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Archive for the ‘life extension’ category: Page 114

Feb 17, 2023

The Science of Living Forever (or a Really, Really Long Time)

Posted by in categories: government, life extension, philosophy, science

“The inevitability of death is what makes life worth living.” — Henry.

“Would we need to extend the years everyone should continue to be in the workforce, in order to pay for those not contributing?” — Marianne.

“Imagine you have people with all the prejudices they grew up with and they never die. Or you have someone who is a dictator and they get to live forever and be dictator forever. Or you have Congress where you have 80 and 90 year olds holding office forever but now they never die so nobody new can take over.” — Avram.

Feb 17, 2023

REVERSE AGING — Sounds Too Good To Be True? | Dr David Sinclair Interview Clips

Posted by in categories: biotech/medical, economics, genetics, life extension

A couple minutes of your time for a little optimism.


Dr David Sinclair talks about no matter all the push backs and criticizes, he believes reverse aging therapy for human will be succeeded in this short clip.

Continue reading “REVERSE AGING — Sounds Too Good To Be True? | Dr David Sinclair Interview Clips” »

Feb 16, 2023

Chat GPT on Extending Healthy Lifespan and Epigenetic Cellular Rejuvenation.pdf

Posted by in categories: computing, genetics, life extension

I wanted to test how well endowed is ChatGPT in the field of Longevity. For that matter I asked the following two questions: Which are the most promising therapies which are being developed to significantly extend healthy lifespan in humans using 4,000 characters (about maximum lenght to be readable in one page).

Which are the most promising therapies to achieve epigenetic cellular rejuvenation.

I created a two-page document in PDF with a screenshot of the responses for the two questions, so to show them exactly as they appeared in my laptop (no editing by me whatsoever).

Feb 16, 2023

Tricorder Tech: NIH Software Assembles Complete Genome Sequences On-demand

Posted by in categories: biotech/medical, life extension

National Institutes of Health researchers have developed and released an innovative software tool to assemble truly complete (i.e., gapless) genome sequences from a variety of species.

This software, called Verkko, which means “network” in Finnish, makes the process of assembling complete genome sequences more affordable and accessible. A description of the new software was published today in Nature Biotechnology.

Verkko grew from assembling the first gapless human genome sequence, which was finished last year by the Telomere-to-Telomere (T2T) consortium, a collaborative project funded by the National Human Genome Research Institute (NHGRI), part of NIH.

Feb 16, 2023

SIRT6 is a key regulator of mitochondrial function in the brain

Posted by in categories: biotech/medical, computing, life extension, neuroscience

Though mitochondrial dysfunction is a known marker of aging and neurodegenerative diseases, the exact mechanism behind it remains unknown. Our study suggests that the decay of SIRT6 levels during aging [18] and in Alzheimer’s disease [18, 23, 46] could be a key mechanism causing the deterioration of mitochondrial functions. The changes induced by the SIRT6 knockout that we observe at the metabolite level support this claim: metabolites related to mitochondrial energy system pathways (in particular, OXPHOS and TCA cycle) are significantly overrepresented among differentially abundant metabolites. In line with the discussed mitochondrial dysfunction in aging, all these metabolites are downregulated in the SIRT6-KO samples. Importantly, the dramatic decline of one of them, NAD+, was also associated with pro-senescence mechanisms in various species [47, 48], as well as with limited neuroprotective activity of sirtuins [49].

Accordingly, the vast majority of differentially expressed mitochondria-related genes were downregulated in our gene expression analysis. As they were strongly enriched with mitochondrial respiratory chain complexes, we measured the mitochondrial membrane potential and mitochondrial content in SIRT6-KO cells because reduced gene expression might indicate the loss of mitochondria. Both measured characteristics were significantly decreased, validating the suggested impairment of mitochondrial oxidative phosphorylation and mitochondrial biogenesis in SIRT6-deficient brains. Interestingly, the average decrease of mtDNA gene expression (~19.7%) in SIRT6-KO was in good agreement with the corresponding reduction of mitochondrial content (21.8%), suggesting impaired mitochondrial biogenesis as a primary cause of the observed transcriptional dysregulation in mitochondria upon SIRT6 knockout.

Concordantly, the impaired membrane potential upon SIRT6-KO can be partially rescued by restoring SIRT3 and SIRT4 levels, which were significantly downregulated in SIRT6-deficient brains. Both of them are localized in mitochondria and impact mitochondrial pathways related to redox homeostasis and cellular metabolism [38] and have important roles in mitochondria metabolism ROS balance and lifespan [50,51,52]. The analysis of our and publicly available gene expression data [39] confirms that SIRT6 transcriptionally regulates SIRT3 and SIRT4. Our analysis further indicates that SIRT6 regulates mitochondrial gene expression through the transcription factor YY1. We have previously shown that SIRT6 and YY1 form a complex that regulates many shared target genes [24]. Our analysis of YY1 ChIP-seq data [53] suggests that SIRT6 and YY1 regulate mitochondrial processes coordinately.

Feb 16, 2023

‘Young Blood’ Anti-Aging Drug Discovered By Columbia University

Posted by in categories: biotech/medical, life extension

Potentially huge. Effecting blood plasma via a pill. This is of course a mice experiment and they are working to see if the process happens in humans too.


Some wealthy elites prefer young blood plasma transfusions for anti-aging purposes. There are suggestions that the body’s organs are rejuvenated by young blood. However, a recent study from Columbia University in New York suggests that anti-inflammatory drugs can rejuvenate the body and possibly extend the human lifespan by decades, negating the need for blood transfusions to turn back the body’s clock.

According to Emmanuelle Passegué, Ph.D., director of the Columbia Stem Cell Initiative, who has been researching how blood changes with age, “an aging blood system, because it’s a vector for a lot of proteins, cytokines, and cells, has a lot of bad consequences for the organism,”

Feb 15, 2023

What time you exercise may be more important than the workout itself

Posted by in categories: biotech/medical, life extension

The Methuselah Foundation is a non-profit medical charity focused on extending the healthy human lifespan by making 90 the new 50 by 2030. Our goal is to accelerate results in the longevity field, as well as the biotechnology, regenerative medicine, life sciences sectors. We incubate and sponsor mission-relevant ventures, fund research, and support projects and prizes.

Feb 15, 2023

Loneliness: The unspoken side-effect of aging

Posted by in categories: biotech/medical, life extension, neuroscience

When people talk about the problems of aging, they most often focus on aches and pains, chronic conditions like heart failure or diabetes, and neurological disorders like Parkinson’s or Alzheimer’s. Often overlooked is the extremely common problem of loneliness.

Feb 15, 2023

Blockchain and crypto are rewriting the rules about longevity funding

Posted by in categories: biotech/medical, blockchains, life extension

The Methuselah Foundation is a non-profit medical charity focused on extending the healthy human lifespan by making 90 the new 50 by 2030. Our goal is to accelerate results in the longevity field, as well as the biotechnology, regenerative medicine, life sciences sectors. We incubate and sponsor mission-relevant ventures, fund research, and support projects and prizes.

Feb 15, 2023

RNA’s ‘joints’ play key role in our gene expression, scientists find

Posted by in categories: biotech/medical, evolution, life extension, neuroscience

University of Chicago scientists have discovered a new wrinkle in our understanding of how our genes work. The team, led by Chuan He, the UChicago John T. Wilson Distinguished Service Professor of Chemistry, Biochemistry and Molecular Biology, shed light on a longstanding puzzle involved in a common way our genes are modified that is known as RNA methylation.

Published Jan. 27 in Science, the finding could have implications for for disease, as well as our picture of gene expression, development, and evolution.

For more than a decade, Chuan He’s laboratory has been focused on trying to unravel the puzzle of a phenomenon called RNA methylation, which we are increasingly understanding plays a key role in our bodies and lives—everything from cancer to PTSD to aging.