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by Signe Dean
April
27, 2018
from
ScienceAlert Website
The most important set of genetic instructions we all get comes from
our DNA, passed down through generations. But the environment we
live in can make genetic changes, too.
Last year, researchers discovered (Transgenerational
transmission of environmental information in C. elegans)
that these kinds of environmental genetic changes can be passed down
for a whopping 14 generations in an animal - the largest span ever
observed in a creature, in this case being a dynasty of
C. elegans nematodes (roundworms).
To study how long the environment can leave a mark on genetic
expression, a team led by scientists from the European Molecular
Biology Organization (EMBO) in Spain took genetically engineered
nematode worms that carry a
transgene for a fluorescent
protein.
When activated, this gene
made the worms glow under ultraviolet light.
Then, they switched things up for the nematodes by changing the
temperature of their containers. When the team kept nematodes at
20°Celsius (68°F), they measured low activity of the transgene -
which meant the worms hardly glowed at all.
But by moving the worms to a warmer climate of 25°C (77°F), they
suddenly lit up like little wormy Christmas trees, which meant the
fluorescence gene had become much more active.
Their tropical vacation didn't last long, however. The worms were
moved back to cooler temperatures to see what would happen to the
activity of the fluorescence gene.
Surprisingly, they continued to glow brightly, suggesting they were
retaining an 'environmental memory' of the warmer climate - and that
the transgene was still highly active.
Furthermore, that memory was passed onto their offspring for seven
brightly-glowing generations, none of whom had experienced the
warmer temperatures.
The baby worms
inherited this
epigenetic change through both
eggs and sperm.
The team pushed the results even further - when they kept five
generations of nematodes at 25°C (77°F) and then banished their
offspring to colder temperatures, the worms continued to have higher
transgene activity for an unprecedented 14 generations.
That's the longest scientists have ever observed the passing-down of
an environmentally induced genetic change.
Usually, environmental
changes to genetic expression only last a few generations.
"We don't know
exactly why this happens, but it might be a form of biological
forward-planning,"
said one of the team, Adam
Klosin from EMBO and Pompeu Fabra University, Spain.
"Worms are very short-lived, so perhaps they are transmitting
memories of past conditions to help their descendants predict
what their environment might be like in the future," added
co-researcher Tanya Vavouri from the Josep Carreras Leukaemia
Research Institute in Spain.
There's a reason why
scientists turn to C. elegans as a model organism - after all, those
14 generations would only take
roughly 50 days to develop, but can
still give us important clues on how environmental genetic change is
passed down in other animals, including humans.
There are many examples of this phenomenon in worms and mice, but
the study of environmental
epigenetic inheritance in humans is
a hotly debated topic, and there's still a lot we don't know.
"Inherited effects in
humans are difficult to measure due to the long generation times
and difficulty with accurate record keeping," stated one recent
review of epigenetic inheritance.
But some research
suggests that events in our lives can indeed affect the development
of our children and perhaps even grandchildren - all without
changing the DNA.
For example,
studies have shown that both the
children and grandchildren of women who survived the
Dutch famine of 1944-45 were found
to have increased glucose intolerance in adulthood.
Other researchers have found that the descendants of
Holocaust survivors have lower
levels of the hormone cortisol, which helps your body bounce back
after trauma.
The 2017 study on nematodes (Transgenerational
transmission of environmental information in C. elegans)
is an important step towards understanding more about our own
epigenetic inheritance - especially because it serves as a
remarkable demonstration of how long-lasting these
inter-generational effects may be.
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