
fly species, adding to the evidence that using toxins in the environment
to medicate offspring may be common across the animal kingdom."
Adult fruit flies detect the wasps by sight, and appear to have much
better vision than previously realized, he adds. "Our data indicate that
the flies can visually distinguish the relatively small morphological
differences between male and female wasps, and between different species
of wasps."
The experiments were led by Balint Zacsoh, who recently graduated
from Emory with a degree in biology and still works in the Schlenke lab.
The team also included Emory graduate student Zachary Lynch and postdoc
Nathan Mortimer.
The larvae of the common fruit fly, Drosophila melanogaster,
eat the rot, or fungi and bacteria, that grows on overripe, fermenting
fruit. They have evolved a certain amount of resistance to the toxic
effects of the alcohol levels in their natural habitat, which can range
up to 15 percent.
Tiny, endoparasitoid wasps are major killers of fruit flies. The
wasps inject their eggs inside the fruit fly larvae, along with venom
that aims to suppress their hosts' cellular immune response. If the
flies fail to kill the wasp egg, a wasp larva hatches inside the fruit
fly larva and begins to eat its host from the inside out.
Last year, the Schlenke lab published a study showing how fruit fly
larvae infected with wasps prefer to eat food high in alcohol. This
behavior greatly improves the survival rate of the fruit flies because
they have evolved high tolerance of the toxic effects of the alcohol,
but the wasps have not.
"The fruit fly larvae raise their blood alcohol levels, so that the
wasps living in their blood will suffer," Schlenke says. "When you think
of an immune system, you usually think of blood cells and immune
proteins, but behavior can also be a big part of an organism's immune
defense."
For the latest study, the researchers asked whether the fruit fly
parents could sense when their children were at risk for infection, and
whether they then sought out alcohol to prophylactically medicate them.
Adult female fruit flies were released in one mesh cage with
parasitic wasps and another mesh cage with no wasps. Both cages had two
petri dishes containing yeast, the nourishment for lab-raised fruit
flies and their larvae. The yeast in one of the petri dishes was mixed
with 6 percent alcohol, while the yeast in the other dish was alcohol
free. After 24 hours, the petri dishes were removed and the researchers
counted the eggs that the fruit flies had laid.
The results were dramatic. In the mesh cage with parasitic wasps, 90
percent of the eggs laid were in the dish containing alcohol. In the
cage with no wasps, only 40 percent of the eggs were in the alcohol
dish.
"The fruit flies clearly change their reproductive behavior when the
wasps are present," Schlenke says. "The alcohol is slightly toxic to the
fruit flies as well, but the wasps are a bigger danger than the
alcohol."
The fly strains used in the experiments have been bred in the lab for
decades. "The flies that we work with have not seen wasps in their
lives before, and neither have their ancestors going back hundreds of
generations," Schlenke says. "And yet, the flies still recognize these
wasps as a danger when they are put in a cage with them."
Further experiments showed that the flies are extremely discerning
about differences in the wasps. They preferred to lay their eggs in
alcohol when female wasps were present, but not if only male wasps were
in the cage.
Theorizing that the flies were reacting to pheromones, the
researchers conducted experiments using two groups of mutated fruit
flies. One group lacked the ability to smell, and another group lacked
sight. The flies unable to smell, however, still preferred to lay their
eggs in alcohol when female wasps were present. The blind flies did not
make the distinction, choosing the non-alcohol food for their offspring,
even in the presence of female wasps.
"This result was a surprise to me," Schlenke says. "I thought the
flies were probably using olfaction to sense the female wasps. The
small, compound eyes of flies are believed to be more geared to
detecting motion than high-resolution images."
The only obvious visual differences between the female and male
wasps, he adds, is that the males have longer antennae, slightly smaller
bodies, and lack an ovipositor.
Further experimentation showed that the fruit flies can distinguish
different species of wasps, and will only choose the alcohol food in
response to wasp species that infect larvae, not fly pupae. "Fly larvae
usually leave the food before they pupate," Schlenke explains, "so there
is likely little benefit to laying eggs at alcoholic sites when pupal
parasites are present."
The researchers also connected the exposure to female parasitic wasps to changes in a fruit fly neuropeptide.
Stress, and the resulting reduced level of neuropeptide F, or NPF,
has previously been associated with alcohol-seeking behavior in fruit
flies. Similarly, levels of a homologous neuropeptide in humans, NPY, is
associated with alcoholism.
"We found that when a fruit fly is exposed to female parasitic wasps,
this exposure reduces the level of NPF in the fly brain, causing the
fly to seek out alcoholic sites for oviposition," Schlenke says.
"Furthermore, the alcohol-seeking behavior appears to remain for the
duration of the fly's life, even when the parasitic wasps are no longer
present, an example of long-term memory."
Finally, Drosophila melanogaster is not unique in using this
offspring medication behavior. "We tested a number of fly species,"
Schlenke says, "and found that each fly species that uses rotting fruit
for food mounts this immune behavior against parasitic wasps. Medication
may be far more common in nature than we previously thought."
Journal References:
- B. Z. Kacsoh, Z. R. Lynch, N. T. Mortimer, T. A. Schlenke. Fruit Flies Medicate Offspring After Seeing Parasites. Science, 2013; 339 (6122): 947 DOI: 10.1126/science.1229625
- Neil F. Milan, Balint Z. Kacsoh, Todd A. Schlenke. Alcohol Consumption as Self-Medication against Blood-Borne Parasites in the Fruit Fly. Current Biology, 2012; 22 (6): 488 DOI: 10.1016/j.cub.2012.01.045
Courtesy: ScienceDaily
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