Pioneering space reproduction research yields healthy baby mice
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 [June 16, 2021]
By Will Dunham
(Reuters) - Trail-blazing space
reproduction research that yielded healthy baby mice produced using
freeze-dried sperm stored for years in orbit is showing the
possibilities of procreation beyond Earth, with future implications for
humans exploring the cosmos.
Scientists said they produced 168 offspring using mouse sperm cells that
were stored aboard the International Space Station (ISS) for five years
and 10 months and then rehydrated back on Earth, injected into
unfertilized egg cells and transferred into female mice at a Japanese
laboratory.
The sperm cells were exposed to radiation 170 times greater than sperm
kept in ground storage for comparative purposes at the Japan Aerospace
Exploration Agency's (JAXA) Tsukuba Space Center. The higher radiation
levels present in space are attenuated by Earth's atmosphere.
University of Yamanashi developmental biologist Teruhiko Wakayama, who
helped lead the study published in the journal Science Advances, said
the space radiation did not damage the sperm's DNA or reduce its
fertilization ability compared to the ground-stored sperm.
The baby mice were just as healthy as those produced using ground-stored
sperm, with normal appearance and no abnormalities in gene functioning,
Wakayama added. Their offspring - and even their grandchildren - also
were healthy, Wakayama said.
Scientists are seeking a greater understanding of how space conditions
affect reproduction. There is concern that greater radiation levels
could foster harmful mutations and that reduced or zero gravity
conditions could impede embryonic development. Previous research in
orbit has involved animals such as fruit flies and fish.
The study examined radiation's effect on the male reproductive cell - or
gamete - but not the issue of gravity. It was the first space study
involving mammalian reproductive cells.
"If space radiation results in mutations, maybe the next generation
would be changed a little bit. However, if animals live in space for
many generations, the mutations would accumulate," Wakayama said. "We
have to know how to protect against this."
Wakayama said that in August researchers will send frozen early-stage
mouse embryos to the ISS, where they will be thawed and cultured under
zero-gravity conditions.
"By this experiment, we will know whether gravity is essential for
mammalian embryo development or not," Wakayama said.
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Healthy mice produced from sperm cells that were freeze-dried,
stored in a sealed capsule and preserved on the orbiting
International Space Station are seen in a laboratory in Japan in
this undated handout image. Teruhiko Wakayama, University of
Yamanashi/Handout via REUTERS
These issues might be of concern if humankind in the
future establishes off-world colonies - perhaps on the moon or Mars
or in large space stations - or develops technology to send
astronauts on lengthy missions to destinations beyond our solar
system such as the closest star, Proxima Centauri.
Wakayama said the findings regarding freeze-dried mouse sperm
suggest that this method could be used for human reproduction in
space if such long missions are realized.
The freeze-dried sperm was sent to the ISS in 2013 inside
lightweight capsules, then was stored in a freezer aboard the space
station and sent back to Earth in 2019 in the longest biological
research involving the orbiting laboratory.
The researchers estimated that freeze-dried sperm could be safely
stored in the ISS for about 200 years. Because it is small and
lightweight - and thus inexpensive to transport - animal
reproductive cells could be stored in this manner as easily as plant
seeds, they added.
"In order for humans to thrive in space, we would need to maintain
the genetic diversity not only of people but also of livestock and
even pets," Wakayama said.
Genetic diversity protects against the accumulation of harmful
mutations seen in inbreeding.
Carrying freeze-dried reproductive cells from large numbers of
individuals would be easier than transporting the animals themselves
and could enable space colonies to have animals for food and
companionship, Wakayama added.
(Reporting by Will Dunham in Washington, Editing by Rosalba O'Brien)
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