The headline on the other major news story today to which we intend to devote some time is very simple. Hello, Dolly. In February of 1997, a Finn Dorset sheep named Dolly sent waves of future shock around the world.
The first living, breathing clone... of an adult mammal. It's possible we're seeing a scientific explosion comparable to the atom bomb or the moon rocket or DNA itself. For many, it was a case of science gone too far.
Are we acting more like the creator than creatures? Are we trying to play the role of God in all this? Predictions multiplied about just what this breakthrough would bring.
Soon it will be possible to give her thousands of absolutely identical sisters. Animals could be cloned with human diseases and new therapies tested on them. Endangered species can take heart. This is not an elaborate sophisticated technique.
It means that any decent college or graduate school student could potentially clone a human being. Whatever became of Dolly and all that speculation about the brave new world she ushered in, On July 5th, 1996, Scottish scientist Ian Wilmot received the news he had been waiting for. Lamb number 6LL3 had been born. First of all, I was immensely relieved that she was alive and apparently normal.
There was a slight feeling of sort of awe, if you like, at the potential impact. Wilmot and his team at the Roslin Institute outside of Edinburgh had spent several years trying to do what no one had before, to successfully make a clone of an adult mammal. Embryologist Bill Ritchie had lifted a single mammary cell from a six-year-old ewe and fused it to a second sheep's unfertilized egg, which had been stripped of its DNA. That's the method.
The actual nuts and bolts of doing it is a little bit more complicated than that. In fact, Ritchie had repeated the same delicate procedure over 400 times, and only one surviving embryo, number 6LL3, was carried to term by a surrogate mother. A lot of the cloned animals previously had died, born and then died.
This particular lamb got onto its feet very quickly and started bleating and looking to get its first feed of milk from its mother. After the delivery, it was John Bracken's wisecrack that christened little 6LL3 with the name forever etched in the annals of scientific achievement. I turned to my colleague and said, the lamb has been created from mammary cells and basically... I thought it would be a good idea to call her Dolly after Dolly Parton. I don't think I need to explain any more than that.
The few at Roslyn who knew what made Dolly so special were sworn to secrecy. We knew it was going to be a big story. We were going to get a lot of media scrutiny, and the top journals will not publish papers about things which have already been publicized.
They managed to keep Dolly under wraps from July until February. Then, just days before the news was set to be released... Somewhere or other, there was a leak. And because it was published in a Sunday paper, you know, the thing blew.
It's a very long time since a science story on Sunday made such waves on Monday. The news was that scientists in Scotland had successfully cloned a sheep in a laboratory. An exact copy...
made by a combination of genetics, biology, and technology. I think you'd say all hell had broken loose. It was just battle.
A brave new world has arrived with the debut of Dali, a seven-month-old lamb. What has caused such a shudder in the worldwide scientific community is that so many scientists doubted it could ever be done. A frog had been cloned in the 1960s, but mammals were seen as too complex. It was a seminal watershed event and no one saw it coming. And people said, this is a Rubicon that we've crossed.
Do we really know where we are? Which brings us to the fundamental question, should we be applauding a mind-boggling scientific breakthrough or be nervous about where it might lead us? Picture a world where hunger has been wiped out by our ability to clone the best cattle in great number, but where war threatens because some future Hitler decided to make multiple copies of himself.
What sensationalized it was that people began to say, We do this with humans. People tended to assume that this would happen. Cloning a human being is closer than almost anyone had even imagined.
Now it seems that one day scientists could take a single cell from a more sophisticated creature, say like me, pull out my DNA, stick it in a new cell, plant the cell in a womb, and nine months later out would come a genetic copy of me, a clone. The tantalizing prospect of cloning human beings soon overshadowed the true scientific promise of DALI, the prospect that scientists could one day use cloned cells to develop drugs and other therapies in the hopes of curing deadly human diseases. In the scientific world, it was actually more of a next-step accomplishment in some ways, but in the popular press, this meant that if DALI was possible, maybe you could make an army of whoever your worst enemy is.
Recent bestseller, The Day After Tomorrow, imagined Hitler recreated from his frozen head. And it really extended to a ghoulish, icky misuse of science domain that people suddenly started thinking, in almost sci-fi terms, about what was now possible. Begun the Clone War. And that led to people thinking that we really need boundaries because scientists look what they can do. It's going to take a shape that's abhorrent to us if we don't get ready for it.
If we can't ban the production of people just to serve as spare parts for the rest of us, We don't have much hope of doing anything in the world of ethics and law. President Clinton wasted little time coming out as tough on cloning. Today I am issuing a directive that bans the use of any federal funds for any cloning of human beings. It started to become politicized from the very beginning. You have presidential commissions, senators and congressmen holding forth on science.
What should be funded and what should be forbidden. This affected not only cloning, but another recently developed and promising form of medical research using embryonic stem cells, the building blocks of the human body. These cells were generally taken from discarded embryos at fertility clinics, which created an immediate controversy.
Dolly was very much caught up in the whole debate about embryonic stem cells. And so there was a lot of concern about that was really messing around with something really fundamental to life. Scientists have already cloned a sheep.
Researchers are telling us the next step could be to clone human beings to create individual designer stem cells, essentially to grow another you. In August of 2001, President George W. Bush restricted federally funded medical research to a limited number of stem cell lines, many of which turned out to be useless to American scientists, who had been among the first to isolate human stem cells. The scientific community felt like this was really the very base. of a tremendous revolution in our understanding and treatment of human disease. But we were being constrained, and that really had a very chilling effect on research in the U.S.
It's kind of like we invented the first printing press, and then we decided, hey, we're not going to use it. It's too scary. And the Koreans and Indonesians were saying, hey, give it to us. We got some books we want to print. While the cutting edge of stem cell research took hold overseas, The latest feats of cloning continued to capture the public's imagination.
Bring in the clone. Numerous cloned animals made the news, as did claims of a human clone by the rather unscientifically trained Raelians. And inside your finger you have small planets. Then, in February of 2003...
Dolly the sheep has died. A scientist at the institute in Scotland where she was born said she was diagnosed with progressive lung disease. She was only six years old. So here is yet another warning about cloning. Critics long argued Dolly would suffer from premature aging because she was made from the genetic material of a six-year-old ewe and saw her early death as confirmation of their concerns.
Dolly died because of the lung disease that she had, a disease commonly passed between animals in close contact. It wasn't anything to do with her age. Although Dolly had developed early arthritis, A post-mortem at Roslyn concluded her cloning was not the cause of her death. But what happened to Dolly's legacy, and all that speculation about a future full of clones?
Dolly was this live animal that we could look at and touch and feel that caused us to imagine that there'll be people cloning in their sink, in their backyard. And there just wasn't an understanding of the level of sophistication and complexity around this technology. Few know those complexities better than Blake Russell, who oversees the Viagen Company's cloning operation on this 300-acre farm in northern Iowa. Costing upwards of $20,000, their services are used mainly by high-end breeders to preserve the best traits of elite animals. The number of cloned animals around North America, for example, would only number today in the small thousands.
But yet there would be literally millions of descendants of those animals. And those offspring are the ones that are ultimately designed for the production of meat and milk that we see on our table. It took the creation of nearly 300 living embryos to make Dolly. And 17 years later, the process is only slightly more efficient.
The long odds of success have also tempered much of the hope cloning held for medical research, that scientists could create embryonic stem cells to treat diseases. It wasn't until May 2013 that scientists in Oregon finally managed to use the Dolly method to produce stem cells from a cloned human embryo. The whole technique still has this inbuilt inefficiency and we don't know why.
We needed some alternative to the DALI approach to creating these cell types. And that's what led to what really is a revolution in science. Japanese scientist Shinya Yamanaka rocked the scientific community in 2006 when he turned ordinary adult cells into stem cells in mice and then replicated that success in humans.
It was a major scientific breakthrough that earned him the Nobel Prize in Medicine in 2012 and also eliminated the ethical issue that he said motivated him, the controversial use of human embryos. You can accomplish all of the good things without taking on the baggage of the bad. And now you could actually do this in most laboratories around the world. Stem cell therapy is still at the very early stages of development.
And the jury is still out on whether Yamanaka's reprogrammed cells or those cloned in Oregon using the DALI method will prove more effective. Ian Wilmot himself gave up cloning years ago and is using Yamanaka's method in his research on Lou Gehrig's disease. In the next 100, 150 years, we'll learn to treat most of the degenerative diseases.
It's because of our ability to produce these stem cells and study them, and it would be... because of our ability to find cells to put into the patient. And all of that came from cloning.
It started people thinking, well, if we can take a cell and make it into a whole animal, what else can we do with those cells? President Obama lifted the ban on stem cell funding in 2009, but Skadden says its impact on his field still resonates. It is something that is a little disturbing, because it was a way in which science suddenly was fighting against non-scientific principles. That legacy is the one that I think is the most troubling. Dolly herself is on permanent display at the National Museum of Scotland.
She is a favorite among both kids who never knew a time when making a clone was pure science fiction, and adults who remember the stir in the winter of 1997 when Dolly turned that fiction into fact.