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Total 1175 results found since Jan 2013.

Fight Aging! Newsletter, July 3rd 2023
In this study, cultured adipose-derived stem cells (ASCs) were derived from subcutaneous white adipose tissue isolated from mice fed a normal diet. We performed senescence-associated-β-galactosidase (SA-β-gal) staining, real-time PCR, and Western blot to evaluate the levels related to cellular senescence markers. The mRNA expression levels of senescence markers were significantly increased in the later passages of ASCs. We show that light activation reduced the expression of senescent genes, and SA-β-Gal in all cells at passages. Moreover, the light-activated ASCs-derived exosomes decrease the expression of senes...
Source: Fight Aging! - July 2, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, June 26th 2023
This study explored the association between different cooking fuel types and the risk of cancer and all-cause mortality among seniors constructing Cox regression models. Data were obtained by linking waves of 6, 7, and 8 of the Chinese Longitudinal Healthy Longevity Survey, which included a total of 7,269 participants who were 65 years old and over. Cooking fuels were categorized as either biomass, fossil, or clean fuels. And the effects of switching cooking fuels on death risk were also investigated using Cox regression models. The results indicate that, compared with the users of clean fuels, individuals using bio...
Source: Fight Aging! - June 25, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, June 19th 2023
In conclusion, among Swedish middle-aged subjects, nearly two-thirds showed complete fatty degeneration of thymus on CT. Age-Related Dysfunction of Water Homeostasis https://www.fightaging.org/archives/2023/06/age-related-dysfunction-of-water-homeostasis/ Dehydration can be an issue in older people. As in every complex system in the body, the mechanisms by which hydration is regulated become dysfunctional with advancing age. Researchers here look at the brain region responsible for regulating some of the response to dehydration, cataloging altered gene expression in search of the more important mechani...
Source: Fight Aging! - June 18, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Notes from the 2023 Age-Related Disease Therapeutics Summit
The former Longevity Therapeutics conference series was renamed to the Age-Related Disease Therapeutics Summit and held its fifth event recently in San Francisco. It was a smaller meeting than in past years, perhaps a result of the recent downturn in the global financial and investment environment. Few investors were present. Nonetheless, one can usually learn something interesting from the presenting biotech founders and executives. I took a few notes while I was there to present on progress at Repair Biotechnologies, and they follow in the order of the conference program. Birget Schilling from the Buck Institute f...
Source: Fight Aging! - June 16, 2023 Category: Research Authors: Reason Tags: Longevity Industry Source Type: blogs

“We Are Electric” by Sally Adee: Medgadget Interviews the Author
The human body has a deep connection with electricity. The transmission of electrical impulses is responsible for the movement of our limbs, the functioning of our organs, and the formation and recall of memories. The signatures of the various electr...
Source: Medgadget - June 12, 2023 Category: Medical Devices Authors: Scott Jung Tags: Education etc. Exclusive Source Type: blogs

Fight Aging! Newsletter, June 12th 2023
In this study, we investigated the effect of NXP032 on neurovascular stabilization through the changes of PECAM-1, PDGFR-β, ZO-1, laminin, and glial cells involved in maintaining the integrity of the blood-brain barrier (BBB) in aged mice. NXP032 was orally administered daily for 8 weeks. Compared to young mice and NXP032-treated mice, 20-month-old mice displayed cognitive impairments in Y-maze and passive avoidance tests. NXP032 treatment contributed to reducing the BBB damage by attenuating the fragmentation of microvessels and reducing PDGFR-β, ZO-1, and laminin expression, thereby mitigating astrocytes and microglia ...
Source: Fight Aging! - June 11, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, May 29th 2023
In this study, we used a Drosophila model to understand the role of the dec2P384R mutation on animal health and elucidate the mechanisms driving these physiological changes. We found that the expression of the mammalian dec2P384R transgene in fly sleep neurons was sufficient to mimic the short sleep phenotype observed in mammals. Remarkably, dec2P384Rmutants lived significantly longer with improved health despite sleeping less. In particular, dec2P384R mutants were more stress resistant and displayed improved mitochondrial fitness in flight muscles. Differential gene expression analyses went on to reveal several altered tr...
Source: Fight Aging! - May 28, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Reviewing the Complexity of Immunosenescence
The immune system becomes more inflammatory and less competent with advancing age, undergoing sweeping changes in immune cell characteristics and relative population sizes. The cells, structures, and processes that produce immune cells similarly undergo significant changes. Taken together, this is called immunosenescence, though many researchers choose to break out the inflammatory component of dysfunction into its own category, calling it inflammaging. One of the most important goals for the research community is to find ways to improve immune function in older people. Evidently, the decline of the immune system is...
Source: Fight Aging! - May 22, 2023 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs

Fight Aging! Newsletter, May 22nd 2023
Conclusions to be Drawn A High Fat Diet Accelerates Atherosclerosis Less Directly than One Might Suspect How to Construct Measures of Biological Age A Long-Term Comparison of Metformin in Diabetics with Non-Diabetic Controls In Search of Distinctive Features of the Gut Microbiome in Long-Lived Individuals Greater Fitness in Humans Implies a Younger Epigenome and Transcriptome Intestinal Barrier Dysfunction as a Feature of Aging in Many Species NAFLD as an Age-Related Condition Towards Sensory Hair Cell Regeneration in the Inner Ear Raised Levels of PLG...
Source: Fight Aging! - May 21, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Fight Aging! Newsletter, May 15th 2023
In this study, we examined the average telomere length and telomerase activity, as well as the formation of telomere associated foci (TAFs) and the mRNA expression levels of the shelterin components in cultured primary cells of Spalax, a long-lived, hypoxia-tolerant, and cancer-resistant blind mole-rat species. We showed that with cell passages, Spalax fibroblasts demonstrated significant shortening in telomere length, similar to rat cells, and in line with the processes observed earlier in tissues. We also demonstrated that the average telomere length in Spalax fibroblasts was significantly higher than the average ...
Source: Fight Aging! - May 14, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

The Relationship Between Telomere Length and Replicative Senescence is Quite Different in Blind Mole Rats
In this study, we examined the average telomere length and telomerase activity, as well as the formation of telomere associated foci (TAFs) and the mRNA expression levels of the shelterin components in cultured primary cells of Spalax, a long-lived, hypoxia-tolerant, and cancer-resistant blind mole-rat species. We showed that with cell passages, Spalax fibroblasts demonstrated significant shortening in telomere length, similar to rat cells, and in line with the processes observed earlier in tissues. We also demonstrated that the average telomere length in Spalax fibroblasts was significantly higher than the average ...
Source: Fight Aging! - May 9, 2023 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs

Fight Aging! Newsletter, May 1st 2023
In conclusion, frailty progression accelerates in males with one LTCs and females with two LTCs or more. Health providers should be aware of planning a suitable intervention once the elderly have two or more health conditions. Plasma Transfer Lowers Epigenetic Age and Mortality in Rats https://www.fightaging.org/archives/2023/04/plasma-transfer-lowers-epigenetic-age-and-mortality-in-rats/ Plasma transfer from young to old individuals has produced mixed results in animals and little to no benefit in humans where assessed rigorously. These studies were driven by the hypothesis that young plasma contains me...
Source: Fight Aging! - April 30, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Exercise and Alternative Mechanisms of Telomerase
Discussion on the canonical and extra-telomeric roles of telomerase are presented, followed by a detailed summary of the evidence on how exercise influences telomerase. Finally, the potential cell signalling underpinning the exercise-induced modulation of telomerase are discussed with directions for future research. Link: https://doi.org/10.1111/acel.13836
Source: Fight Aging! - April 27, 2023 Category: Research Authors: Reason Tags: Daily News Source Type: blogs

Fight Aging! Newsletter, April 24th 2023
In this study, researchers show that mice lacking a functional ATF4 gene show little to no loss of grip strength and treadmill performance into late life; it is quite an impressive effect size. Assessments of muscle biochemistry do show age-related declines, but to a lesser degree than the controls. How ATF4 knockout functions to produce this outcome is an interesting question. The researchers point out a range of possible downstream and upstream targets that have been implicated in the regulation of muscle growth, but it will clearly require further work to identify the important mechanisms involved. Aging slowly...
Source: Fight Aging! - April 23, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs

Senescent Cells Induce Dedifferentiation in Salamander Regeneration
Regeneration from injury is an intricate dance of many different cell types: stem cells, somatic cells, cells that become senescent, and innate immune cells such as macrophages. This is true of every higher species, but what is the meaningful difference between species capable of regenerating entire limbs and internal organs, such as salamanders, and species that scar and exhibit only partial regeneration of lost tissue, such as near all mammals? In recent years, researchers have discovered that senescent cells and macrophages behave differently in injured tissues in species capable of proficient regeneration. Clearance of...
Source: Fight Aging! - April 21, 2023 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs