Another option for stopping the cascade of neuronal death. Who is going to push researchers to find out more and create a therapeutic approach to this?
http://www.medicalnewstoday.com/releases/242172.php
Could blind, buck-toothed, finger-sized naked mole-rats harbor in their brain cells a survival secret that might lead to better heart attack or stroke treatments?
University of Illinois at Chicago biologist Thomas Park and colleagues at UIC and the University of Texas Heath Science Center at San Antonio think the subterranean lifestyle of the pasty-looking rodents may indeed hold clues to keeping brain cells alive and functioning when oxygen is scarce. The key may lie in how brain cells regulate their intake of calcium.
"Normally, calcium in brain cells does wonderful things, including forming memories," says Park, who is professor of biological sciences at UIC. "But too much calcium makes things go haywire."
Brain cells starved of oxygen can't regulate calcium entry, and too much calcium in the cell is lethal. When a heart attack or stroke prevents oxygenated blood from reaching the brain, brain damage or death results.
Naked mole-rats, however, are very tolerant to oxygen deprivation, or hypoxia -- as are human newborns, whose brain cells have calcium channels that close during oxygen deprivation, protecting the cells from calcium overdose. With age, these calcium channels no longer close, which normally isn't a problem -- except during a heart attack.
Naked mole-rats retain a tolerance for oxygen deprivation into adulthood. Park and his colleagues measured calcium entry in brain tissue that had been kept under oxygen-poor conditions, reporting their findings online Feb. 21 in PLoS One.
"We knew the adults of this unusual mammal had brains that, like infant humans, were very tolerant to oxygen deprivation," he said. "We wanted to know if the adult naked mole-rats used the same strategy as babies to prevent calcium entry. This is exactly what we found."
Park thinks this strategy is an evolutionary adaptation by mole-rats, which live in the hundreds underground in tight, oxygen-deprived conditions.
"Imagine 200 mice living in a shoe box buried four feet under the ground -- things are going to get bad fast," he said.
The researchers think they have identified a novel mechanism for protecting the adult brain in times of oxygen deprivation.
"Developing this target into a clinical application is our next goal," he said. "We need to find a way to rapidly up-regulate the infant-type of calcium channels. Adult humans actually have some of these channels already, but far fewer than infants."
Park, who for years has studied naked mole-rats and their unusual adaptations, thinks the latest findings "are just the tip of the iceberg" of what we can learn from the rodents. Their homes are not only oxygen-poor, but rich in carbon dioxide and ammonia -- conditions that would make most animals ill. Yet mole-rats have evolved to suppress pain and even cancer.
"The more we study these creatures," said Park, "the more we learn."
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My blog is not to help survivors recover, it is to have the 10 million yearly stroke survivors light fires underneath their doctors, stroke hospitals and stroke researchers to get stroke solved. 100% recovery. The stroke medical world is completely failing at that goal, they don't even have it as a goal. Shortly after getting out of the hospital and getting NO information on the process or protocols of stroke rehabilitation and recovery I started searching on the internet and found that no other survivor received useful information. This is an attempt to cover all stroke rehabilitation information that should be readily available to survivors so they can talk with informed knowledge to their medical staff. It lays out what needs to be done to get stroke survivors closer to 100% recovery. It's quite disgusting that this information is not available from every stroke association and doctors group.
Tuesday, February 28, 2012
A Novel Mechanism For Protecting The Adult Brain In Times Of Oxygen Deprivation Inspired By Naked Mole-Rats
Labels:
calcium,
hyperacute,
hypoxia,
mole-rats,
research
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