Life expectancy could grow 80% with this anti-aging breakthrough


Do you want to be forever young?

A breakthrough study may show you how.

Researchers from the University of California San Diego conducted a study to reprogram the cellular aging process.

The study concluded that they were able to increase the lifespan of yeast cells by 82% — and claimed that the same could be done to human cells.

The study was published in the peer-reviewed journal Science on Thursday.

Yeast cells are single-celled microorganisms that undergo an aging process similar to that of human cells — and while the latter are more complex, the experts are optimistic that the science can be relayed.

Yeast cells have a transcriptional toggle switch that allows them to die in one of two ways: nucleolar decline (splintering of the cell’s protein-making properties) or mitochondrial decay (waning of the cell’s energy production).

Scientists believe that the process completed on single-celled yeast cells will hold true on more complex human cells.
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Those pathways naturally stop one another; as one takes place, the other is eliminated.

However, the researchers were able to rewire the transcriptional switch into a negative-feedback loop, which caused the yeast cells to fluctuate between the two aging states — increasing their life span by 82%.

“Our work represents a proof-of-concept, demonstrating the successful application of synthetic biology to reprogram the cellular aging process and may lay the foundation for designing synthetic gene circuits to effectively promote longevity in more complex organisms,” the researchers wrote.

Senior author Nan Hao, Ph.D., of the School of Biological Sciences’ Department of Molecular Biology, as well as co-director of UC San Diego’s Synthetic Biology Institute, explained the importance of the results, noting that it was “the first time computationally guided synthetic biology and engineering principles were used to rationally redesign gene circuits and reprogram the aging process to effectively promote longevity.”

“Our results establish a connection between gene network architecture and cellular longevity that could lead to rationally designed gene circuits that slow aging,” he said, according to Genetic Engineering and Biotechnology News.


Cell division background
Researchers were able to rewire the transcriptional switch of the cells to slow down the aging process in the latest development in the science of longevity.
Getty Images/iStockphoto

Cellular aging is a fundamental biological process and an underlying driver for many diseases.

This research aligns with the growing movement of scientists who believe that aging can be treated and managed like a disease.

While the anti-aging industry has always had a market, experts are increasingly delving into the science of longevity.

Celebrities and wellness trends are doing the same by focusing on movements like biohacking and treatments including cryotherapy.



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