RENEE MONTAGNE, HOST:
Laboratories across the world are racing to develop and test treatments to stop the spread of the deadly coronavirus. They've got the funding. They've got the talent. But they don't have the mice. That's because ordinary lab mice won't do, says Cat Lutz, senior director of the Jackson Laboratory Mouse Repository in Bar Harbor, Maine. The problem - the coronavirus doesn't make mice sick.
CAT LUTZ: The mice themselves are not susceptible unless we genetically engineer them to be so.
MONTAGNE: While mice had previously been engineered, none were running around when COVID-19 hit. So Cat Lutz's team went on the hunt.
LUTZ: But when we recognized that there was a need for a mouse model that can help with vaccination research as well as antiviral research, we looked around the literature and noticed that there was a mouse model that was made in 2007 just for this purpose. And that purpose was really to study coronavirus infection. And the mice, at that time, were used for SARS, which is another coronavirus-related illness but is also going to be very useful for COVID-19. So in that instance, we contacted the researcher who had engineered these mice. And then we were able to reanimate those mice from cryopreserved sperm to live colonies of mice.
MONTAGNE: You say cryopreservation. But is that a whole little mouse that's, you know, preserved? Or how are you - end up accessing this mouse?
LUTZ: It's very much like an in-vitro fertilization clinic that you can picture for humans. And the way that it works is that you usually take germplasm in the form of sperm and just freeze that away in a cryopreservation tank. And when you're ready for it, you can thaw that sperm out and then use it to fertilize oocytes from recipient female mice that you have, you know, currently live on the shelf.
MONTAGNE: How long does it take a mouse to reproduce? How big do the little guys have to be before you can work with them?
LUTZ: Yeah. Traditional breeding in mice can be somewhat fast or slow, depending on what your perspective is. It never seems like it's fast enough. But gestation time is about three weeks. And then it takes another three weeks for the mice to reach adulthood. Then it's another, you know, couple weeks for them to be sexually mature. So all in all, the generation time for a mouse is about 12 weeks. In this case, you can make a lot of mice not just through traditional breeding but through the in-vitro fertilization process. So instead of making, you know, a litter of animals, we can make multiple litters of animals and in fact, you know, generate hundreds of mice just from a vial of sperm.
MONTAGNE: So what does this mean for a treatment at this point?
LUTZ: I think the animal models are going to definitely be necessary to test new treatments and to look at vaccine efficiency. Certainly, we will not be able to successfully or efficiently do this until we have the mouse models that are able to work in this way. We have pretty much gone from zero to 100 miles an hour with this colony, have done multiple in-vitro fertilizations, as I just described, so that we're going to literally have hundreds and hundreds of mice on the ground in a very short period of time, which we will then put into breeding that will basically meet the demand of the scientific community in very short order.
MONTAGNE: Cat Lutz is the senior director of the Jackson Laboratory Mouse Repository. Thank you very much for joining us.
LUTZ: Thank you.
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