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Fight Aging! Newsletter, August 8th 2022
In conclusion, aging research will benefit from a better definition of how specific regulators map onto age-dependent change, considered on a phenotype-by-phenotype basis. Resolving some of these key questions will shed more light on how tractable (or intractable) the biology of aging is.
Does Acarbose Extend Life in Short Lived Species via Gut Microbiome Changes?
https://www.fightaging.org/archives/2022/08/does-acarbose-extend-life-in-short-lived-species-via-gut-microbiome-changes/
Acarbose is one of a few diabetes medications shown to modestly slow aging in short-lived species. Researchers here take a ...
Source: Fight Aging! - August 7, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, August 1st 2022
In this study, we used the recently released Infinium Mouse Methylation BeadChip to compare such epigenetic modifications in C57BL/6 (B6) and DBA/2J (DBA) mice. We observed marked differences in age-associated DNA methylation in these commonly used inbred mouse strains, indicating that epigenetic clocks for one strain cannot be simply applied to other strains without further verification. Interestingly, the CpGs with highest age-correlation were still overlapping in B6 and DBA mice and included the genes Hsf4, Prima1, Aspa, and Wnt3a. Furthermore, Hsf4, Aspa, and Wnt3a revealed highly significant age-associated DNA methyla...
Source: Fight Aging! - July 31, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Hunting Disease-Causing Genetic Variants
Dr. Miriam Meisler. Credit: University of Michigan Medical School.
“In my lab, we’ve been gene hunters—starting with visible phenotypes, or characteristics, and searching for the responsible genes,” says Miriam Meisler, Ph.D., the Myron Levine Distinguished University Professor at the University of Michigan Medical School in Ann Arbor. During her career, Dr. Meisler has identified the functions of multiple genes and has shown how genetic variants, or mutations, can impact human health.
Becoming a Scientist
Dr. Meisler had a strong interest in science as a child, which she credits to “growing up at the tim...
Source: Biomedical Beat Blog - National Institute of General Medical Sciences - June 29, 2022 Category: Research Authors: Chrissa Chverchko Tags: Being a Scientist Genes Injury and Illness Diseases DNA Profiles Research Organisms Scientific Process Source Type: blogs
Fight Aging! Newsletter, June 20th 2022
This study showed a negative relationship between the gaps and the number of senescence cells. Moreover, we found a similar reduction in 30-month-old naturally and 7-month-old D-gal-induced aging rats. Given these consistent data from different eukaryotic organisms, it suggests that the Youth-DNA-GAP is a marker of phenotype-related aging degree
Towards Scaffold-Based Regeneration of Dental Pulp
https://www.fightaging.org/archives/2022/06/towards-scaffold-based-regeneration-of-dental-pulp/
Researchers are working towards the ability to regenerate the dental pulp inside teeth. Full regeneration of teeth h...
Source: Fight Aging! - June 19, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, June 6th 2022
This study examines evidence suggesting that mitochondrial dysfunction plays a significant early impact on AD pathology.
Although mitochondrial dysfunction is a typical indication of Alzheimer's disease, it is unclear whether the cellular systems that maintain mitochondrial integrity malfunction, aggravating mitochondrial pathology. Different levels of vigilance and preventive methods are used to reduce mitochondrial damage and efficiently destroy faulty mitochondria to maintain the mitochondrial equilibrium. The form and function of mitochondria are regulated by mitochondrial fusion and fission. In contrast, mitoch...
Source: Fight Aging! - June 5, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, May 30th 2022
In conclusion, fisetin supplementation may be a novel strategy to target excess cellular senescence and thereby reduce mitochondrial ROS to improve NO-mediated endothelial function with aging.
Exercise Upregulates BDNF Expression to Promote Dopamine Release and Brain Function
https://www.fightaging.org/archives/2022/05/exercise-upregulates-bdnf-expression-to-promote-dopamine-release-and-brain-function/
Researchers have in the past shown that exercise results in greater amounts of BDNF, which in turn promotes neurogenesis. Here, this line of research is extended to show that exercise results in an increas...
Source: Fight Aging! - May 29, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, May 16th 2022
Fight Aging! publishes news and commentary relevant to the goal of ending all age-related disease, to be achieved by bringing the mechanisms of aging under the control of modern medicine. This weekly newsletter is sent to thousands of interested subscribers. To subscribe or unsubscribe from the newsletter,
please visit:
https://www.fightaging.org/newsletter/
Longevity Industry Consulting Services
Reason, the founder of Fight Aging! and Repair Biotechnologies, offers strategic consulting services to investors, entrepreneurs, and others interested in the longevity industry and its complexities. To find out m...
Source: Fight Aging! - May 15, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
SIRT6 in Aging, Immunity, and Cancer
A lot of work has gone into better understanding the roles of sirtuin 1 (SIRT1) in aging, ultimately something of a dead end, not a large enough influence on relevant areas of cellular biochemistry to produce viable treatments to slow aging. Sirtuin 6 (SIRT6), on the other hand is less well explored, but somewhat more interesting, even though it is likely still only a path towards therapies that can do not more than modestly slow aging over time. Overexpression of SIRT6 extends life in mice. One of the possible mechanisms for that extension of life is promotion of DNA repair, and a startup biotech company is working on a S...
Source: Fight Aging! - May 10, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, May 9th 2022
In conclusion, although several favorable effects are obtained in our heterochronic non-myeloablative transplantation model, additional optimization is needed for better rejuvenation effects.
More on GPNMB as a Target for Senolytic Therapies to Clear Senescent Cells
https://www.fightaging.org/archives/2022/05/more-on-gpnmb-as-a-target-for-senolytic-therapies-to-clear-senescent-cells/
You might recall that researchers recently demonstrated that vaccination against GPNMB is a senolytic strategy, reducing the harmful burden of senescent cells in aged tissues by directing the immune system to destroy these c...
Source: Fight Aging! - May 8, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, May 2nd 2022
In this study, we tested the therapeutic potential of VHHASC and a newly generated VHH against murine ASC (VHHmASC) to target ASC specks in vitro and in vivo. We show that pre-incubation of extracellular ASC specks with VHHASC abrogated their inflammatory functions in vitro. Recombinant VHHASC rapidly disassembled pre-formed ASC specks and thus inhibited their ability to seed the nucleation of soluble ASC. Notably, VHHASC required prior cytosolic access to prevent inflammasome activation within cells, but it was effective against extracellular ASC specks released following caspase-1-dependent loss of membrane integrity, an...
Source: Fight Aging! - May 1, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
An Outline of Present Work on Partial Reprogramming as a Rejuvenation Therapy
Here I'll point out a good, lengthy introduction to the ongoing, suddenly very well funded work on partial reprogramming as the basis for rejuvenation therapies. Reprogramming somatic cells to induced pluripotent stem cells requires exposure to the Yamanaka factors, but is a lengthy process with low efficiency. Early in that process, epigenetic patterns in a cell are restored to a more youthful configuration without the loss of differentiated somatic cell state, and this is the goal that partial reprogramming aims to achieve: restore mitochondrial function and many other cell activities in old tissues without changing cell...
Source: Fight Aging! - April 25, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, April 25th 2022
We examined central genetic and environmental lifespan regulators (putative anti-aging interventions, PAAIs; the following PAAIs were examined: mTOR loss-of-function, loss-of-function in growth hormone signaling, dietary restriction) for a possible countering of the signs and symptoms of aging. Importantly, in our study design, we included young treated groups of animals, subjected to PAAIs prior to the onset of detectable age-dependent phenotypic change. In parallel to our studies in mice, we assessed genetic variants for their effects on age-sensitive phenotypes in humans.
We observed that, surprisingly, many PAAI...
Source: Fight Aging! - April 24, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, April 18th 2022
In conclusion, our results suggest that SAH extends lifespan by inducing MetR or mimicking its downstream effects. Since the lifespan-extending effects of SAH are conserved in yeast and nematodes, and MetR extends the lifespan of many species, exposure to SAH is expected to have multiple benefits across evolutionary boundaries. Our findings offer the enticing possibility that in humans the benefits of a MetR diet can be achieved by promoting Met reduction with SAH. The use of endogenous metabolites, such as SAH, is considered safer than drugs and other substances, suggesting that it may be one of the most feasible ways to ...
Source: Fight Aging! - April 17, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, April 4th 2022
Fight Aging! publishes news and commentary relevant to the goal of ending all age-related disease, to be achieved by bringing the mechanisms of aging under the control of modern medicine. This weekly newsletter is sent to thousands of interested subscribers. To subscribe or unsubscribe from the newsletter,
please visit:
https://www.fightaging.org/newsletter/
Longevity Industry Consulting Services
Reason, the founder of Fight Aging! and Repair Biotechnologies, offers strategic consulting services to investors, entrepreneurs, and others interested in the longevity industry and its complexities. To find out m...
Source: Fight Aging! - April 3, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, March 21st 2022
This study was the first to examine how these networks interact with physical activity and fitness to impact how the brain functions.
"This paper is exciting because it gives us some evidence that when people whose brain networks aren't functioning optimally engage in physical activity, we see improvement in their executive function and their independence. Maybe just take the stairs on the way to work. Stand up and walk around a little bit more. That's where you get the most bang for your buck, not crazy, high-intensity exercise."
Variations in Biological Age Across Organs in Younger Individuals
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Source: Fight Aging! - March 20, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
