Scientists uncover ‘epigenetic’ switch for new brain cells’ growth

Washington, January 9 (ANI): A new study conducted by neuroscientists at the Johns Hopkins University School of Medicine has shown that the birth of new cells, which depends on brain activity, is also influenced by a protein that is involved in changing epigenetic marks in the cell’s genetic material.

The finding reported in the journal Science takes the research team a step closer to unravelling the mystery as to what controls the birth of new cells in the brain’s hippocampus.

"How is it that when you see someone you met ten years ago, you still recognize them? How do these transient events become long lasting in the brain, and what potential role does the birth of new neurons play in making these memories?" says Hongjun Song, Ph.D., an associate professor of neurology and member of the Johns Hopkins Institute of Cell Engineering’s NeuroICE.

"We really want to understand how daily life experiences trigger the birth and growth of new neurons, and make long-lasting changes in the brain," the researcher added.

According to the researchers, making long-term memories might require long-term changes in brain cells, and one type of cellular change that has long-lasting effects is so-called epigenetic change that can alter a cell’s DNA without changing its sequence, but does change how and which genes are turned on or off.

Considering this reasoning, the researchers decided to look at the 40 to 50 genes known to be involved in epigenetics, and see whether any of them were turned on in mouse brain cells that had been stimulated with electroconvulsive therapy-shock treatment.

"It’s long been known that ECT induces neurogenesis in rodents and humans, so we used it as our test case to find what is triggered downstream to cause new cells to grow," says Song.

The researcher revealed that one gene turned on in response to ECT was Gadd45b, a gene previously implicated in immune system function and misregulated in brain conditions like autism.

With a view to determining that Gadd45b was turned up in response to brain activity, the team further examined mice experiencing a different activity. They found exposure to new surroundings also turned on Gadd45b in brain cells.

The researchers then tested mice engineered to lack the Gadd45b gene for their ability to generate new brain cells after ECT, in order to find out whether this gene is required for new brain-cell growth.

They injected the mice with a dye that marks new cells, and three days after ECT, examined the number of new cells containing that dye in brains from mice with and without the Gdd45b gene.

It was observed that while normal brains showed a 140 percent increase in cell number after ECT, brains lacking Gadd45b only showed a 40 percent increase.

"The question then was, How does Gadd45b do this? It’s been controversial that Gadd45b can promote epigenetic changes like global DNA demethylation, but we show that it can promote demethylation of certain genes," says Song.

When the researchers dissected mature neurons from normal mouse brains and looked for the presence of methyl groups at certain genes known to promote cell growth, they found that the genes had become demethylated after ECT.

However, doing the same thing with mice lacking Gadd45b did not result in demethylation, suggesting that the gene was indeed required for demethylation.

"We’re really excited about this-it’s the first time we’ve seen dynamic epigenetic DNA changes in response to brain activity," says Song.

"Now that we have the mice lacking Gadd45b, our next goal is to see if these mice have problems with learning and memory and how Gadd45b specifically promotes the demethylation to lead to these long-term changes in the brain." (ANI)

[Via hamaraphotos.com]

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MI to produce lithium-ion car batteries

LANSING, MI -- The following is a message from Governor Granholm:

Governor Jennifer M. Granholm lauded the announcement by A123 Systems that it is applying for $1.84 billion in federal loans to build the nation’s first commercial-scale lithium-ion advanced storage systems manufacturing plant in Michigan Wednesday.

“These technologies are exactly what we envision in our drive to make Michigan the alternative energy capital of North America and the advanced battery capital of the world,” Granholm said. “Michigan is the state that put the America on wheels, and this project is a major step to making Michigan the state that helps reduce the nation’s dependence on foreign oil.”

In November, A123 Systems was designated a Michigan Center of Energy Excellence and granted $10 million to establish a collaboration with the University of Michigan and Michigan State University to focus on the manufacture of rechargeable lithium-ion batteries in transportation and alternative energy sectors.

Granholm said the project outlined by A123 Systems is the type of project that could benefit from $100 million in refundable tax credits that she fought for in the closing days of the 2008 legislative session. The governor has pledged to sign that legislation into law.

In addition to putting state initiatives in place to encourage battery research, development and production in Michigan, the governor has also called on congressional leaders to enact federal investments in alternative energy technologies. In a letter to Speaker Nancy Pelosi (D-CA) and Senate Majority Leader Harry Reid (D-NV) on November 6, Granholm urged them to “consider investments in new energy technologies that can provide more economy-changing jobs in the future. These investments can lead to not only further job creation, but also can help our nation develop the technologies needed to end our dependence on foreign oil. Green energy manufacturing is considered to be a perfect fit for Michigan.”

The International Energy Agency estimates that some $20 trillion will be spent worldwide on energy production in the next 25 years. According to the Center for American Progress, Michigan can create more than 60,000 new jobs by investing in alternative energy, including advanced battery storage, biofuels, wind and solar.

“Michigan has been the most aggressive state in the nation in developing our alternative energy capabilities through our Centers of Energy Excellence, 21st Century Jobs Funds, and even our high-tech tax credits available through the Michigan Economic Growth Authority,” Granholm said. “No state is better armed to create new technologies that produce renewable, sustainable energy, fight global warming, and reduce our dependence on foreign oil than Michigan.”

James C. Epolito, president and CEO of the Michigan Economic Development Corporation said the agency looks forward to working with A123 Systems on this project.

“We look forward to partnering with A123 Systems and others seeking to develop their alternative energy technology,” Epolito said. “Michigan’s talent, research and development capability and established manufacturing base can provide growing companies with an opportunity unmatched anywhere in the world.”

[Via www.connectmidmichigan.com]

How Green Is That Laptop?

It's never that surprising to hear that some companies aren't nearly as "green" as they claim to be, but sometimes the examples are worth examining in detail. Last week, Ben Charny reportedThe Wall Street Journal that Apple Inc., which has gone out of its way to flaunt its eco-cred, doesn't always stack up so well to its competitors: "For example, Dell and Hewlett-Packard report buying much more clean energy than Apple; Dell 58 times more, and Hewlett-Packard five times more." in

Now, clean energy is a decent metric, though a computer's impact on the environment mostly depends on how much energy it consumes after it's purchased. On that score, MacBooks do okay. That said, I do wish these comparisons would look more broadly at product durability. A company making laptops that last, say, five years on average is likely greener than one whose computers last for just three, consuming fewer resources and spewing less hazardous waste—especially since e-recycling programs are often flawed. And, as EcoGeek's Hank Green reported last year, some of Apple's newer iPods and iPhones are designed to be virtually impossible to repair, which ends up encouraging people to junk their old gadgets and buy new ones.

For a longer discussion of this topic, Giles Slade's Made to Break is a fascinating book, and some of his insights on how businesses make short-lived products to encourage excess consumption should be taken to heart when trying to figure out just how green a company really is. True, the EPA considers "product longevity" as a factor in its EPEAT labeling for electronics, but that system is voluntary and doesn't work terribly well. Recommending that computers have "modular designs," say, hasn't stopped the average lifespan of personal computers from plummeting from six years in 1997 to two years in 2005. It's likely that rethinking the whole notion of "planned obsolescence" would involve very drastic regulatory (and probably cultural) changes. Maybe that's not desirable—maybe it's a good thing that our cell phones go out of style every 12 months. In the meantime, though, we could probably stand to require better buyback and recycling programs, for starters.

While we're on the topic, the Journal also had a shrewd dissection of Dell's claims to be "carbon neutral." Turns out, when Dell's executives fling that term around, they're only talking about Dell proper—they're not talking about Dell's suppliers or the people running Dell computers. Which basically means they're talking about just 5 percent of Dell's actual carbon footprint. And even that 5 percent achieves neutrality mostly via carbon offsets, which are often quite dubious (sure they're planting a forest—but how do they know the forest wouldn't have been planted anyway, or won't burn down next year?) Well-meaning corporate initiatives are nice, but they're no substitute for better regulation and carbon pricing.

[Via blogs.tnr.com]