Illustration of mitochondrial donation

Time to Revisit the Prohibition on So-Called “Three-Parent IVF”?

In an editorial appropriately titled, “This Editorial Is Not About Designer Babies,” the New York Times supported efforts by the Petrie-Flom Center and suggested it was time for Congress to consider lifting the effective ban on mitochondrial replacement therapies — sometimes colloquially but inaccurately referred to as “three-parent IVF.”

The piece referred to the Petrie-Flom Center’s upcoming public event and Roundtable, where experts will have a general conversation about the state of the law in the U.S. and elsewhere and to, as a group, discuss whether the prohibition against MRT might be lifted and, if so, how that might be accomplished.

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Using Tissue Samples to Make Genetic Offspring after Death

By Yu-Chi Lyra Kuo

Last month, John Gurdon and Shinya Yamanaka were jointly awarded the 2012 Nobel Prize for Medicine for their research on induced pluripotent stem cells (iPSCs).  iPSCs are capturing the public imagination as embryonic stem cells did fifteen years ago, but without the controversy surrounding the destruction of embryos: iPSCs can be garnered instead from living somatic tissue of an organism at any point in its lifespan–even late adulthood.  Yamanaka’s research has shown that somatic cells can be “reprogrammed” to develop into any kind of cell–including an embryo–speaking to the vast research potential of iPSCs.

In light of the research potential of iPSCs, I wanted to highlight the results of a remarkable study (published last month) where scientists induced iPSCs from mice into primordial germ cell-like cells, and aggregated them with female somatic cells to create mature, germinal oocytes. The team was then able to show that these oocytes, after in vitro fertilization, yield fertile offspring. Essentially, the research team created viable mouse embryos from skin cells, and fertilized them using IVF to produce healthy mice, some of which have already produced offspring of their own.

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