Posted on 07/20/2020 8:58:19 AM PDT by Red Badger
SAN DIEGO The average American lives to be around 75 or 80 years old; but if you had an opportunity to slow down the aging process and live an extra couple of decades would you take it? Its a loaded question, strife with philosophical, religious, and societal considerations. Humans have pondered the possibilities of extended, or even immortal, life for as long as weve inhabited this planet. But at the end of the day its all just a daydream, right?
Not necessarily, according to new research out of the University of California, San Diego. The study, led by UCSD molecular biologists and bioengineers, produced a groundbreaking discovery regarding the intricacies of cellular aging. In light of their findings, researchers say the notion of dramatically extending human life isnt so farfetched after all.
Each humans lifespan and personal rate of aging is determined by the aging of their individual cells. Originally, the studys authors just wanted to investigate if different types of cells age at different speeds based on different stimuli/causes. To that end, they studied aging in the budding yeast Saccharomyces cerevisiae. This provided a suitable model with which to track aging mechanisms of various cell types. Two different paths of aging
The research ultimately finds that two cells made of the exact same genetic material, and residing in the same bodily location, can age in vastly different ways and molecular/cellular trajectories. This finding, of course, warranted further research. So, via a variety of complex techniques, researchers discovered that about half of the cells age due to a slow decline in the stability of their nucleus. Meanwhile, the other cells appear to age primarily because of dysfunctioning mitochondria.
Cells seem to start off on either the nucleolar or mitochondrial path of aging very early on in their existence. They continue to follow that same aging process until death. Very importantly, researchers say they were able to find the master circuit in charge of controlling these aging processes and paths among cells.
To understand how cells make these decisions, we identified the molecular processes underlying each aging route and the connections among them, revealing a molecular circuit that controls cell aging, analogous to electric circuits that control home appliances, says senior study author Nan Hao, an associate professor in the Section of Molecular Biology, Division of Biological Sciences, in a release. Extending human healthspan
This discovery allowed the studys authors to construct a new model of the aging landscape. This new perspective led to a revelation: Hao and his team believe they can conceivably manipulate and optimize the aging process. Using a series of computer simulations, the research team reprogrammed the master molecular circuit via DNA modification. This facilitated the creation of a new, novel aging route offering a much longer lifespan.
Our study raises the possibility of rationally designing gene or chemical-based therapies to reprogram how human cells age, with a goal of effectively delaying human aging and extending human healthspan, Hao says.
Next, researchers want to continue testing their new model on more complex cells before eventually upgrading to human cells.
Much of the work featured in this paper benefits from a strong interdisciplinary team that was assembled, says Biological Sciences Professor of Molecular Biology Lorraine Pillus, a study co-author. One great aspect of the team is that we not only do the modeling but we then do the experimentation to determine whether the model is correct or not. These iterative processes are critical for the work that we are doing.
The study is published in Science.
I want the forever life Jesus promises.
I just can't take this shit anymore.
Every day is a gift from God................
There you have it.
Male. My brain would go nuts in a female body. Too much to play with.
I didn't know it was a prophecy back when I was saying it.
I figure that, with my luck, the day AFTER I DIE they will come up with a drug to extend life indefinitely and return your youthful looks as well.............
A cousin of mine is in his mid 80s. His mother receently died at 106 and one of his aunts (mine also) lived to be 102. Years ago he remarked that he hoped he had a lot of my aunt’s genes. Now it looks like he got them as well as his mother’s.
Good luck in the gene pool is great as long as the last few years are healthy ones. Otherwise, it’s probably better to go out with your boots on.
“Its also amazing that there are about 200 types of cells in the body, a total of 30 trillion cells, and all are aging at roughly the same rate.”
And that each one of these cells is like a miniature city in complexity with nanomachines buzzing around all over the place in a coordinated fashion driven by a survival instinct whose source is a complete mystery.
It is absolutely awe inspiring.
Read Robert Heinlein’s “Lazarus Long” series of Sci-Fi books...............................
https://en.wikipedia.org/wiki/Lazarus_Long
https://en.wikipedia.org/wiki/Howard_families
Nope.
Ironically, I am rereading “Time Enough for Love” currently.
:o)
Have you read the others?...............”To Sail Beyond Sunset”, “The Cat Who Walked Through Walls”, “Methuselah’s Children”..................
Thanks for the post.
We’ve had a few more like it. The best ingredients I’ve heard of for help on the cellular level are NR, NMN, sulforaphane. The last molecule discussed here was fisetin. No conclusive results on that.
Do you want to go thru another lifetime of working again?
No, I don’t remember them. I first read Heinlein about 40 years ago and often thought that it would make a great TV series (too long for a movie). It could be setup somewhat like “The Fugitive” was, with a different lifetime in each episode interspersed with space and time travel and Lazarus’ stories/memories.
I found “Glory Road” in my bookcase but I don’t recall reading it. It’s likely a book my wife read. ;o)
Anyway, I plan to pull the others up on my Kindle.
They weren’t written in sequence, so there are a few inconsistencies among the novels. There’s even a ‘tie-in’ with some of his other novels. You’d have to be very familiar with them to notice. It is revealed that ‘Lazarus Long’ was actually ........................
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