Click the actual scientific article link within for more details on the research.
In their research a number of genes that are different between pathological aging and healthy aging. Their findings were published in the scientific journal Aging.
Category: life extension
Here’s my latest video (audio issues fixed!):
Papers referenced in the video:
Bacteria Boost Mammalian Host NAD Metabolism by Engaging the Deamidated Biosynthesis Pathway:
https://pubmed.ncbi.nlm.nih.gov/32130883/
CD38 Dictates Age-Related NAD Decline and Mitochondrial Dysfunction through an SIRT3-Dependent Mechanism:
https://pubmed.ncbi.nlm.nih.gov/27304511/
Aerobic and resistance exercise training reverses age-dependent decline in NAD + salvage capacity in human skeletal muscle:
https://pubmed.ncbi.nlm.nih.gov/31207144/
Extract from a conversation that María Blasco, Director of the Spanish National Cancer Research Center (CNIO for its acronym in Spanish) had with Mario Alonso Puig during the celebration of the South Summit 2020.
In this segment María Blasco refers to aging, cancer, telomerase, and life extension. The conversation is in English and I added subtitles in Spanish.
I find the message particularly important because Dr. María Blasco refers again (she already did it in a scientific paper) to the fact that, contrary to what she herself would have expected and was a concern within the scientific community, inducing the production of Telomerase in mice, besides from lengthening significantly their healthspan and lifespan, not only it did not cause Cancer but quite the opposite, reduced or even eliminated the occurrence of it.
Bees, termites, and ants can teach us a lot about cooperation, communication, and the skills that keep societies together. But these so-called social insects may also hold secrets that could reshape our understanding of human aging. Many social insects exhibit surprising aging characteristics that cause their life spans to shift depending on their roles. Following the death of a queen Indian jumping ant, for example, workers fight for the right to transform into an egg-laying ant. Much is at stake: the life expectancy of an egg-layer is five times longer than that of a worker’s. Though fruit flies, mice, and nematodes currently dominate aging research, some scientists say social insects’ aging behaviors could help dissect aging mechanisms in humans. This video will take you deep into the catacombs—er, honeycombs—of insect aging.
Read the story ($): https://scim.ag/3cFO0k0
Dr Joan Mannick, Head of Research and Development at Life Biosciences, discusses the #geroscience approach in disease treatment and the exciting work being done at Life Biosciences.
#Ageing is the greatest risk factor for almost every chronic disease. Multiple studies have shown that ageing is a modifiable risk factor that can be targeted therapeutically.
In this week’s #HealthyLongevity #webinar session, Dr Joan Mannick, Head of Research and Development at Life Biosciences, discusses the #geroscience approach in disease treatment and the exciting work being done at Life Biosciences.
Register for the upcoming webinar sessions here: https://nus-sg.zoom.us/webinar/register/1816140491076/WN_ym1bHff2RwW1XI9jIwdXCA
#NUSMedicine #webinarseries
Disclaimer: The opinions and advice expressed in this webinar are those of the speakers and do not represent the views and opinions of the organizers and National University of Singapore or any of its subsidiaries or affiliates. The information provided in this webinar is for general information purposes only as part of a general discussion on public health. The information is not intended to be a substitute for professional medical advice, diagnoses or treatment; and cannot be relied on in place of consultation with your licensed healthcare provider.
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All of the proceedings of this webinar, including the presentation of scientific papers, are intended for limited publication only, and all property rights in the material presented, including common-law copyright, are expressly reserved to the speaker or NUS. No statement or presentation made is to be regarded as dedicated to the public domain. Any sound reproduction, transcript or other use of the material presented at this course without the permission of the speaker or NUS is prohibited to the full extent of common-law copyright in such material.
Buck Institute researchers have discovered and are developing a novel, non-invasive biomarker test that can be used to measure and track performance of senolytics: a class of drugs that selectively eliminate senescent cells. The discovery is expected to play a major role in efforts to develop treatments that would battle a myriad of chronic age-related conditions that range from arthritis to lung disease to Alzheimer’s disease and glaucoma. This biomarker is a unique signaling lipid metabolite, normally exclusively intracellular, but is released when senescent cells are forced to die. This metabolite is detectible in blood and urine, making non-invasive testing possible. With a growing list of senolytic drugs in development, detecting this metabolite via a companion test could verify performance of senolytic candidates.
“The list of age-related diseases definitively linked to cellular senescence keeps growing, as does the number of biotech companies racing to develop drugs to eliminate senescent cells,” said Buck professor Judith Campisi, Ph.D., senior scientist on the study. “While the field has never been more promising, the lack of a simple biomarker to measure and track efficacy of these treatments has been a hindrance to progress. We are excited to bring this new biomarker to the field and look forward to it being used in the clinic.”
People into aging/longevity research probably know all of what’s here already.
Aubrey de Grey has been the leading voice for antiaging, aging reversal and aging damage repair for over twenty years. He founded the SENS non-profit (Strategies for Engineered Negligible Senescence (SENS). There have been six antiaging companies that have been directly spun out of SENS is researching the hardest problems related to fixing aging damage.
Repairing damage in five of the areas of aging are now highly active areas of biotech research.
SENS has helped fund lab work to show that mitochondrial mutations and loss of elasticity in the extracellular matrix can be repaired. SENS is now helping to pioneer combination antiaging therapies.
‘This means we can start to look at aging as a reversible disease,’ says Prof Shai Efrati; top geriatrician says he is skeptical, and raises concerns.
Summary: Adding selenium to diet products helps prevent obesity and increases healthy lifespan in mouse models.
Source: eLife.
Adding the nutrient selenium to diets protects against obesity and provides metabolic benefits to mice, according to a study published today in eLife.
Age-related macular degeneration (AMD), which leads to a loss of central vision, is the most frequent cause of blindness in adults 50 years of age or older, affecting an estimated 196 million people worldwide. There is no cure, though treatment can slow the onset and preserve some vision.
Recently, however, researchers at the University of Rochester have made an important breakthrough in the quest for an AMD cure. Their first three-dimensional (3D) lab model mimics the part of the human retina affected in macular degeneration.
Their model combines stem cell-derived retinal tissue and vascular networks from human patients with bioengineered synthetic materials in a three-dimensional “matrix.” Notably, using patient-derived 3D retinal tissue allowed the researchers to investigate the underlying mechanisms involved in advanced neovascular macular degeneration, the wet form of macular degeneration, which is the more debilitating and blinding form of the disease.