Topic: Anti-aging breakthrough in mice (december 2016)

Posted under Off Topic

http://www.nytimes.com/2016/12/15/science/scientists-say-they-can-reset-clock-of-aging-for-mice-at-least.html

Scientists Say the Clock of Aging May Be Reversible

Ten years ago, the Japanese biologist Shinya Yamanaka amazed researchers by identifying four critical genes that reset the clock of the fertilized egg. The four genes are so powerful that they will reprogram even the genome of skin or intestinal cells back to the embryonic state. Dr. Yamanaka’s method is now routinely used to change adult tissue cells into cells very similar to the embryonic stem cells produced in the first few divisions of a fertilized egg.

Scientists next began to wonder if the four Yamanaka genes could be applied not just to cells in glassware but to a whole animal. The results were disastrous. As two groups of researchers reported in 2013 and 2014, the animals all died, some because their adult tissue cells had lost their identity and others from cancer. Embryonic cells are primed for rapid growth, which easily becomes uncontrolled.

But at the Salk Institute, Juan Carlos Izpisua Belmonte had been contemplating a different approach. He has long been interested in regeneration, the phenomenon in which certain animals, like lizards and fish, can regenerate lost tails or limbs. The cells near the lost appendage revert to a stage midway between an embryonic cell, which is open to all fates, and an adult cell, which is committed to being a particular type of cell, before rebuilding the missing limb.

This partial reprogramming suggested to him that reprogramming is a stepwise process, and that a small dose of the Yamanaka factors might rejuvenate cells without the total reprogramming that converts cells to the embryonic state.

With Alejandro Ocampo and other Salk researchers, Dr. Izpisua Belmonte has spent five years devising ways to deliver a nonlethal dose of Yamanaka factors to mice. The solution his team developed was to genetically engineer mice with extra copies of the four Yamanaka genes, and to have the genes activated only when the mice received a certain drug in their drinking water, applied just two days a week.

The Salk team worked first with mice that age prematurely, so as to get quick results. “What we saw is that the animal has fewer signs of aging, healthier organs, and at the end of the experiment we could see they had lived 30 percent longer than control mice,” Dr. Izpisua Belmonte said.

Researchers rejuvenate aging mice with stem cell genes

Study

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Yes! I can finally fuffill my dream of going backwards in time to find out what life is like before one is even a embryo.

Updated by anonymous

Chaser said:
Yes! I can finally fuffill my dream of going backwards in time to find out what life is like before one is even a embryo.

Wet and lonely.

Updated by anonymous

In the words of Peter Griffon;
"Why aren't we funding this!?"

Lol always wanted a reason to say that

Updated by anonymous

now do this with cats & dogs, and we can have living heirlooms passed from generation to generation

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[source]

[..]
To find out, developmental biologist Juan Carlos Izpisúa Belmonte of the Salk Institute for Biological Studies in San Diego, California, and colleagues genetically modified mice to respond to the antibiotic doxycycline by switching on four key genes that—in the lab—can turn adult cells into stem cells. The researchers tried their approach in mutant mice with symptoms of Hutchinson-Guilford progeria syndrome (HGPS), a rare genetic disease that resembles premature aging.
[..]
Izpisúa Belmonte and colleagues also tested how well a different group of middle-aged mice could repair muscle damage. If the stem cell genes were active, the animals were better at mending muscle injuries caused by an injection of cobra venom.
[..]
But tampering with epigenetic marks could have a price. Previous studies have found that turning on the stem cell genes in adult mice can lead to cancer or teratomas, abnormal growths that sometimes sprout teeth or hair. The researchers found, however, that they could prevent tumors and teratomas by giving the mice fewer doses of doxycycline.

I can't wait for them to try that with humans too!

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Chaser said:
Yes! I can finally fuffill my dream of going backwards in time to find out what life is like before one is even a embryo.

The void.

But on a serious note, This is quite a breakthrough. I don't have much to say but this can be beneficial to everyone!

Updated by anonymous

hsauq said:
As exciting as the potential for an increased lifespan/immortality sounds, I sure hope that in the event that this ever becomes safely and conveniently applicable to humans it's either expensive as hell or limited to the sterile/people willing to be sterilized.

I hope it's never applied to furries!

Updated by anonymous

hsauq said:
As exciting as the potential for an increased lifespan/immortality sounds, I sure hope that in the event that this ever becomes safely and conveniently applicable to humans it's either expensive as hell or limited to the sterile/people willing to be sterilized.

You are hinting at an overpopulation concern. Birth rates tend to fall as people get richer, rich enough to afford things like designer babies or gene therapy.

Updated by anonymous

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