Sea Urchins as a Model of Negligible Senescence
Species that exhibit negligible senescence tend to be long-lived, but more interestingly appear to exhibit few to none of the functional declines of degenerative aging until very late in life, quite unlike the situation for most mammals, and particularly for humans. One can argue that the most useful species that exhibit negligible senescence are those with near relative species that age more normally. The closer the relative, the more likely it is that comparing the biochemistry of the two will lead to new knowledge regarding aging. So naked mole rats versus other, less long-lived mole rats, Brandt's bat versus other shor...
Source: Fight Aging! - April 17, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
Science Snippet: Breaking Down Biodegradability
Have you ever noticed plastic utensils or paper plates labeled as “biodegradable” and wondered what that meant? Materials are biodegradable when microorganisms such as bacteria can break them down into their building blocks.
Biodegradable Plastics
Plastic is everywhere: Milk jugs, grocery bags, and takeout containers are just a few examples. There are many types of plastic, but they’re all made up of long chains of repeating subunits called polymers. These polymers are designed to be durable and resistant to factors like heat, sunlight, and water, which makes them useful in a variety of situations.
Toget...
Source: Biomedical Beat Blog - National Institute of General Medical Sciences - April 17, 2024 Category: Research Authors: Chrissa Chverchko Tags: Chemistry, Biochemistry and Pharmacology STEM Education Bacteria Science Snippet Source Type: blogs
Fight Aging! Newsletter, April 15th 2024
In conclusion, although several clinical trials targeting SnCs are ongoing, various questions about the biology of SnCs remain open, resulting in a gap between molecular and cellular data. Concerning the need, initiatives such as SenNet aiming to create openly accessible atlases of SnCs should contribute enormously to the area. Advances in understanding the subcellular structure, the heterogeneity, and the dynamics of SnCs require the integration of molecular and cellular techniques with data analysis packages to evaluate high throughput evidence from microscopy and flow cytometry. It is also necessary to develop new equip...
Source: Fight Aging! - April 14, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Martin Burke: Replacing Lost Proteins to Treat Disease
As a medical student, Martin Burke, M.D., Ph.D., helped care for a young college student with cystic fibrosis (CF), an inherited disease that affects the body’s ability to make sweat and mucus. Dr. Burke had just studied CF in class, so he relayed what he had learned to her. He had a lot of information to give—doctors and researchers know the exact amino acid changes in an ion channel protein called cystic fibrosis transmembrane conductance regulator (CFTR) that cause CF.
Credit: UIUC News Bureau, Fred Zwicky.
“At one point in the conversation, she stopped me and said, ‘It sounds like you know exactly what’s...
Source: Biomedical Beat Blog - National Institute of General Medical Sciences - April 10, 2024 Category: Research Authors: Chrissa Chverchko Tags: Being a Scientist Chemistry, Biochemistry and Pharmacology Tools and Techniques Medicines Profiles Source Type: blogs
A Look at the Research Yet to be Accomplished for Cellular Senescence
In conclusion, although several clinical trials targeting SnCs are ongoing, various questions about the biology of SnCs remain open, resulting in a gap between molecular and cellular data. Concerning the need, initiatives such as SenNet aiming to create openly accessible atlases of SnCs should contribute enormously to the area. Advances in understanding the subcellular structure, the heterogeneity, and the dynamics of SnCs require the integration of molecular and cellular techniques with data analysis packages to evaluate high throughput evidence from microscopy and flow cytometry. It is also necessary to develop new equip...
Source: Fight Aging! - April 10, 2024 Category: Research Authors: Reason Tags: Daily News Source Type: blogs
Technobabble To English: A Buzzword Guide For Medical AI And Digital Health
Navigating AI in medicine and digital health can feel like ordering a coffee at that new hipster café downtown: exciting yet slightly overwhelming with a menu that seems to be in a different language. A while ago we published a buzzword dictionary to help you decode the most frequently repeated terms. Back then artificial intelligence and machine learning were rarely heard exotic expressions, but as quite a few years have passed, a whole new set of mambo-jambo emerged, waiting to be explained.
You’re probably sick of hearing the latest digital health buzzwords without any actual context, so let’s translat...
Source: The Medical Futurist - April 4, 2024 Category: Information Technology Authors: Andrea Koncz Tags: TMF Artificial Intelligence in Medicine buzzword AI in medicine generative AI in medicine Source Type: blogs
Fight Aging! Newsletter, April 1st 2024
This study supports the proposed model that aging-related loss of colonic crypt epithelial cell AMP gene expression can promote increased relative abundances of Gn inflammaging-associated bacteria and gene expression markers of colonic inflammaging. These data may support new targets for aging-related therapies based on intestinal genes and microbiomes.
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A Skeptical View of the Role of Nuclear DNA Damage in Aging
https://www.fightaging.org/archives/2024/03/a-skeptical-view-of-the-role-of-nuclear-dna-damage-in-aging/
It is evident and settled that stochastic nuclear DNA damag...
Source: Fight Aging! - March 31, 2024 Category: Research Authors: Reason Tags: Newsletters Source Type: blogs
Investigating the Primary Cilium: Q & A With Xuecai Ge
Credit: Courtesy of Dr. Xuecai Ge.
The brain is a large and complex organ, but some very small structures guide its development. Xuecai Ge, Ph.D., an associate professor of molecular and cell biology at the University of California, Merced (UC Merced), has devoted her career to understanding one of these structures called the primary cilium. In an interview, Dr. Ge shared how her childhood experience inspired her to study science and what makes the primary cilium fascinating.
Q: How did you first become interested in science?
A: When I was a little kid, my mom was a primary care doctor, and I saw her treat patients...
Source: Biomedical Beat Blog - National Institute of General Medical Sciences - March 27, 2024 Category: Research Authors: Chrissa Chverchko Tags: Being a Scientist Cells Cellular Processes Profiles Source Type: blogs
Predicting the Order of Arrival of the First Rejuvenation Therapies
It has been going on eight years since I last speculated on the order of arrival of the first rejuvenation therapies. Tempus fugit, and time for an updated version! Eight years is a long enough span of time for the first of those rejuvenation therapies to now exist, albeit in a prototypical form, arguably proven in principle but not concretely. The world progresses but my biases remain much the same: the first rejuvenation therapies to work well enough to merit the name will be based on the SENS vision, that aging is at root caused by a few classes of accumulated cell and tissue damage, and biotechnologies that either repa...
Source: Fight Aging! - March 25, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
How can Warfarin be safe “ even in ” first trimester of pregnancy ? The story behind the 5 mg cut-off !
The well known pro-coagulant state of pregnancy is an evolutionary protective process to make blood clot quicker, to save fetal loss in early pregnancy and mitigate postpartum bleeding. Still, in many women, this natural adaptive process confers an enhanced thrombotic risk. The molecular mechanisms for this pro-coagulant state are, there is increased factor VII, fibrinogen, reduced protein S. It is interesting to note, while plasminogen levels are elevated, D-dimer is also increased, indicating an ongoing fight between pro & anticoagulant forces, converting the physiological maternal- placental bed a mini harmless DIC ...
Source: Dr.S.Venkatesan MD - March 20, 2024 Category: Cardiology Authors: dr s venkatesan Tags: cardiology -pregnancy Pregnancy and heart pregnancy and heart disease Uncategorized carpreg registry zahara esc acc guidelines on pregnancy and heart disease first trmestr use of oac warfarin heparin switch over lmwh bridge in pregnancy 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
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 derive from very different, distinct underlying mechanisms. There is presently little that can be done to reverse calcification effectively; EDTA chelation therapy is the best option on the table at present, but isn't well regarded in the medical community. Other treatments are more focused on slowing the progression of calcification, and can achieve that goal to some degree.
The primary cause of worldwide mo...
Source: Fight Aging! - March 5, 2024 Category: Research Authors: Reason Tags: Daily News 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
Amie Fornah Sankoh Achieves a Scientific Dream
Credit: LinkedIn.
“I wanted to give up so many times. Although I tried to remain positive, I never thought I’d be able to finish my Ph.D. But I made it, and I’m extremely proud of myself,” says Amie Fornah Sankoh, Ph.D., a research scientist with Dow Chemical Company who received NIGMS support as a graduate student.
Human and Plant Communication
Dr. Sankoh has loved science and mathematics since she was just a child growing up in Sierra Leone. When she was 3 years old, Dr. Sankoh became deaf from a childhood disease. Math, unlike other subjects, is very visual, which played a part in her interest in it. “...
Source: Biomedical Beat Blog - National Institute of General Medical Sciences - February 28, 2024 Category: Research Authors: Chrissa Chverchko Tags: Being a Scientist Chemistry, Biochemistry and Pharmacology Profiles Training Source Type: blogs
Telomere Length as a Target for Therapy
Average telomere length in a tissue is some reflection of (a) stem cell activity and (b) pace of cell division. Telomeres, repeated DNA sequences at the ends of chromosomes, lose some of their length with each cell division, and cells self-destruct or become senescent when telomeres become too short. This limits the ability of somatic cells to replicate, reducing the odds that a given cell will mutate to become cancerous by imposing a limit on cell activity and cell life span, enforcing turnover of cells in tissues. Stem cells, in comparison, are a small, well protected, privileged set of cell populations that use telomera...
Source: Fight Aging! - February 26, 2024 Category: Research Authors: Reason Tags: Medicine, Biotech, Research Source Type: blogs
