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http://wires.univisi...rom-centenarian
Posted 31 October 2011 - 08:52 PM
Lemaitre and colleagues decided to alter the standard genetic starter kit used to generate adult stemcells by adding two new ingredients -- known as transcription factors -- called NANOG and LIN28.
Experiments with human subjects ranging in age from 74 to 101 showed that the new cocktail worked.
Several critical markers of ageing in cells were "reset", including the size of telomeres, the tiny protective caps found on the ends of chromosomes that wear down with age, the researchers reported.
Telomeres and telomerase, the enzyme that control them, are a key agent in longevity.
Every time a cell divides, the telomeres get worn down a little bit. The enzyme's job is to partially rebuild them. Eventually, when the telomeres are worn beyond repair, a cell dies.
Gene expression profiles, levels of oxidative stress, and the metabolism of the cell's energy-generating mitochondria were all likewise rejuvenated, according to the study.
"The age markers in the cell has been erased," said Lemaitre. "The iPSC stemcells we got can produce functional cells of all types with a capacity to proliferate and enhance longevity."
By reversing the age-altered physiology of the cells, he added, the new reprogramming technique "may constitute an optimal strategy for developing cell-based therapies for aged patients."
A large gap remains between this "proof-of-concept" study and therapeutic applications, the researchers cautioned.
And recent experiments with mice suggests that generating adult stemcells may yet face unexpected barriers.
Certain kinds of iPSC may be rejected by the immune system even if they are derived from the same organism, the experiments showed.
Posted 31 October 2011 - 11:27 PM
Anyone care to speculate as to why the immune system would reject iPSC derived cells. Is the immune system so closely linked with the aged organism that new iPSC cells are essentially identified as a foreign cell type?
Posted 01 November 2011 - 01:27 PM
Posted 01 November 2011 - 07:50 PM
"Gene expression profiles, levels of oxidative stress, and the metabolism of the cell's energy-generating mitochondria were all likewise rejuvenated, according to the study." - more and more it's becoming clear that it's NOT a damage or anything, it's "merely" a shift in the gene expression (most likely - due to the pressure of a natural selection, depending on a specie). We "reprogram" the epigenetic data - we get a youth phenotype expressed once again. A direct proof is an experiment like that above...
Posted 01 November 2011 - 09:06 PM
Anyone care to speculate as to why the immune system would reject iPSC derived cells.
Posted 05 November 2011 - 12:50 PM
Posted 07 November 2011 - 03:01 PM
Posted 07 November 2011 - 09:09 PM
Posted 07 November 2011 - 10:46 PM
sorta. not in pubmed or google scholar as far as I can see, but if you go to the journal site, you can at least get the abstract. Here it is:Is the actual paper online?
Sorry, not much extra info here. The full paper is behind a paywall.Rejuvenating senescent and centenarian human cells by reprogramming through the pluripotent state
Laure Lapasset, Ollivier Milhavet, Alexandre Prieur, Emilie Besnard, Amelie Babled, Nafissa Aït-Hamou, Julia Leschik, Franck Pellestor, Jean-Marie Ramirez, John De Vos,Sylvain Lehmann and Jean-Marc Lemaitre
Direct reprogramming of somatic cells into induced pluripotent stem cells (iPSCs) provides a unique opportunity to derive patient-specific stem cells with potential applications in tissue replacement therapies and without the ethical concerns of human embryonic stem cells (hESCs). However, cellular senescence, which contributes to aging and restricted longevity, has been described as a barrier to the derivation of iPSCs. Here we demonstrate, using an optimized protocol, that cellular senescence is not a limit to reprogramming and that age-related cellular physiology is reversible. Thus, we show that our iPSCs generated from senescent and centenarian cells have reset telomere size, gene expression profiles, oxidative stress, and mitochondrial metabolism, and are indistinguishable from hESCs. Finally, we show that senescent and centenarian-derived pluripotent stem cells are able to redifferentiate into fully rejuvenated cells. These results provide new insights into iPSC technology and pave the way for regenerative medicine for aged patients.
Posted 07 November 2011 - 10:54 PM
I think the most important thing here is that a REVERSAL of aging (even if in "just" a cell) was demonstrated full force. If that's not a begining of "leaps" in this science, then I don't know what is it... I can see quite a potential in these latest news of recent days.
Posted 08 November 2011 - 01:48 AM
I think the most important thing here is that a REVERSAL of aging (even if in "just" a cell) was demonstrated full force. If that's not a begining of "leaps" in this science, then I don't know what is it... I can see quite a potential in these latest news of recent days.
Following the logic of JonesGuy's previous post, then there wouldn't be any true reversal of aging, only natural selection of a few "younger' cells among the population. It should be considered until we learn more.
Edited by VidX, 08 November 2011 - 01:50 AM.
Posted 08 November 2011 - 02:57 AM
I think the most important thing here is that a REVERSAL of aging (even if in "just" a cell) was demonstrated full force. If that's not a begining of "leaps" in this science, then I don't know what is it... I can see quite a potential in these latest news of recent days.
Following the logic of JonesGuy's previous post, then there wouldn't be any true reversal of aging, only natural selection of a few "younger' cells among the population. It should be considered until we learn more.
Yes, I agree, tho' this quote from abstract kind of hints that they are pretty sure these cells are "fully reset": " Thus, we show that our iPSCs generated from senescent and centenarian cells have reset telomere size, gene expression profiles, oxidative stress, and mitochondrial metabolism, and are indistinguishable from hESCs. Finally, we show that senescent and centenarian-derived pluripotent stem cells are able to redifferentiate into fully rejuvenated cells. "..
It's quite big (I'd actually say - huge, as we are talink an actual reversal of cellular aging. I'm not sure people yet fully grasp the importance of this.), I doubt they'd let something like that to slip through.
Edited by niner, 08 November 2011 - 02:58 AM.
Posted 08 November 2011 - 03:52 AM
I agree that this is big, if it really works that way. I can see where they might do something that activates telomerase and extends the telomeres, but if there are mitochondrial or nuclear mutations, how would those be fixed? How would this procedure take care of lipofuscin deposits? I guess if they're growing up new cells, after a few generations the lipofuscin is no longer a problem. Still doesn't deal with mutation, though. Seems too good to be true...
Posted 08 November 2011 - 11:44 AM
Posted 08 November 2011 - 04:25 PM
Posted 08 November 2011 - 05:15 PM
Posted 08 November 2011 - 07:14 PM
Edited by Elus, 08 November 2011 - 07:22 PM.
Posted 08 November 2011 - 07:43 PM
Posted 08 November 2011 - 08:14 PM
Looks like everything's already set in place and we just have to turn on a switch. Don't forget the yeast study. Maybe there's a connection to the germ-line, meiotic rejuvenation.
Edited by Elus, 08 November 2011 - 08:15 PM.
Posted 08 November 2011 - 08:33 PM
Posted 08 November 2011 - 09:56 PM
Edited by okok, 08 November 2011 - 10:26 PM.
Posted 08 November 2011 - 10:01 PM
Posted 08 November 2011 - 10:46 PM
The parabiotic experiments give a whole new meaning to the old man in the creepy van who says "hey kid, come here... I've got candy..."
Edited by Elus, 08 November 2011 - 10:54 PM.
Posted 08 November 2011 - 11:11 PM
This is looking more and more like a programming problem, where the code is some collection of proteins. The parabiotic experiments give a whole new meaning to the old man in the creepy van who says "hey kid, come here... I've got candy..."
Edited by VidX, 08 November 2011 - 11:12 PM.
Posted 10 November 2011 - 02:16 AM
This is looking more and more like a programming problem, where the code is some collection of proteins. The parabiotic experiments give a whole new meaning to the old man in the creepy van who says "hey kid, come here... I've got candy..."
Lol... Vampires are onto something afterall..
As for programming - it's getting more and more clear (imho) that it IS a programming issue, all the damage/etc is irrelevant or close to irreleveant as it's the effect, not the cause (once again I want to mention M.R.Rose and his experiments). ANd it may be good news if bio-it science progresses rapidly. In that case we may have a nice "cocktail" of pharmateuticals (or more likely - a coctail of various peptides/proteins we would inject regulary) designed to "reprogram" our cells.
Posted 10 November 2011 - 10:40 AM
Posted 23 May 2012 - 11:50 PM
Posted 28 April 2014 - 11:09 AM
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