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Archive for the ‘life extension’ category: Page 104

Jun 26, 2023

Are ‘Zombie Cells’ Ageing Your Skin? Here’s What To Know

Posted by in categories: biotech/medical, genetics, life extension

Busso also said we don’t yet know the long-term effects of these treatments on normal cells or what the long-term impact of killing zombie cells might be. Additionally, because zombie cells play an important role in wound healing, “We don’t want to remove all of them,” he said. “We don’t know the ideal regimen, daily versus weekly versus monthly.”

Hopefully, we won’t have to wait long for answers about the best way to get rid of zombie cells on the skin. “Major breakthroughs and contributions to delaying of the aging process are expected in the near future,” Busso said.

Although it’s still unclear whether zombie cells can be safely and effectively cleared from the skin, it is possible to prevent some zombie cells from forming in the first place. Collins explained that zombie cells are formed as the result of both biological and environmental factors. “The internal factors, like aging or genetic disease, are not so much within our control,” but the external factors can be controlled, she said.

Jun 25, 2023

Transcriptional profiling of aging tissues from female and male African turquoise killifish

Posted by in categories: biotech/medical, life extension, neuroscience, sex

The African turquoise killifish is an emerging vertebrate model organism with great potential for aging research due to its naturally short lifespan. Thus far, turquoise killifish aging omic studies using RNA-seq have examined a single organ, single sex and/or evaluated samples from non-reference strains. Here, we describe a resource dataset of ribosomal RNA depleted RNA-seq libraries generated from the brain, heart, muscle, and spleen from both sexes, as well as young and old animals, in the reference GRZ turquoise killifish strain. We provide basic quality control steps and demonstrate the utility of our dataset by performing differential gene expression and gene ontology analyses by age and sex. Importantly, we show that age has a greater impact than sex on transcriptional landscapes across probed tissues. Finally, we confirm transcription of transposable elements (TEs), which are highly abundant and increase in expression with age in brain tissue. This dataset will be a useful resource for exploring gene and TE expression as a function of both age and sex in a powerful naturally short-lived vertebrate model.

The authors have declared no competing interest.

Jun 25, 2023

A jump through time — new technique rewinds the age of skin cells by 30 years

Posted by in categories: biotech/medical, genetics, life extension

Research from the Babraham Institute has developed a method to ‘time jump’ human skin cells by 30 years, turning back the ageing clock for cells without losing their specialised function. Work by researchers in the Institute’s Epigenetics research programme has been able to partly restore the function of older cells, as well as rejuvenating the molecular measures of biological age. The research is published today in the journal eLife and whilst at an early stage of exploration, it could revolutionise regenerative medicine.

What is regenerative medicine?

As we age, our cells’ ability to function declines and the genome accumulates marks of ageing. Regenerative biology aims to repair or replace cells including old ones. One of the most important tools in regenerative biology is our ability to create ‘induced’ stem cells. The process is a result of several steps, each erasing some of the marks that make cells specialised. In theory, these stem cells have the potential to become any cell type, but scientists aren’t yet able to reliably recreate the conditions to re-differentiate stem cells into all cell types.

Jun 22, 2023

Immunotherapy Can be Improved with Three Immune Cells

Posted by in categories: biotech/medical, computing, life extension

Immunotherapy is a fast-growing field designed to stimulate the immune system and target different diseases, including cancer. Some immunotherapies include immune cell activation therapies such as checkpoint inhibitors that block the interaction of cell markers which in turn allows the cell to kill the bound tumor cell. One example of a checkpoint inhibitor is anti-programmed cell death-1 (Anti-PD-1). Programmed cell death-1 (PD-1) is expressed on immune cells, specifically T cells. On responsibility of T cells include killing infected cells, such as cancer. The PD-1 marker is bound to PD-L1 on the infected cell and blocks the T cell’s ability to kill the tumor. Checkpoint inhibitors are effective in some subsets of cancer patients, but in more aggressive cancers such as liver cancer, immunotherapy is limited. Interestingly, a recent study in Nature Medicine by Dr. Miriam Merad and colleagues from the Ichan School of Medicine at Mount Sinai recently reported a new strategy to improve immunotherapy in liver cancer.

Merad and colleagues have uncovered a “trio of immune cells” within the tumor that helps improve immunotherapy. Researchers discovered this cohort of cells specifically in hepatocellular carcinoma (HCC), an aggressive and deadly liver cancer. It was demonstrated that specific populations in the tumor would be needed to activate T cells with immunotherapy, specifically anti-PD-1. Increased activation of T cells in HCC is critical because it demonstrates that an aggressive tumor has become sensitized to the immune system.

Researchers studied this phenomenon in patients to determine why some immune cells present in the tumor allow improved immunotherapy response, while others do not. The research team analyzed patient samples before and after checkpoint inhibitor treatment. Analysis was performed through computational methods, which allowed Merad and others to determine the immune cells necessary that help patients improve with immunotherapy. Through this computational cell analysis researchers are able to improve patient outcomes by determining if the “trio of cells” is present in the tumor.

Jun 21, 2023

The Loss of Y Chromosomes, a Natural Part of Aging, Drives Cancer

Posted by in categories: biotech/medical, genetics, life extension, sex

The Y chromosome is the smallest chromosome, and holds the least amount of genes, but scientists are still learning about all of its biological functions. Research has shown that many men start to lose Y chromosomes in blood cells as they get older, and this phenomenon has been linked to some disorders including heart disease and now, cancer. Some studies have suggested that the loss of the Y chromosome may help explain why men tend to die at slightly younger ages compared to women, or why there are sex differences in some types of cancer… Two new studies reported in Nature have explored the link between cancer and the loss of the Y chromosome.

One study used a mouse model to show that a specific gene on the Y chromosome known as KDM5D increases the chance that some types of colorectal cancer will metastasize. The other research report showed that when some cells lose the Y chromosome, bladder tumors are better at evading the immune system, and the risk of aggressive bladder cancer increases.

Jun 21, 2023

World’s largest captive croc turns 120, giving scientists ‘serious knowledge on longevity’

Posted by in category: life extension

“There is no way of knowing Cassius’ actual age as he was born in the wild and the age is just an estimate,” Toody Scott, a crocodile keeper who looks after Cassius at Marineland Crocodile Park on Green Island, told Live Science in an email. The nearly 18-foot-long (5.5 meters) saltwater giant’s birthday “was essentially made up a few years ago” and this time of year is actually “the wrong time of year for a crocodile to be born in northern Australia,” Scott added.

In 1984, researchers captured the crocodile on a cattle ranch southwest of Darwin, Australia, after the ranch owners complained they were losing livestock. Even then, when Cassius was estimated to be between 30 and 80 years old, he was the biggest crocodile ever caught alive in Australia.

“He was 16 feet, 10 inches [5.13 m] with at least another 6 inches [15 centimeters] of tail missing and a bit of a snout missing,” Grahame Webb, a crocodile researcher who participated in the capture, told ABC News. “He was a big old gnarly crocodile then. Crocs of that size are not normal.”

Jun 21, 2023

How ultrasound therapy could treat everything from ageing to cancer

Posted by in categories: biotech/medical, life extension

Ultrasound is most familiar to us as a non-invasive imaging technology used during pregnancy – now it is in clinical trials as a powerful new tool for treating all sorts of medical conditions.

By Kayt Sukel

Jun 21, 2023

Polyamines (Including Spermidine) Extend Lifespan: What’s My Data?

Posted by in categories: biotech/medical, genetics, life extension

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Jun 21, 2023

Introducing Chinmo — The Youth Gene

Posted by in categories: biotech/medical, evolution, genetics, life extension

Insects, with their remarkable ability to undergo complete metamorphosis, have long fascinated scientists seeking to understand the underlying genetic mechanisms governing this transformative process.

Now, a recent study conducted by the Institute for Evolutionary Biology (IBE, CSIC-UPF) and the IRB Barcelona has shed light on the crucial role of three genes – Chinmo, Br-C and E93 – in orchestrating the stages of insect development. Published in eLife, this research provides valuable insights into the evolutionary origins of metamorphosis and sheds new light on the role of these genes in growth, development and cancer regulation [1].

Longevity. Technology: Chinmo might sound like a Pokémon character, but the truth is much more interesting. Conserved throughout the evolution of insects, scientists think it, and the more conventionally-named Br-C and E93, could play a key role in the evolution of metamorphosis, acting as the hands of the biological clock in insects. A maggot is radically different from the fly into which it changes – could understanding and leveraging the biology involved one day allow us to change cultured skin cells into replacement organs or to stop tumors in their early stages of formation? No, Dr Seth Brundle, you can buzz off.

Jun 21, 2023

AI finds potential anti-aging molecules

Posted by in categories: biotech/medical, chemistry, life extension, robotics/AI

This study demonstrates that AI can be incredibly effective in helping us identify new drug candidates – particularly at early stages of drug discovery and for diseases with complex biology or few known molecular targets.


A machine learning model has been trained to recognise the key features of chemicals with senolytic activity. It recently found three chemicals able to remove senescent cells without damaging healthy cells.

Molecular structure of oleandrin. Credit: Mplanine, CC BY-SA 4.0, via Wikimedia Commons.

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