A few years later, the UK was in the spotlight again, when “Dolly,” the cloned sheep stepped onto the stage. It was time for another committee to react to another advance, and a consultation (asking the public’s — or a portion thereof — opinion) was held. There was concern about the public’s reaction to the word “cloning,” so the terms used to solicit public opinion were “nuclear replacement technology” and “new techniques which might be developed to treat serious medical conditions.” (Human Genetics Advisory Commission and the Human Fertilisation & Embryology Authority, “Cloning Issues in Reproduction, Science, and Medicine,” A Report, December 1998) Could it be a surprise that the consultation showed people in favor of “nuclear replacement technology”?
The next link in this “ovolution” occurred in November 2006, and involved animal-human hybrids. Two research teams applied to the HFEA for licences “to derive stem cells from human embryos.” Citing a shortage of human eggs, the investigators proposed “using animal eggs, from which they had removed almost all the animal genetic material (DNA). These embryos would be a kind of hybrid, known as a cytoplasmic hybrid embryo.” (http://www.hfea.gov.uk/519.html) What should the HFEA do? A consultation would help decide matters. A consultation was duly held, from April to July 2007. The results? “The Authority at its September 2007 meeting considered the detailed findings of the consultation and agreed a policy for the licensing of cytoplasmic hybrid research.” (http://www.hfea.gov.uk/519.html).
Now the next step can occur: take a human egg from one female, and replace its nucleus with the nucleus of a different human female’s egg, then fertilize the egg, and transfer it to a uterus. Briefly, the combination is of the donor’s egg cytoplasm (with normal mitochondria), the mother’s egg nucleus; and the father’s sperm. No one is calling this a human-human hybrid. No; it is called hope for those families suffering from mitochondrial-linked diseases.
Mitochondria are like cellular batteries, and they carry their own DNA. They have 37 genes, of which 13 seem currently to be of the most interest. The difficulties associated with mitochondrial diseases are real and varied, afflicting about 100 children per year in the UK. Since mitochondria are only passed down from mother to child, scientists have seized on this idea of replacing the faulty mitochondrial DNA of the mother with the non-affected mitochondrial DNA of an egg donor. The resulting child would have the chromosomes of his/her mother and father, and the mitochondrial DNA of the egg donor. The Nuffield Council on Bioethics has, after some study, declared this “ethical.” According to the BBC,
Dr Geoff Watts, who led the inquiry, said: “If further research shows these techniques to be sufficiently safe and effective, we think it would be ethical for families to use them if they wished to, provided they receive an appropriate level of information and support.”
“Just as Frankenstein’s creation was produced by sticking together bits from many different bodies, it seems that there is no grotesquerie, no violation of the norms of nature or human culture at which scientists and their bioethical helpers will balk.
“The proposed techniques are both unnecessary, and highly dangerous in the medium term, since they set a precedent for allowing the creation of genetically modified designer babies.”
He argued that such techniques would affect many generations and crossed “what is normally considered the most important ethical line in the prevention of a new eugenics” and this was “precisely how slippery slopes get created”. (http://www.bbc.co.uk/news/health-18393682).
Before this can occur, however, the HFEA will hold a consultation, beginning in September, and will release the results in 2013. At least one news report has outlined the required next steps: “Then the government regulator, the HFEA has to approve the technique and then there would have to be a parliamentary vote to change the law because this kind of technique is currently illegal.” (itv) The expected outcome is clear, even if the risks or effects of these experiments are not.
© D. Joy Riley 2012