Blastocysts created by somatic cell nuclear transfer can be a source of embryonic stem cells.The New York Stem Cell FoundationScientists at the New York Stem Cell Foundation Laboratory have reprogrammed an adult human egg cell to an embryonic state using cloning technology and created a self-reproducing line of embryonic stem cells from the developing embryo. In so doing, they have managed a feat that has at times been thought impossible, then inevitable, then completed, then incomplete and unfeasible. Their work is published today in Nature1.
It is not the end-all experiment that scientists aiming to create embryonic stem cells have been hoping for — the embryos are not true clones, because the DNA of the stem-cell line does not match that of the patient who donated cells — but it is a step in that direction and addresses some of the problems that have flummoxed experiments.
Human error
In 1996, the birth of Dolly the sheep showed that it was possible to put DNA from an adult into an egg cell to create a clone. Since then, researchers have tried for what they hoped would be an easier goal: creating a stem-cell line from a cloned human embryo that could be used either for research or to develop tissue for therapy.
It proved difficult, and not just in humans. Despite efforts, only experiments in a few mammals, including mice and rhesus macaquesproduced cloned embryonic stem-cell lines. When it came to humans, researchers didn't have unfettered access to the key resource, eggs — at least not in the numbers that they needed to tweak the finicky procedure for human biology.
One group said they had done it. In 2004, Woo Suk Hwang, then a biologist at Seoul University, claimed to have produced a viable cloned human embryo. But his results had been faked: it transpired that his group had used up more than 2,000 unethically obtained eggs in misguided and fraudulent experiments. No lessons were learned, and questions over the legality and morality of using eggs in research slashed the supply.
“Human eggs do indeed have the magic we thought they did!”
The need for cloning was called into question in 2006 by the creation of induced pluripotent stem (iPS) cells, adult cells reprogrammed to have the developmental potential of an embryo by the introduction of a few genetic factors to the cell rather than the use of an entire egg. iPS cells seemed to achieve the same thing as cloned embryonic stem cells with far fewer ethical sticking points. But over the past few years, they have been found to differ from embryonic stem cells in subtle but important ways that affect their development.
Step by step
In conventional cloning techniques, researchers remove the single set of chromosomes from an unfertilized egg, inject the two sets from a patient's adult cell and try to get the introduced DNA to drive the egg towards embryonic development. But such cells usually stop developing after a few divisions.
Dieter Egli, a researcher at the New York Stem Cell Foundation Laboratory who led the latest study1, started from scratch. His group ran a series of experiments using 270 eggs from 16 donors, isolating the three key events of conventional cloning techniques to see which was causing the problem. The culprit turned out to be removing the egg's DNA. So the group left it in, the reprogramming worked and an embryo — albeit one with an extra set of chromosomes from the egg — developed to the blastocyst stage, comprising 70–100 cells, from which stem cells can be derived.
Egli says he was surprised "that it actually worked. Our result really proves the technical hurdles can be overcome."
Clone of contention
"Human eggs do indeed have the magic we thought they did!" says Robert Lanza, chief scientific officer at Advanced Cell Technology, a company based in Santa Monica, California, that develops therapies using stem-cell technology. "This study clearly shows the enormous power of this technology."
But he is cautious about this particular experiment. He says the method has never been tried before "because it's of no clinical relevance"; the stem cells produced, with their extra set of chromosomes, are not compatible with the patient's tissue.
Miodrag Stojkovic, a cloning expert at the University of Kragujevac in Serbia, echoes these concerns. "These are abnormal cells and therefore are a very limited tool to understand early human development," he says, adding that cloned embryonic stem cells need a normal set of chromosomes before they can properly be compared with iPS cells.
첫댓글 황우석 이야기는 빠질 수가 없네요.
One group said they had done it. In 2004, Woo Suk Hwang, then a biologist at Seoul University, claimed to have produced a viable cloned human embryo. But his results had been faked: it transpired that his group had used up more than 2,000 unethically obtained eggs in misguided and fraudulent experiments. No lessons were learned, and questions over the legality and morality of using eggs in research slashed the supply.
만들었다고 주장하는 본인은 증명할 줄도 모르고 헤매다가, 그거 안타까워 춘 박사가 도와주니, 고마워하긴 커녕, 결국 그 데이타만 날름 빼먹으려고 정작 도와준 은인은 팽시켜버린 거가 됀 것이고, 그 데이타 맘대로 못써먹게 돼니 거기서 얻어 들은 감만 갖고 복제라고 우겨대는 꼴이라니,,
사기질이 밝혀진 당시는 말할 것도 없고, 지금까지도 하는 짓이 저러니, 배울 교훈이 뭐가 있겠습니까? 당연히 "No lessons were learned," 이지요.
그나저나, DNA는 그대로 남겨 두었다니, 탈핵은 안한 것 같군요.
그런데도 배반포에 줄기세포까지, 정작 만든 당사자들도 깜짝 놀랐다고 언급돼 있군요..,
6개월만 시간을 주면 만든다는 놈은 무얼하고 있었노
한겨레】조일준 기자 : 지난 2004년과 2005년 황우석 박사 연구팀이 성공했다고 발표했으나 논문이 심각한
조작으로 밝혀져 인정받지 못했던 기술과는 다소 다른 방식이다. 연구팀은 이번 실험에서 난자의 핵을 제거한
자리에 체세포 핵을 집어넣는 기존의 ‘핵 바꿔치기(치환)’와는 다른 새로운 방법을 시도했다.
http://www.hani.co.kr/arti/international/international_general/499701.html