Scientists Map Initial Anti-Aging Formula

A new study indicates that scientists have found a new way of delaying the aging process in mice, and they hope to replicate the finding in people.

The scientists published their findings in the journal Cell Metabolism. The research was built upon an earlier study that shed light on progeria, a rare genetic disease that prematurely ages one in four million babies.

A mutation was found in the Lamin A protein, which lines the nucleus in human cells, disrupting the repair process and accelerating aging. They also found that normal and healthy Lamin A binds to and activates the gene SIRT1, which has been long associated with longevity. If scientists can develop drugs that mimic Lamin A or increase the binding between Lamin A and SIRT1, this may lead to anti-aging drugs.

The team also examined if the binding efficiency was boosted with resveratrol, a compound found in the skin of red grapes. Mice fed with concentrated resveratrol fared significantly better than healthy mice that weren’t given it and the onset of aging was delayed and the life expectancy was extended. Mice with progeria lived 30% longer when fed with resveratrol compared with progerial mice not given the compound.

Aerobic exercise boosts brain power in elderly

Evidence for the importance of physical activity in keeping and potentially improving cognitive function throughout life was found in a literature review in Psychonomic Bulletin & Review by Hayley Guiney and Liana Machado from the University of Otago, New Zealand.

• Cognitive functions such as task switching, selective attention, and working memory appear to benefit from aerobic exercise. Studies in older adults reviewed by the authors consistently found that fitter individuals scored better in mental tests than their unfit peers.
  
  
• Scores in mental tests improved in participants who were assigned to an aerobic exercise regimen compared to those assigned to stretch and tone classes.
  
  
• Exercise has been found to positively affect mental tasks relating to activities such as driving, an activity where age is often seen as a limiting factor.
  
  
• MRI studies of aging have shown that, as compared with unfit, highly fit older adults exhibit less age-related atrophy in the prefrontal and temporal cortices; preserved neural tracts connecting the prefrontal cortex to other regions of the brain; superior white matter integrity in the corpus callosum; greater gray matter density in the frontal, temporal, and parietal cortices; and greater hippocampal volumes.
  
  
• Physically active older adults have both higher circulating neurotrophin levels and gray matter volumes in the prefrontal and cingulate cortex.
  
  
• These results were not replicated in children or young adults, except for memory tasks. Both the updating of working memory and the volume of information which could be held was also better in young fitter individuals or those put on an aerobic exercise regime. “Although the evidence to date supports a wider range of executive functions benefiting from regular exercise in older adults, the relative lack of supportive evidence in young adults and children may, in part, reflect a poverty of studies, especially controlled trials, in these age groups,” the authors suggest.

Why Old People Get Scammed

Despite long experience with the ways of the world, older people are especially vulnerable to fraud. According to the Federal Trade Commission (FTC), up to 80% of scam victims are over 65. One explanation may lie in a brain region that serves as a built-in crook detector. Called the anterior insula, this structure—which fires up in response to the face of an unsavory character—is less active in older people, possibly making them less cagey than younger folks, a new study finds.

Both FTC and the Federal Bureau of Investigation have found that older people are easy marks due in part to their tendency to accentuate the positive. According to social neuroscientist Shelley Taylor of the University of California, Los Angeles, research backs up the idea that older people can put a positive spin on things—emotionally charged pictures, for example, and playing virtual games in which they risk the loss of money. “Older people are good at regulating their emotions, seeing things in a positive light, and not overreacting to everyday problems,” she says. But this trait may make them less wary.

To see if older people really are less able to spot a shyster, Taylor and colleagues showed photos of faces considered trustworthy, neutral, or untrustworthy to a group of 119 older adults (ages 55 to 84) and 24 younger adults (ages 20 to 42). Signs of untrustworthiness include averted eyes; an insincere smile that doesn’t reach the eyes; a smug, smirky mouth; and a backward tilt to the head. The participants were asked to rate each face on a scale from -3 (very untrustworthy) to 3 (very trustworthy).

In the study, appearing online in the Proceedings of the National Academy of Sciences, the “untrustworthy” faces were perceived as significantly more trustworthy by the older subjects than by the younger ones. The researchers then performed the same test on a different set of volunteers, this time imaging their brains during the process, to look for differences in brain activity between the age groups. In the younger subjects, when asked to judge whether the faces were trustworthy, the anterior insula became active; the activity increased at the sight of an untrustworthy face. The older people, however, showed little or no activation.

Scientists create road map to metabolic reprogramming for aging

In efforts to understand what influences life span, cancer and aging, scientists are building road maps to navigate and learn about cells at the molecular level.

To survey previously uncharted territory, a team of researchers at UW-Madison has created an “atlas” that maps more than 1,500 unique landmarks within mitochondria that could provide clues to the metabolic connections between caloric restriction and aging.

The map, as well as the techniques used to create it, could lead to a better understanding of how cell metabolism is rewired in some cancers, age-related diseases and metabolic conditions such as diabetes.

"It’s really a dynamic atlas for regulatory points in mitochondrial function — there are many interesting avenues that other scientists can follow up on," says John Denu, University of Wisconsin-Madison professor of biomolecular chemistry and leader of the epigenetics theme at the Wisconsin Institute for Discovery (WID). "It could take years for researchers to understand what it all means, but at least now we have a list of the most important players."

(Image Credit: © Alexander Raths - Fotolia.com)

Vitamin D Tied to Women’s Cognitive Performance

Two new studies appearing in the Journals of Gerontology Series A: Biological Sciences and Medical Sciences show that vitamin D may be a vital component for the cognitive health of women as they age.

Higher vitamin D dietary intake is associated with a lower risk of developing Alzheimer’s disease, according to research conducted by a team led by Cedric Annweiler, MD, PhD, at the Angers University Hospital in France.

Similarly, investigators led by Yelena Slinin, MD, MS, at the VA Medical Center in Minneapolis found that low vitamin D levels among older women are associated with higher odds of global cognitive impairment and a higher risk of global cognitive decline.

Slinin’s group based its analysis on 6,257 community-dwelling older women who had vitamin D levels measured during the Study of Osteopathic Fractures and whose cognitive function was tested by the Mini-Mental State Examination and/or Trail Making Test Part B.

Very low levels of vitamin D (less than 10 nanograms per milliliter of blood serum) among older women were associated with higher odds of global cognitive impairment at baseline, and low vitamin D levels (less than 20 nanograms per milliliter) among cognitively-impaired women were associated with a higher risk of incident global cognitive decline, as measured by performance on the Mini-Mental State Examination.

Annweieler’s team’s findings were based on data from 498 community-dwelling women who participated in the Toulouse cohort of the Epidemiology of Osteoporosis study.

Among this population, women who developed Alzheimer’s disease had lower baseline vitamin D intakes (an average of 50.3 micrograms per week) than those who developed other dementias (an average of 63.6 micrograms per week) or no dementia at all (an average of 59.0 micrograms per week).

These reports follow an article published in the Journals of Gerontology Series A earlier this year that found that both men and women who don’t get enough vitamin D — either from diet, supplements, or sun exposure — may be at increased risk of developing mobility limitations and disability.

(Photo Credit: Paul Burns / Getty Images)

Reading, Writing and Playing Games May Help Aging Brains Stay Healthy

Mental activities like reading and writing can preserve structural integrity in the brains of older people, according to a new study presented at the annual meeting of the Radiological Society of North America (RSNA).

While previous research has shown an association between late-life cognitive activity and better mental acuity, the new study from Konstantinos Arfanakis, Ph.D., and colleagues from Rush University Medical Center and Illinois Institute of Technology in Chicago studied what effect late-life cognitive activity might have on the brain’s white matter, which is composed of nerve fibers, or axons, that transmit information throughout the brain.

"Reading the newspaper, writing letters, visiting a library, attending a play or playing games, such as chess or checkers, are all simple activities that can contribute to a healthier brain," Dr. Arfanakis said.

The researchers used a magnetic resonance imaging (MRI) method known as diffusion tensor imaging (DTI) to generate data on diffusion anisotropy, a measure of how water molecules move through the brain. In white matter, diffusion anisotropy exploits the fact that water moves more easily in a direction parallel to the brain’s axons, and less easily perpendicular to the axons, because it is impeded by structures such as axonal membranes and myelin. “This difference in the diffusion rates along different directions increases diffusion anisotropy values,” Dr. Arfanakis said. “Diffusion anisotropy is higher when more diffusion is happening in one direction compared to others.”

The anisotropy values in white matter drop, however, with aging, injury and disease.

"In healthy white matter tissue, water can’t move as much in directions perpendicular to the nerve fibers," Dr. Arfanakis said. "But if, for example, you have lower neuronal density or less myelin, then the water has more freedom to move perpendicular to the fibers, so you would have reduced diffusion anisotropy. Lower diffusion anisotropy values are consistent with aging."

(Image credit: Flickr.com, Courtesy of Luis de Bethencourt)

Researchers define key events early in the process of cellular aging

For the first time, scientists at Fred Hutchinson Cancer Research Center have defined key events that take place early in the process of cellular aging.

Together the discoveries, made through a series of experiments in yeast, bring unprecedented clarity to the complex cascade of events that comprise the aging process and pave the way to understanding how genetics and environmental factors like diet interact to influence lifespan, aging and age-related diseases such as cancer and neurodegenerative disorders.

The findings, including unexpected results that link aspects of aging and lifespan to a mechanism cells use to store nutrients, are described in the Nov. 21 issue of Nature by co-authors Daniel Gottschling, Ph.D., a member of the Hutchinson Center’s Basic Sciences Division, and Adam Hughes, Ph.D., a postdoctoral fellow in the Gottschling Lab.

The work began with Hughes and Gottschling searching for the source of age-related damage in mitochondria.

“Normally, mitochondria are beautiful, long tubes, but as cells get older, the mitochondria become fragmented and chunky,” said Gottschling, also an affiliate professor in the Department of Genome Sciences at the University of Washington. “The changes in shape seen in aging yeast cells are also observed in certain human cells, such as neurons and pancreatic cells, and those changes have been associated with a number of age-related diseases in humans.”

What causes mitochondria to become distorted and dysfunctional as cells age had long been a mystery, but Gottschling and Hughes have discovered that specific changes in the vacuole lead directly to their malfunctioning.The researchers found the acidity of a structure in yeast cells known as the vacuole is critical to aging and the functioning of mitochondria – the power plants of the cell. They also describe a novel mechanism, which may have parallels in human cells, by which calorie restriction extends lifespan.

Test that can predict death - with a terrifying degree of accuracy

A blood test to determine how fast someone is ageing has been shown to work on a population of wild birds, the first time the ageing test has been used successfully on animals living outside a laboratory setting.

The test measures the average length of tiny structures on the tips of chromosomes called telomeres which are known to get shorter each time a cell divides during an organism’s lifetime.

Telomeres are believed to act like internal clocks by providing a more accurate estimate of a person’s true biological age rather than their actual chronological age.

This has led some experts to suggest that telomere tests could be used to estimate not only how fast someone is ageing, but possibly how long they have left to live if they die of natural causes.

Telomere tests have been widely used on experimental animals and at least one company is offering a £400 blood test in the UK for people interested in seeing how fast they are ageing based on their average telomere length.

Now scientists have performed telomere tests on an isolated population of songbirds living on an island in the Seychelles and found that the test does indeed accurately predict an animal’s likely lifespan.

“We saw that telomere length is a better indicator of life expectancy than chronological age. So by measuring telomere length we have a way of estimating the biological age of an individual – how much of its life it has used up,” said David Richardson of the University of East Anglia.

Solving the mystery of ageing

Why do we get older? When do we die and why? Is there a life without ageing? For centuries, science has been fascinated by these questions. Now researchers from Kiel (Germany) have examined why the polyp Hydra is immortal – and unexpectedly discovered a link to ageing in humans. The study carried out by Kiel University together with the University Medical Center Schleswig-Holstein (UKSH) will be published this week in the Proceedings of the National Academy of Sciences of the United States of America (PNAS). It was funded by the German Research Foundation DFG.

Newborn Neurons — Even in the Adult Aging Brain - are Critical for Memory

Newly generated, or newborn neurons in the adult hippocampus are critical for memory retrieval, according to a study led by Stony Brook University researchers published online in Nature Neuroscience. The functional role of newborn neurons in the brain is controversial, but in “Optical controlling reveals time-dependent roles for adult-born dentate granule cells,” the researchers detail that by ‘silencing’ newborn neurons, memory retrieval was impaired. The findings support the idea that the generation of new neurons in the brain may be crucial to normal learning and memory processes.

Previous research by the study’s lead investigator Shaoyu Ge, PhD, Assistant Professor in the Department of Neurobiology & Behavior at Stony Brook University, and others have demonstrated that newborn neurons form connections with existing neurons in the adult brain. To help determine the role of newborn neurons, Dr. Ge and colleagues devised a new optogenetic technique to control newborn neurons and test their function in the hippocampus, one of the regions of the brain that generates new neurons, even in the adult aging brain.

“Significant controversy has surrounded the functional role of newborn neurons in the adult brain,” said Dr. Ge. “We believe that our study results provide strong support to the idea that new neurons are important for contextual fear memory and spatial navigation memory, two essential aspects of memory and learning that are modified by experience.

“Our findings could also shed light on the diagnosis and treatment of conditions common to the adult aging brain, such as dementia and Alzheimer’s disease,” he said.