Arguing for an Expansion of the Hallmarks of Aging
The hallmarks of aging form a catalog of largely better studied changes in cells and tissues considered relevant, and possibly more important, in the onset and development of age-related degeneration and disease. This is not the same thing as a list of causes of aging. A few of the hallmarks mostly likely are or include deeper causes of aging, or close to causes of aging. The hallmarks do overlap with the SENS description of aging as a set of root causes, forms of molecular damage that result from the normal operation of a youthful metabolism. Since the hallmarks of aging are not, and are not intended to be a list of cause...
Source: Fight Aging! - September 5, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, September 5th 2022
Conclusion
Coupled with the animal data, and the existing human trial data for safety, the results here suggests that someone should run a formal, controlled trial of flagellin immunization in older people, 65 and over. The goal would be to see whether (a) this sort of outcome holds up in a larger group of people, and (b) there is a meaningful impact on chronic inflammation and other parameters of health that are known to be affected by the aging of the gut microbiome.
The most interesting part of the data is perhaps the decline in microbial diversity, when considered against the gains elsewhere. Microbial dive...
Source: Fight Aging! - September 4, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Wanted: NIGMS Program Directors
We’re recruiting scientists for positions in our Division for Research Capacity Building (DRCB); Division of Biophysics, Biomedical Technology, and Computational Biosciences (BBCB); and Division of Genetics and Molecular, Cellular, and Developmental Biology (GMCDB). The successful applicants will be responsible for scientific and administrative management of a portfolio of research grants and/or research training and career development awards, and will stimulate, plan, advise, direct, and evaluate program activities related to their field of expertise.
The DRCB position involves the management of grants support...
Source: NIGMS Feedback Loop Blog - National Institute of General Medical Sciences - September 1, 2022 Category: Biomedical Science Authors: Chrissa Chverchko Tags: Job Announcements Source Type: blogs
Cardiomyopathy in muscular dystrophies
Important muscular dystrophies due to mutations in structural cytoskeletal dystrophin gene are known as dystrophinopathies. They include Duchenne muscular dystrophy, Becker muscular dystrophy and X-linked dilated cardiomyopathy. Primary presentation of most dystrophinopathies is skeletal muscle weakness. Duchenne muscular dystrophy is caused by mutations leading to absence of functional dystrophin. Becker muscular dystrophy is due to mutations resulting in reduced amounts of shortened dystrophin protein.
Cardiac muscle being a striated muscle, is affected in many types of muscular dystrophies. Cardiomyopathy would contrib...
Source: Cardiophile MD - August 30, 2022 Category: Cardiology Authors: Johnson Francis Tags: General Cardiology Source Type: blogs
Fight Aging! Newsletter, August 29th 2022
This study demonstrates that adoptive astrocytic Mt transfer enhances neuronal Mn-SOD-mediated anti-oxidative defense and neuroplasticity in the brain, which potentiate functional recovery following ICH.
First Generation Stem Cell Therapies Remain Comparatively Poorly Understood
https://www.fightaging.org/archives/2022/08/first-generation-stem-cell-therapies-remain-comparatively-poorly-understood/
We are something like thirty years into the increasingly widespread use of first generation stem cell therapies. Cells are derived from a variety of sources, processed, and transplanted into patients. Near all...
Source: Fight Aging! - August 28, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Chromatin Structure in Cell Aging and Senescence
The constantly changing structure of nuclear DNA, packaged into chromatin, determines which genes are accessible to the machinery of gene expression, which determines protein production, which determines cell behavior and state. Chromatin structure and all of the determinants of that structure, including epigenetic marks such as DNA methylation, change as a cell ages towards the Hayflick limit and cellular senescence, and change in aged tissues versus young tissues. Given the advent of epigenetic reprogramming as a potential strategy for rejuvenation, questions regarding the ways in which epigenetics determines cell functi...
Source: Fight Aging! - August 26, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
The Idea that Epigenetic Clocks Will Point to Causes of Aging
This popular science article on the development and present use of epigenetic clocks mentions the view that the clocks will point the way to a better understanding of the causes of aging. I'm dubious that use of the clocks represents a better way forward to that goal than the approach of implementing the various rejuvenation therapies outlined in the SENS proposals. A potential rejuvenation therapy that affects just one potential root cause of aging in isolation will tell us a lot about the importance and validity of that cause; researchers are learning a great deal from the ability to selectively destroy senescent cells, ...
Source: Fight Aging! - August 25, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Connections Between Epigenetic Aging and Nuclear DNA Damage
Today's open access paper reviews what is known of the connections between epigenetic aging and the nuclear DNA damage that occurs across a lifetime, and particularly in later life. Some of this DNA damage is more evidently connected with the epigenetic regulation that determines the packaging and structure of nuclear DNA, such as the activity of transposable elements, restrained in youth, but unleashed to copy themselves in later life, damaging genes as they do so. It is important to note that the relationship of cause and consequence between nuclear DNA damage and epigenetic change is likely a two-way street, particularl...
Source: Fight Aging! - August 24, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Fight Aging! Newsletter, August 22nd 2022
In conclusion, application of a multi-species bat epigenetic clock provides strong evidence that hibernation is associated with slower epigenetic ageing. The multi-species clock explains 94% of the variation in the chronological ages of both hibernating and non-hibernating big brown bats; however, the clock estimates are equal to or greater than the chronological age, suggesting big brown bats age slightly faster than a 'typical' bat, especially during the active period. (Source: Fight Aging!)
Source: Fight Aging! - August 21, 2022 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
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
A Modest Gain in Mouse Lifespan via Pharmacological Means of CISD2 Upregulation
The usual progression of ways to tinker with metabolism in order to affect the pace of aging is much as follows: (a) identify an interesting mechanism associated with a single gene; (b) create mouse lineages in which the expression of this gene is manipulated in a controlled way via genetic engineering, to observe the outcomes; (c) use some form of gene therapy to overexpress or knock down that gene in mice, and note differences in life span and manifestations of aging; (d) search the drug databases for small molecules that might affect expression of the gene of interest without causing too many undesirable side-effects; (...
Source: Fight Aging! - August 5, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Career Conversations: Q & A with Biochemist Alexis Komor
Dr. Alexis Komor. Credit: Michelle Fredricks.
“DNA is an amazingly beautiful molecule, and it’s so important. Each of our cells has only one copy of DNA, and if it gets damaged, that messes up everything else in the cell,” says Alexis Komor, Ph.D., an assistant professor of chemistry and biochemistry at the University of California, San Diego (UCSD). Check out the highlights of our interview with Dr. Komor to learn about her scientific journey, research on DNA, and advice for students.
Q: How did you decide to study chemistry?
A: I really enjoyed math and science in middle and high school. When I applied to c...
Source: Biomedical Beat Blog - National Institute of General Medical Sciences - August 3, 2022 Category: Research Authors: Chrissa Chverchko Tags: Being a Scientist Genes DNA Gene Editing Genomics Profiles 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
Autophagy as a Therapeutic Target
Plenty of evidence points to improvement in the cellular maintenance processes of autophagy (primarily macroautophagy and chaperone-mediated autophagy) as the primary mechanism by which the response to mild stress improves health and extends life. Autophagy recycles broken molecules and damaged structures in the cells. More recycling implies better function, a lesser burden of damage and dysfunction at any given time. This underlies the extension of life span resulting from calorie restriction, for example. Researchers are interested in the development of drugs that mimic these stress responses by artificially upregulating...
Source: Fight Aging! - July 29, 2022 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Doubling Down on the Failure of Amyloid- β Clearance
After decades of work, researchers have finally achieved therapies that can effectively clear amyloid-β aggregates from the brains of patients with Alzheimer's disease. Unfortunately clinical trials have shown no robust benefit to patients as a result. As illustrated by today's open access paper, a sizable contingent in the research community feel that the evidence for amyloid-β aggregation to be the root of the condition remains convincing. Failure means, in their eyes, that the challenge is more difficult than hoped, and the answer should be an increased effort to run longer clinical trials, find more and better anti-a...
Source: Fight Aging! - July 28, 2022 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
