Aging Affects the Neural Regulation of Metabolism and Desired Food Intake
Researchers here make an interesting discovery in rats, finding an age-related change in the structure of specific neurons that encourages greater intake of calories and dysfunctional metabolism by suppressing satiation feedback. In rats this mechanism can be manipulated by diet and genetics to alter the pace at which older rats become overweight and metabolically abnormal. As is often the case in research, this discovery is a proximate cause to the problem of metabolic regulation, and it is entirely unclear as to how the deeper mechanisms of aging, such as chronic inflammation, mitochondrial dysfunction, and so forth, are...
Source: Fight Aging! - March 20, 2024 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Mitochondrial Dysfunction in the Aging of the Brain
Mitochondria are the power plants of the cell, primarily responsible for packaging adenosine triphosphate (ATP) molecules as chemical energy stores for use throughout the cell. Hundreds of mitochondria swarm inside every cell, the descendants of ancient symbiotic bacteria. These organelles retain many features characteristic of bacteria. For example, mitochondria contain a small circular genome, depleted of genes that have moved into the cell nucleus over evolutionary time. Mitochondria also constantly divide, fuse together, and swap component parts. Mitochondrial quality is controlled by the processes of mitophagy that re...
Source: Fight Aging! - March 19, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, March 11th 2024
In conclusion, this Mendelian randomization study found that Streptococcus was causally associated with Bioage acceleration. Further randomized controlled trials are needed to investigate its role in the aging process.
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Considering the Mechanisms of Vascular Calcification
https://www.fightaging.org/archives/2024/03/considering-the-mechanisms-of-vascular-calcification/
Harmful calcification of structures in the cardiovascular system proceeds alongside the development of the fatty lesions of atherosclerosis. Both disease processes are accelerated by chronic inflammation, but d...
Source: Fight Aging! - March 10, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Request for Startups in the Rejuvenation Biotechnology Space, 2024 Edition
Investors focused on funding biotechnology startups tend to exhibit herd behavior, much like investors everywhere these days. Funding is primarily deployed towards fads and popular trends, not necessarily towards what makes the most sense, even if sometimes the sensible manages to align with the popular. These days that means drug discovery platforms with a strong computational component and partial epigenetic reprogramming. But even in this environment, the path to true success is to work on important projects that few other people are touching. Be the champion for a potential solution to a tough, high-value, comparativel...
Source: Fight Aging! - March 8, 2024 Category: Research Authors: Reason Tags: Investment Source Type: blogs
A Way in Which Mitochondrial DNA Becomes Misplaced, Provoking Inflammation
Cells respond to the presence of DNA in the cytoplasm with inflammatory signaling, an evolved innate immune response that serves to protect against viral and bacterial infection. This becomes a problem when mitochondria become dysfunctional, as mitochondria contain their own small genome, the mitochondrial DNA. In the context of age-related mitochondrial dysfunction, and a number of other circumstances, fragments of mitochondrial DNA can find their way into the cell cytoplasm. The result is a link between mitochondrial dysfunction and the chronic inflammation of aging, though it remains unclear as to how much of this chara...
Source: Fight Aging! - March 8, 2024 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Arguing for Low Glutathione Levels to be Important in the Development of Parkinson's Disease
Glutathione is one of the more important cellular antioxidants. Delivery of glutathione via a range of mechanisms has been tested as a way to improve function in older individuals, with intriguing results in small clinical trials. The benefits include improved mitochondrial function and reduced inflammation. Delivery of antioxidants to mitochondria, where they can suppress the production of reactive oxygen species that takes place as a side-effect of the normal operation of these organelles, has been demonstrated to improve health and modestly slow aging in animal models. Unfortunately glutathione isn't orally bioavailable...
Source: Fight Aging! - March 7, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Catalase to Reduce Mitochondrial Oxidative Stress Does Not Reduce Cellular Senescence
Every cell contains hundreds of mitochondria, the descendants of ancient symbiotic bacteria now integrated into the cell. Mitochondria generate oxidative molecules as a consequence of the processes that generate the chemical energy store molecule adenosine triphosphate (ATP), used to power the cell. Those oxidative molecules cause damage, near all rapidly repaired. They also serve as signals, such as in the beneficial response to exercise. With aging, however, mitochondrial function becomes impaired and the degree of oxidative stress generated by the operation of mitochondria becomes harmful.
Researchers have in the...
Source: Fight Aging! - March 5, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, March 4th 2024
In conclusion, HSV (but not CMV) infection may be indicative of doubled dementia risk.
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Increased Dietary Leucine Activates mTOR Signaling in Macrophages, Accelerating Atherosclerosis
https://www.fightaging.org/archives/2024/02/increased-dietary-leucine-activates-mtor-signaling-in-macrophages-accelerating-atherosclerosis/
Leucine is an essential amino acid, only obtained from the diet rather than synthesized by our cells. Leucine supplementation has been proposed as a way to slow the loss of muscle mass with age, as leucine processing becomes dysregulated with aging in a way...
Source: Fight Aging! - March 3, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Fight Aging! Newsletter, February 26th 2024
In conclusion, mTORC1 signaling contributes to the ISC fate decision, enabling regional control of intestinal cell differentiation in response to nutrition.
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Reviewing the Development of Senotherapeutics to Treat Aging
https://www.fightaging.org/archives/2024/02/reviewing-the-development-of-senotherapeutics-to-treat-aging/
Senescent cells accumulate with age and contribute meaningfully to chronic inflammation and degenerative aging. Destroying these cells produces rapid and sizable reversal of age-related diseases in mice, demonstrating that the presence of senescence cells ...
Source: Fight Aging! - February 25, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Attempting to Determine Harmful versus Adaptive Changes Using Epigenetic Clock Techniques
The largest of the present challenges facing the use of epigenetic clocks to measure biological age is that there is no established causal connection between what the clock measures, meaning the methylation status of specific CpG sites on the genome, and specific aspects of the burden of age-related damage and dysfunction; e.g. which changes are due to chronic inflammation, which due to mitochondrial dysfunction, etc. Thus the results obtained from an epigenetic clock assay, the raw methylation data or the resulting epigenetic age, are not actionable. There is nothing one can do with that information to guide health practi...
Source: Fight Aging! - February 22, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, February 19th 2024
This study aimed to explore the metabolic mechanisms and potential biomarkers associated with declining HGS among older adults. We recruited 15 age- and environment-matched inpatients (age, 77-90 years) with low or normal HGS. Liquid chromatography-mass spectrometry (LC-MS) and 16S ribosomal DNA (rDNA) gene sequencing were performed to analyze the metabolome of serum and stool samples and the gut microbiome composition of stool samples. Spearman's correlation analysis was used to identify the potential serum and fecal metabolites associated with HGS.
We assessed the levels of serum and fecal metabolites belonging to...
Source: Fight Aging! - February 18, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Towards Ways to Interfere in the Inflammatory Response to Mislocalized Mitochondrial DNA
Some fraction of the chronic inflammation of aging emerges because mitochondrial stress and dysfunction causes ejection of mitochondrial DNA fragments into the cell cytoplasm, where these fragments trigger the cGAS-STING pathway and consequent inflammatory signaling. Cells have evolved to be vigilant to misplaced DNA in large part because it is a marker of viral or bacterial infection. Obtaining a better understanding of the mechanisms involved in this process may identify points of intervention, ways to selectively suppress either the exposure of mitochondrial DNA in the cytoplasm or the reaction to that DNA when it is ex...
Source: Fight Aging! - February 15, 2024 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Oxidative Stress and Cellular Senescence in Alzheimer's Disease
In this paper, the authors discuss the overlap between oxidative stress and growing numbers of senescent cells in the brain. Both are thought to contribute to neurodegenerative conditions such as Alzheimer's disease. The aging of the brain is complex, a web of interacting processes, causes, and consequences. It has proven to be difficult to determine which processes are more or less important; the only efficient way forward is to come up with interventions that remove just one contributing factor with minimal side-effects. That is now possible for senescent cells, and clinical trials are underway, but manipulation of oxida...
Source: Fight Aging! - February 12, 2024 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Fight Aging! Newsletter, February 12th 2024
In conclusion, frailty is a dynamic process, and improved frailty and remaining robust are significantly associated with lower risk of all-cause mortality and cardiovascular death in older people.
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Greater Individual Wealth Correlates with Longer Life Expectancy
https://www.fightaging.org/archives/2024/02/greater-individual-wealth-correlates-with-longer-life-expectancy/
Individual wealth correlates with life expectancy, with an effect size that is in the same ballpark as those related to lifestyle choices involving exercise, diet, and consequences thereof. It remains unclear...
Source: Fight Aging! - February 11, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
A Mitochondrial View of Muscle Aging
The hundreds of mitochondria present in every cell are primarily responsible for generating adenosine triphosphate, a chemical energy store molecule used to power cell operations. Mitochondria are the descendants of ancient symbiotic bacteria, and carry a small circular genome, the mitochondrial DNA. They replicate as needed, can fuse together and swap component parts, and damaged mitochondria are removed by cell maintenance processes. Mitochondrial function declines with age for a variety of reasons that include damage to mitochondrial DNA and changes in the expression of genes involved in replication, fusion, and quality...
Source: Fight Aging! - February 7, 2024 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
