Biologists have successfully engineered animals that produce the sperm of a different species, which brings labs one step closer to animal reproduction that uses nothing but the animals DNA. And while theres potential to rebuild endangered species populations, or even bring extinct species back to life, dont worryJurassic Park will probably stay fiction.

The new research published today in Stem Cell Reports has demonstrated that it is possible to produce rat sperm in sterile hybrid mice. While the technique still needs to be fine-tuned, the study authors say that their approach of adding engineered stem cells from one species to embryos of another species, called blastocyst complementation, has the potential to boost endangered species. If at-risk species arent able to maintain healthy numbers, generating their eggs and sperm in a lab could be used as a new tool to build populations up.

The teams process used stem cells, specifically pluripotent stem cells. Stem cells are the raw materials that make all kinds of cells, but the pluripotent stem cells can produce the greatest number of different cell types. These stem cells naturally develop only in embryos, but its also possible for other types of cells, such as those from a regular tissue sample, to be transformed into pluripotent stem cells. So this gives scientists a more readily available source to brew these stem cells in the lab. Adding them to the sterile embryos of a different living animal ultimately converts these stem cells into germ cells, such as sperm or eggs.

Previous research had already shown that rat sperm could be made in mice using pluripotent stem cells, says Ori Bar-Nur, a biologist at the Swiss university ETH Zurich and a coauthor of the study. The process involves creating a chimera, which is an artificial genetic hybrid of multiple animalsin this case, mice and rats. But past experiments with rat-mice chimera produced mouse sperm in addition to rat, resulting in a mix that was difficult to distinguish, isolate, and use. Unlike these past experiments, Bar-Nur and his team used mice that were genetically sterile. By adding the pluripotent stem cells of a rat to a sterile mouse embryo at a particular stage in its development (in this case the blastocyst stage) only the rats sperm formed in the resulting rat-mouse chimera.

Its removed a hurdle, especially if the process can work with other species, says Kevin Gonzales, a postdoctoral stem cell biology researcher at the Rockefeller University who was not involved with the study.

This new system wasnt a perfect success, though. The sperm produced by the chimeras could fertilize rat eggs, but at a relatively low rate, and the resulting embryos didnt develop into live offspring. Bar-Nur and his team arent sure why this is, but they suggest that it could be because the cells had been frozen and thawed, which is known to reduce viability. Its something we still need to pursue and are working on, Bar-Nur says.

Still, Gonzales says that the teams ability to engineer a chimera that exclusively produced the sperm of a different species shows promising progress for the future of stem cell propagation in conservation efforts. Continuing down this line of research has the potential to repopulate endangered (or even extinct) species with dwindling numbers. Small populations lead to a dangerous lack of genetic diversity, which increases the risk of extinction. If you think about critically endangered species, you probably wont have access to spermatozoa, explains Bar-Nur. But you might have tissue samples, and if we could transform that into pluripotent stem cells and find an evolutionarily close species, we could potentially, eventually, repopulate the species.

[Related: Airborne animal DNA could help biologists track endangered species]

There are a number of steps left before this technology can be put to practical use. First, biologists have yet to actually develop a living creature with sperm made from this particular type of stem cell propagation, blastocyst complementation. Additionally, no one has been able to produce female eggs with this method. However, both Bar-Nur and Gonzales say theres every reason to think its possible.

Gonzales points out that future use of the application will depend on having or making pluripotent stem cells. Samples of endangered species tissue are being collected and preserved, so labs could gain access, he says. However, the specific set of genetic keys needed to transform cells into pluripotent stem cells varies from species to species. The DNA sequences of lab mice, for instance, are relatively well known, but those of a rare tiger might not be.

The reproductive systems of mammal species present another barrier: they will need hosts to carry any viable embryos, says Gonzales. Even if sperm and eggs are successfully created and combined, its unknown whether the embryo could healthily develop in the uterus of a different species, even one that is closely related.

So as Jurassic Park-esque as it sounds to use cell samples to bring an extinct species back to lifeor even a nearly-extinct species back from the brinkresearchers still have a few hurdles to overcome before the technology can be put into practice.

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These sterile mice have been modified to make rat sperm - Popular Science