A species of wolf that died out some 12,500 years ago lives again as the “world’s first successfully de-extincted animal,” according to Dallas-based biotech company Colossal Biosciences. Colossal scientists have created three dire wolf pups by using ancient DNA, cloning and gene-editing technology to alter the genes of a gray wolf, the prehistoric dire wolf’s closest living relative, the company announced Monday. The result is essentially a hybrid species similar in appearance to its extinct forerunner. The dire wolf, Aenocyon dirus, which was the inspiration for the fearsome canine featured in the HBO TV series “Game of Thrones,” was a top predator that once roamed North America. (HBO shares parent company Warner Bros. Discovery with CNN.) Dire wolves were larger in size than gray wolves and “had a slightly wider head, light thick fur and stronger jaw,” the company said. Colossal has been working toward resurrecting the mammoth, dodo and Tasmanian tiger since 2021, but the company had not previously publicized its work on dire wolves. “This massive milestone is the first of many coming examples demonstrating that our end-to-end de-extinction technology stack works,” said Ben Lamm, Colossal’s cofounder and CEO, in a news release. “Our team took DNA from a 13,000 year old tooth and a 72,000 year old skull and made healthy dire wolf puppies.” The three dire wolves are living on a 2,000-acre site at an undisclosed location enclosed by 10-foot-tall (3-meter-tall) “zoo-grade” fencing, where they are monitored by security personnel, drones and live camera feeds. Colossal said the facility had been certified by the American Humane Society and registered with the US Department of Agriculture. Dire wolf fossils and ancient DNA Using ancient DNA extracted from two dire wolf fossils, Colossal’s scientists and collaborators said they were able to assemble two high-quality Aenocyon dirus genomes, or complete sets of genetic information. The team compared the genomes with those of living canids such as wolves, jackals and foxes to identify the genetic variants for traits specific to dire wolves, such as white coats and longer, thick fur. Dire wolves and gray wolves shared 99.5% of their DNA, according to the company’s news release. “We aren’t trying to bring something back that’s 100% genetically identical to another species. Our goal with de-extinction is always create functional copies of these extinct species. We were focusing on identifying variants that we knew would lead to one of these key traits,” Beth Shapiro, Colossal’s chief science officer told CNN. The company then used the information from the genetic analysis to alter gray wolf cells, making 20 edits in 14 genes before cloning the most promising cell lines and transferring them into donor eggs from domestic dogs. “So we can take these eggs and we remove the nucleus, and then you insert the nucleus that we’ve edited from that gray wolf cell, and that is what we clone,” Shapiro, who is currently on a leave of absence from her role as professor of ecology and evolutionary biology at the University of California, Santa Cruz, explained. Healthy developed embryos were then transferred into domestic dogs — specifically large, mixed-breed hounds — that acted as surrogate moms, Shapiro said. Researchers completed eight transfers in total, with average of 45 embryos on each attempt. Two male dire wolf pups were born on October 1, 2024, while a female pup was born on January 30, 2025, according to Colossal Biosciences. “When we found out that we had singleton puppies in each of those litters eventually, that was actually maybe not the optimal outcome, but it’s pretty optimal,” said Matt James, Colossal’s chief animal officer. “We didn’t want to suddenly have 25 dire wolves on our hands, right? That would have been really hard to manage.” James said the pups were “habituated to people” but not tame. The two older, male dire wolves are “exploring more and more of their habitat every day” but come back to base for feeding twice a day. He said he hopes to “grow the pack” in the future. “We’re still seeing a lot of juvenile behaviors. I think they are much more standoffish, much more skittish (than gray wolves). We haven’t seen them really fully express all of their behavior. They’re still juvenile — when they get that testosterone surge, I think we’ll see a lot of interesting behavior,” he said. “They’re an amazing opportunity for us to learn tons and tons about de-extinction, about cloning, about genetic editing and all the effects after that.” Gene editing for de-extinction To achieve its goal, the company essentially created a hybrid genome using CRISPR technology to cut away certain gray wolf gene variants and replace them with traits associated with dire wolves, said Love Dalén, a professor in evolutionary genomics based at the Centre for Palaeogenetics at Stockholm University, and an adviser to Colossal. “There’s no secret that across the genome, this is 99.9% gray wolf. There is going to be an argument in the scientific community regarding how many genes need to be changed to make a dire wolf, but this is really a philosophical question,” Dalén said. “It carries dire wolf genes, and these genes make it look more like a dire wolf than anything we’ve seen in the last 13,000 years. And that is very cool.” Dalén, who said he had been “a little bit” involved in the analysis of the dire wolf genomes but had not personally met the dire wolf pups or been involved in the gene editing or cloning process, said the work by the scientists was a “huge leap” from anything done in the field in the past. “The way I see this is that they have resurrected the dire wolf phenotype (the observable traits of a species) and we know from the genome that they probably looked a bit like these puppies. To me, it’s a dire wolf in that sense,” he said. The debate over whether the wolves are a carbon copy of their extinct forerunners misses the point, Shapiro said, adding that the team had been successful in resurrecting the “functional essence” of the dire wolf. “I recognize that the scientific community is saying, ‘Oh, it’s not genetically close enough to a dire wolf.’ These classifications are human constructs. They’re useful frameworks for talking about things, but they’re tools, not truths, right? And we successfully identified 20 precise genetic variants,” she said. “It’s not very much, but we did, (and in) doing that, resurrected these key differences in the way these animals look.” Colossal has raised at least $435 million since Lamm, a serial entrepreneur, and Harvard University geneticist George Church, founded the company in September 2021 and first announced plans to resurrect the mammoth. That endeavor has taken longer than Lamm initially projected, with the company saying it’s on track to introduce the first woolly mammoth calves in 2028. De-extinction and conservation The company hopes the technologies that created the dire wolf can directly help endangered animals as well. Colossal said on Monday it has produced two litters of cloned red wolves, the most critically endangered wolf species, using a new, less invasive approach to cloning developed during the dire wolf research. “The red wolf… is a great example of a species that’s hindered by a lack of genetic diversity. What what we could do, is begin to use this technology to reintroduce founders into a population in a way that would enhance genetic diversity, the robustness, the adaptability of a recovery program,” James said. Colossal is correct to argue that their technology is suitable to contribute to conservation of threatened species, said Michael Knapp, an associate professor in the department of anatomy at the University of Otago in New Zealand. Other potential uses include “editing harmful mutations out of the populations of threatened species and introducing traits that may help rare species adapt to environmental change,” Knapp said. “On the other hand, the technology still has its limitations,” he added. “Genes that may be introduced to give a species more fur, might have other and unwanted functions as well. Also, often not only the species, but the ecosystems they used to live in are extinct.” Many critics of de-extinction argue that the huge sums of money invested in the project could be better spent elsewhere — and that raising and breeding the hybrid creatures could imperil living animals used as surrogates. However, Christopher Preston, a professor of environmental philosophy at the University of Montana, said Colossal appears to be paying attention to animal welfare issues, noting the size of the facility and support from the American Humane Society. “Colossal have taken thoughtful precautions to screen against any unintended genetic consequences of their edits, eliminating risky edits known to be associated with poor outcomes,” he added. But he said it’s hard to imagine the dire wolves playing a role in an ecosystem, an outcome the company has said is the ultimate goal of its efforts to create genetically engineered mammoth-elephants. “In states like Montana, we are currently having trouble keeping a healthy population of gray wolves on the land in the face of amped up political opposition,” Preston said. “It is hard to imagine dire wolves ever being released and taking up an ecological role. So, I think it is important to ask what role the new animals will serve.”
Scientists say they have resurrected the dire wolf
TruthLens AI Suggested Headline:
"Colossal Biosciences Successfully Creates Dire Wolf Pups Using Genetic Technology"
CNN
7.5
TruthLens AI Summary
Colossal Biosciences, a Dallas-based biotech firm, has announced the successful resurrection of the dire wolf, a species that became extinct approximately 12,500 years ago. Utilizing advanced techniques in ancient DNA extraction, cloning, and gene editing, the company created three dire wolf pups by altering the genes of the gray wolf, which is recognized as the closest living relative to the extinct dire wolf. The pups, resembling their ancient ancestors in appearance, were produced through a process that involved assembling high-quality genomes from ancient fossils and making precise genetic edits to replicate traits specific to the dire wolf, such as thicker fur and a wider head. This achievement marks a significant milestone in the field of de-extinction, showcasing the potential of Colossal’s technology, which has also been aimed at resurrecting other species such as the mammoth and dodo bird. The pups are currently being housed in a secure, monitored environment, underscoring the company's commitment to animal welfare and ethical standards in their research operations.
The creation of these dire wolf pups has sparked discussions within the scientific community regarding the implications of de-extinction and genetic engineering. While Colossal's team acknowledges that the new pups are not genetically identical to their prehistoric counterparts, they assert that the essence of the dire wolf has been successfully revived. This endeavor not only aims to resurrect extinct species but also seeks to apply the same technology to conserve endangered species, such as the critically endangered red wolf, by enhancing genetic diversity through cloning. Despite the excitement surrounding these advancements, critics caution against the potential ecological impact of reintroducing such species, emphasizing the importance of focusing on existing wildlife conservation efforts. The ongoing debate highlights the philosophical questions surrounding species classification and the role of advanced genetic technologies in shaping the future of biodiversity and conservation strategies.
TruthLens AI Analysis
The recent announcement by Colossal Biosciences about the successful resurrection of the dire wolf has sparked significant interest and debate. This development is positioned as a groundbreaking achievement in the field of biotechnology and de-extinction, attracting attention from both scientific communities and the general public.
Purpose of the Announcement
The claim that the dire wolf has been brought back to life serves multiple purposes. Primarily, it showcases the capabilities of Colossal Biosciences in the realm of genetic engineering and de-extinction, potentially boosting their reputation and credibility within the biotech sector. By presenting this as a milestone, the company aims to attract further investment and interest in their broader projects, which include other extinct species like the mammoth and dodo.
Public Perception and Messaging
The narrative surrounding the dire wolf’s resurrection is likely intended to evoke a sense of wonder and excitement about scientific advancements. The connection to popular culture, particularly through the “Game of Thrones” reference, helps to engage a wider audience, especially those who may not typically follow scientific news. This strategic framing can elevate public interest and support for biotechnology initiatives.
Potential Concealments
While the announcement is primarily celebratory, it may downplay the ethical and ecological implications of de-extinction. Questions regarding the feasibility of reintroducing such species into their natural habitats, potential ecological disruptions, or the moral considerations of playing a role in evolution are crucial aspects that might not be fully addressed.
Manipulative Elements
There is a potential for manipulation in the way the news is presented, particularly in how the achievement is framed as a definitive success without acknowledging the challenges and risks involved. The language used emphasizes triumph, which can oversimplify the complexities of genetic engineering and conservation biology.
Comparative Context
In comparison to other recent scientific announcements, this news stands out due to its ambitious nature and the inherent fascination it generates. Similar stories often focus on more immediate applications of biotechnology, such as medical advancements or agricultural improvements. The dire wolf narrative might be positioned as a bold leap into speculative science, drawing parallels to other high-profile projects in genetics.
Impact on Various Sectors
The implications of this announcement could reach beyond the scientific community, influencing public opinion on genetic engineering and conservation. If perceived positively, it may lead to increased funding and support for biotech firms and conservation projects. Conversely, skepticism or ethical concerns could provoke debates that affect regulatory policies in these fields.
Supportive Communities
This announcement is likely to resonate with various communities, particularly those interested in conservation, genetics, and technological innovation. The excitement around resurrecting a species may appeal to environmentalists who see potential in using technology to restore ecosystems, as well as to enthusiasts of paleontology and history.
Market Reactions
Investors and stakeholders in biotech may view this news as a signal of growth potential for Colossal Biosciences and similar companies. Stocks related to biotechnology and genetic research could experience fluctuations based on public perception and investor confidence following such announcements.
Geopolitical Relevance
From a geopolitical standpoint, advancements in genetic engineering can have broader implications, particularly regarding biodiversity and environmental policy. While this announcement may not directly relate to current global issues, it highlights the evolving nature of scientific capabilities that can influence future discussions on biodiversity and ecological conservation.
Artificial Intelligence Influence
It is possible that AI technologies were utilized in the research and development phases of this project, particularly in analyzing ancient DNA and creating genetic models. However, the extent of AI's role in shaping the narrative or presentation of this news is less clear. The focus appears to be on the scientific achievement rather than the methodologies employed.
The overall reliability of the news hinges on the credibility of Colossal Biosciences and the transparency of their processes. While the announcement is exciting, it is essential to approach it with a critical lens, considering the broader implications and potential challenges associated with de-extinction.