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Whitehead scientists bring new efficiency to stem cell reprogramming
Biology News Net ^ | September 13, 2012 | NA

Posted on 09/19/2012 3:02:32 PM PDT by neverdem


In this image of mouse embryonic fibroblasts undergoing reprogramming, each colored dot represents messenger RNA associated with a specific gene that is active in cells being reprogrammed. Red dots represent... Several years ago, biologists discovered that regular body cells can be reprogrammed into pluripotent stem cells — cells with the ability to become any other type of cell. Such cells hold great promise for treating many human diseases.

These induced pluripotent stem cells (iPSCs) are usually created by genetically modifying cells to overexpress four genes that make them revert to an immature, embryonic state. However, the procedure works in only a small percentage of cells.

Now, new genetic markers identified by researchers at Whitehead Institute and MIT could help make that process more efficient, allowing scientists to predict which treated cells will successfully become pluripotent.

The new paper, published in the Sept. 13 online edition of Cell, also identifies new combinations of reprogramming factors that produce iPSCs, according to the researchers.

Led by Rudolf Jaenisch, a Whitehead Founding Member and an MIT professor of biology, the study is the first to examine genetic changes that occur in individual cells as they become pluripotent. Previous studies have only looked at gene-expression changes in large populations of cells — not all of which will actually reprogram — making it harder to pick out genes involved in the process.

"In previous studies, you weren't able to detect the few cells that expressed predictive pluripotency markers. The really cool part of this study is that you can detect two or three cells that express these important genes early, which has never been done before," says Dina Faddah, a graduate student in Jaenisch's lab and one of the paper's lead authors.

The other lead author is Yosef Buganim, a postdoc at Whitehead Institute.

Single-cell analysis

In 2007, scientists discovered that adult human cells could be reprogrammed by overexpressing four genes — Oct4, Sox2, c-Myc and Klf4. However, in a population of cells in which those genes are overexpressed, only about 0.1 to 1 percent will become pluripotent.

In the new study, Jaenisch's team reprogrammed mouse embryonic fibroblast cells and then measured their expression of 48 genes known or suspected to be involved in pluripotency at several points during the process. This allowed them to compare gene-expression profiles in cells that became pluripotent, those that did not, and those that were only partially reprogrammed.

Once the reprogramming, which took between 32 and 94 days, was complete , the researchers looked for genes expressed only in the cells that ended up becoming pluripotent.

The team identified four genes that were turned on very early — around six days after the reprogramming genes were delivered — in cells that ended up becoming pluripotent: Esrrb, Utf1, Lin28 and Dppa2, which control the transcription of other genes involved in pluripotency.

The researchers also found that several previously proposed markers for pluripotency were active in cells that became only partially programmed, suggesting those markers would not be useful. With their newly discovered markers, "you can eliminate all the colonies that are not completely reprogrammed," Buganim says. "You don't want to use partially reprogrammed iPSCs for patient-specific therapies."

To read cells' genetic profiles so precisely, the researchers screened for genes using a microfluidic system called Fluidigm, then confirmed their results with a fluorescence imaging technique that can detect single strands of messenger RNA.

Not totally random

The findings also allowed the researchers to develop a new model for how genes interact with each other to steer cells toward pluripotency. Previously, it had been thought that reprogramming was a random process — that is, once the four reprogramming genes were overexpressed, it was a matter of chance whether they would activate the correct genes to make a particular cell pluripotent.

However, the new study reveals that only the earliest phase of the process is random. Once those chance events awaken the cell's own dormant copy of the Sox2 gene, that gene launches a deterministic pathway that leads to pluripotency.

During the early, random stage, there are probably many ways that Sox2 can be activated, Buganim says. "Different cells will activate Sox2 in different ways," he says. "As soon as you have a specific combination that allows the activation of Sox2, you are on the way toward full reprogramming."

The new model also predicted six combinations of factors that could activate Sox2. The researchers tested these combinations in reprogrammed cells and found that they were successful, with varying rates of efficiency.

Interestingly, they found combinations that do not include any of the original reprogramming factors. The researchers are now testing their new combinations to see if they produce healthier iPSCs. The most stringent test involves injecting iPSCs into an embryo that cannot give rise to normal cells because it has four sets of chromosomes instead of two. If a healthy animal develops from those cells, it is entirely the product of the iPSCs, demonstrating that the iPSCs were equivalent to embryonic stem cells. Most iPSCs injected into embryos do not pass this test. Source : Whitehead Institute for Biomedical Research


TOPICS: Culture/Society; News/Current Events; Testing
KEYWORDS: ipsc; stemcellresearch; stemcells

1 posted on 09/19/2012 3:02:42 PM PDT by neverdem
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To: Coleus; Peach; airborne; Asphalt; Dr. Scarpetta; I'm ALL Right!; StAnDeliver; ovrtaxt; ...
Single-Cell Expression Analyses during Cellular Reprogramming Reveal an Early Stochastic and a Late Hierarchic Phase

FReepmail me if you want on or off my stem cell ping list.

2 posted on 09/19/2012 3:12:24 PM PDT by neverdem ( Xin loi min oi)
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To: neverdem

Teenagers everywhere are sighing in relief.


3 posted on 09/19/2012 3:19:17 PM PDT by Yashcheritsiy (You can wish in one hand and spit in the other and see which gets filled first.)
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To: neverdem

These ARE NOT EMBRYONIC STEM CELLS!!!

Those continue to be useless to anyone except the person they would grow into, if left unmolested.


4 posted on 09/19/2012 3:37:11 PM PDT by G Larry (Progressives are Regressive because their objectives devolve to the lowest common denominator.)
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To: G Larry

bump

unfortunately it seems like useless embryonic ones get all the funding


5 posted on 09/19/2012 3:41:16 PM PDT by GeronL (The Right to Life came before the Right to Pursue Happiness)
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To: GeronL

Not really; I recently dined with a Japanese Gentleman in the container business who is funding this type of research and has under his hire a man who will win the Nobel Prize for his work in non-embryonic stem cells. There is BIG money to be made in stem cell applications.


6 posted on 09/19/2012 3:59:05 PM PDT by MHGinTN (Being deceived can be cured.)
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To: GeronL

“...useless embryonic ones get all the funding”

2 reasons:

1-Researchers long ago determined there was no merit in ESC research, which is why there’s no private money chasing it.

2-By lying about the potential for ESCs, the Pro-Aborts believe they can justify the cheapening of Human Life.


7 posted on 09/19/2012 5:41:32 PM PDT by G Larry (Progressives are Regressive because their objectives devolve to the lowest common denominator.)
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