Fight Aging! Newsletter, January 8th 2024
This study examined whether the local injection of the supernatant of activated PRP (saPRP) into the salivary gland (SG) could help prevent aging-induced SG dysfunction and explored the mechanisms responsible for the protective effects on the SG hypofunction.
Human salivary gland epithelial cells (hSGEC) were treated with saPRP or PRP after senescence through irradiation. The significant proliferation of hSGEC was observed in saPRP treated group compared to irradiation only group and irradiation + PRP group. Cellular senescence, apoptosis, and inflammation were significantly reduced in the saPRP group.
Th...
Source: Fight Aging! - January 7, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Failing Mitochondrial Quality Control in Aging and Neurodegeneration
Every one of our cells contains hundreds of mitochondria, the descendants of ancient symbiotic bacteria now fully integrated into our biochemistry. Mitochondria contain their own small remnant genome, the mitochondrial DNA, replicate like bacteria, and toil to produce adenosine triphosphate (ATP), a chemical energy store molecule used to power cell processes. Mitochondrial function declines with age, unfortunately, and our cells suffer for it. This contributes meaningfully to many age-related conditions. This decline appears to result in large part from changes in gene expression that impair the various quality control pro...
Source: Fight Aging! - January 2, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, December 25th 2023
This study generates a comprehensive single-cell transcriptomic atlas of human atherosclerosis including 118,578 high-quality cells from atherosclerotic coronary and carotid arteries. By performing systematic benchmarking of integration methods, we mitigated data overcorrection while separating major cell lineages. Notably, we define cell subtypes that have not been previously identified from individual human atherosclerosis scRNA-seq studies.
Besides characterizing granular cell-type diversity and communication, we leverage this atlas to provide insights into smooth muscle cell (SMC) modulation. We integrate genome...
Source: Fight Aging! - December 24, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Inflammaging in the Inner Ear, a Path to Hearing Loss
Inflammaging is a blanket term for the inappropriate inflammatory reaction of the immune system to the accumulation of molecular damage and other changes that take place with age. Constant, low-grade, unresolved inflammatory activation of the immune system is a feature of aging. It alters cell behavior for the worse and is disruptive to tissue structure and function. A number of different mechanisms contribute to forming and maintaining the state of inflammaging, such as pro-inflammatory signaling produced by ever-larger numbers of senescent cells, and innate immune recognition of mislocalized mitochondrial DNA that result...
Source: Fight Aging! - December 20, 2023 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, December 11th 2023
In this study, a single treatment at the peak of disease resulted in the ablation of senescent cells in the lung and attenuation of key fibrotic and inflammatory markers, which ultimately resolved fibrosis. Deciduous Therapeutics has used computational assisted design to synthesise a suite of proprietary therapies that could be used in the clinic to re-activate tissue-resident iNKT cells. To date, the company's lead program has shown single-dose efficacy in resolving both metabolic and fibrotic diseases along with a favorable safety profile at doses significantly higher than the efficacious dose.
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Source: Fight Aging! - December 10, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Towards Drugs to Treat Sarcopenia
Here, researchers review present efforts to develop drugs to treat sarcopenia, the age-related loss of muscle mass and strength that occurs in every individual, leading to eventual frailty. As a snapshot of the research and development community, it is representative of efforts across age-related disease generally, in that the primary focus falls on more easily developed options that cannot possibly produce results larger than those resulting from exercise, particular resistance exercise. This is the unfortunate outcome of the present medical regulatory system, in which the costs of regulatory approval are made so high tha...
Source: Fight Aging! - December 6, 2023 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Lower Mitochondrial Copy Number Correlates with Risk of Age-Related Macular Degeneration
Lower mitochondrial copy number, meaning fewer copies of mitochondrial DNA and thus presumably fewer mitochondria in a cell, is here shown to correlate with the presence of age-related macular degeneration in older individuals. Mitochondrial copy number is one approach to measuring the degree of mitochondrial dysfunction present in tissues. In the study here, it is assessed in blood samples, and is thus a measure of the health of immune cells, the degree to which they are impacted by processes of aging. Many aspects of aging tend to correlate with one another, as aging emerges from a web of various forms of damage and dysf...
Source: Fight Aging! - December 6, 2023 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, December 4th 2023
This study produced a great deal of data that continues to be mined for insights into human aging and effects of calorie restriction in a long-lived species such as our own, to contrast with the sizable effects on health and longevity in short-lived species such as mice.
In particular, and the topic for today, cellular senescence and its role in degenerative aging has garnered far greater interest in the research community in the years since the CALERIE study took place. Thus in today's open access paper, scientists examine CALERIE study data to find evidence for calorie restriction to reduce the burden of cellular ...
Source: Fight Aging! - December 3, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Mild Mitochondrial Inhibition Slows Aging in Nematode Worms
Researchers here demonstrate that means of mildly inhibiting the production of some of the protein machinery used to generate chemical energy store molecules, adenosine triphosphate, in mitochondria can extend life by 50-70% in nematode worms - a species in which much larger life extension is possible, so this might be viewed as a moderate effect size. Many different approaches to adjusting mitochondrial function can slow aging and extend life in short-lived species. In some cases this works by provoking mitochondria into an alternative pathway for ATP generation that produces a little more oxidative stress than usual, tri...
Source: Fight Aging! - November 30, 2023 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
A Novel Mitophagy Inducing Compound
A sizable fraction of research aimed at treating aging involves screening natural compounds in search of those that can modestly slow aging in short-lived animal models. This is because the economics of developing such a compound into a drug or supplement are well understood by investors, and because it dovetails well with the scientific goal of increased understanding of how aging progresses at the level of cellular biochemistry, rather than because it is going to make a big difference for patients. If sizable gains in healthy life span were the driving incentive, the field would look very different, and the emphasis woul...
Source: Fight Aging! - November 24, 2023 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
USP30 Inhibition Stops Progression of Parkinson's Disease in Mice
Parkinson's disease arises from the spread of misfolded α-synuclein proteins in the nervous system. This produces a wide array of dysfunction, but the most vulnerable cell population to this particular form of neurodegenerative pathology are domaminergenic cells. Their loss provokes the most evident symptoms of the condition. As noted here, this vulnerability appears to have something to do with clearance of damaged mitochondria, and thus with mitochondrial function more generally. Researchers are investigating ways to improve the situation, such as this representative small molecule approach.
Parkinson's disease...
Source: Fight Aging! - November 24, 2023 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, November 20th 2023
In this study, we attempted to further explain the role, exact mechanism and target of ICA in treating AD from the ferroptosis perspective. We found that ICA could improve the neurobehavioral, memory, and motor abilities of AD mice. It could lower the ferroptosis level and enhance the resistance to oxidative stress. After inhibition of MDM2, ICA could no longer improve the cognitive ability of AD mice, nor could it further inhibit ferroptosis. Network pharmacological analysis revealed that MDM2 might be the target of ICA action.
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Particulate Air Pollution and Its Effects on the Mechan...
Source: Fight Aging! - November 19, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
A Path to Increasing Glutathione Levels in Mitochondria
Glutathione is an interesting cellular antioxidant, as increased levels can improve health in humans and slow aging in animal models. You might recall recent small human trials of high dose supplementation of glutathione precursors in order to achieve upregulation of glutathione, and corresponding studies in mice. It is thought that glutathione upregulation may largely improve health via mitochondrial function, as mitochondria are a prominent source of oxidative stress in aging cells. Here, researchers find a mechanism that regulates the amount of glutathione that enters the mitochondria, and thus a possible target to incr...
Source: Fight Aging! - November 15, 2023 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, November 13th 2023
This study investigated the correlation among muscle strength, working memory (WM), and cortical hemodynamics during the N-back task of memory performance, and further explored whether cortical hemodynamics during N-back task mediated the relationship between muscle strength and WM performance. We observed that muscle strength (particularly grip strength) predicted WM of older adults in this cross-sectional study, which validated our hypothesis and expanded on previous research findings. Studies demonstrated that grip strength predicted executive function decline in patients with mild cognitive impairment. Other cross-sect...
Source: Fight Aging! - November 12, 2023 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
The Immune System Mediates Some of the Benefits of Exercise
It is uncontroversial to point out that exercise is good for long-term health. It slows aging, reduces risk of age-related disease, reduces mortality. A mountain of evidence supports these assertions, both animal studies demonstrating causation, and any number of large human studies showing correlation. Exercise, like the practice of calorie restriction, produces sweeping changes in the operation of metabolism. Near everything is different, both in the short term following exercise, and over the long term when looking at differences between the biochemistry of a fit individual versus that a sedentary individual. This can m...
Source: Fight Aging! - November 10, 2023 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
