NRL News

Lead Into Gold: IPSCs Continue to Amaze

by | Dec 21, 2011

By Wesley J. Smith

Another breakthrough was announced by Stanford scientists using induced pluripotent stem cells.  From the press release:

‘Stanford University School of Medicine investigators have shown that iPS cells, viewed as a possible alternative to human embryonic stem cells, can mirror the defining defects of a genetic condition — in this instance, Marfan syndrome — as well as embryonic stem cells can. An immediate implication is that iPS cells could be used to examine the molecular aspects of Marfan on a personalized basis. Embryonic stem cells, on the other hand, can’t do this because their genetic contents are those of the donated embryo, not the patient’s.

“This proof-of-principle regarding the utility of induced pluripotent stem cells also has more universal significance, as it advances the credibility of an exciting approach that’s been wildly acclaimed by some and viewed through gimlet eyes by others: the prospect of using iPS cells in modeling a broad range of human diseases. These cells, unlike ESCs, are easily obtained from virtually anyone and harbor a genetic background identical to the patient from which they were derived. Moreover, they carry none of the ethical controversy associated with the necessity of destroying embryos.”

It seems increasingly clear that so-called therapeutic cloning–actually, the act of cloning is the same, different terms described different uses of the asexually created embryo–will not be necessary to study disease models via tailor made patient cell lines.  Moreover, with these exciting advances and the continuing strength of adult stem cell trials, we may find that the best clinical uses also do not involve embryo destructive methods.

Interestingly, the California Institute for Regenerative Medicine helped support this study–-a better result than most of the ESCR “investments.”  Remember, there’s an election coming to re-up the boondoggle in 2014!  Got to get some successes under the belt.

Categories: Adult Stem Cells