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Structure of enzyme offers treatment clues for diabetes, Alzheimer's
chemlin.net ^ | Oct 2006 | NA

Posted on 07/08/2008 10:33:33 PM PDT by neverdem


The molecular surface of IDE is represented by light yellow. The N- and C-terminal domains of IDE are colored green and red, respectively. The beta-amyloid (blue) is entrapped inside the degradation chamber of the IDE molecule.
Yuequan Shen, Univ. of Chicago

Researchers from the University of Chicago and Argonne National Laboratory have deciphered the three-dimensional structure of insulin-degrading enzyme, a promising target for new drugs because it breaks down not only insulin but also the amyloid-beta protein, which has been linked to the cognitive decline of Alzheimer's disease.

In the October 19, 2006, issue of Nature (available online Oct. 11), the researchers describe the structures of insulin-degrading enzyme (IDE) in complex with four of the proteins it digests: insulin, amyloid-beta, amylin and glucagon. The structures are exciting because they suggest ways to develop drugs that could either speed up or slow down this ubiquitous enzyme's activity.

"The structure of insulin-degrading enzyme tells us a lot about how it works, which is somewhat unorthodox," said Wei-Jen Tang, Ph.D., associate professor in the Ben May Institute for Cancer Research at the University of Chicago and director of the study. "Understanding how it works gives us clues about how to design drugs either to inhibit or activate it."

"By introducing small, targeted mutations, we have already been able to increase the enzyme's activity by as much as 40-fold," he said. "That gives us a blueprint for the next step, trying to devise a drug that would produce a similar effect."

Ever since I. Arthur Mirsky discovered IDE in 1949, physicians have sought ways to manipulate it. Mirsky thought that by inhibiting the enzyme he could help diabetics by making their insulin remain active longer. More recently, as scientists realized that IDE was also involved in clearance of amyloid-beta, they have begun searching for ways to supercharge the enzyme to see if it could prevent the build-up of the amyloid plaques that are a hallmark of Alzheimer's disease.

Despite more than half a century of intensive research, however, insulin-degrading enzyme has remained "an especially elusive pharmacological target," biochemist Malcolm Leissring of the Scripps Research Institute and neurobiologist Dennis Selkoe of Harvard Medical School wrote in a commentary that accompanies the Nature article.

Using the Advanced Photon Source at Argonne National Laboratory, Tang and colleagues were able to solve the structures of this enzyme in complex with insulin and with amyoid-beta, as well as amylin and glucagon. These "high-resolution crystal structures open the door to the rational design of pharmacological modulators of this important protease," wrote Leissring and Selkoe.

The enzyme, Tang's team reports, resembles the video-game character "Pac-Man," with two bowl-shaped halves joined by a hinge at one end and held closed, most of the time, by a latch of hydrogen bonds on the other end. When the bowls come together, like a shut mouth, they enclose a chamber, shaped like a triangular prism, with a base that measures 35 x 34 x 30 angstroms and a height of 36 angstroms, large enough to contain relatively small peptides, such as insulin or amyloid-beta, which have fewer than 50 amino acids.

Although it can cleave larger molecules, the proteins IDE degrades most readily fit neatly within this chamber. Negative electrical charges on their outer surfaces help to align them with the positive charges on one inner surface of the chamber. Once they are in place, the enzyme slices them multiple times into tiny pieces, which are then discarded.

Although the enzyme's structure is similar to Pac-Man, its behavior differs. Pac-Man keeps his mouth wide open to gobble up anything in his path. With IDE the mouth is usually closed. The hydrogen-bond latch that holds the jaws together protects its active, or catalytic site.

But in a series of experiments, Tang and colleagues were able to make small mutations of IDE that altered only the latch, disrupting the alignment of contacts that normally keep the enzyme closed. Three of these altered versions of wide-open IDE proved to be 30 to 40 times more active than the normal version of the enzyme.

"This suggests that the rate-limiting step may be the speed at which the enzyme can reopen and then clamp down on a new morsel rather than the time it takes to chew something up," said Tang. "This makes us think that if we can slightly alter its shape, we can substantially boost its activity."

The researchers are now searching for small molecules that can duplicate the effects of those mutations, shifting the balance toward the open rather than the closed state. "Such compounds," the authors note, "might facilitate the clearance of amyloid-beta and other pathologically relevant IDE substrates."

"By revealing IDE's active site in unprecedented detail," notes the commentary, "the new structures provided by Tang and coworkers hold great promise for finally realizing Mirsky's dream."


TOPICS: Health/Medicine; Science
KEYWORDS: alzheimers; diabetes; health; ide; science
Structures of human insulin-degrading enzyme reveal a new substrate recognition mechanism

Molecular basis for the thiol sensitivity of insulin-degrading enzyme

1 posted on 07/08/2008 10:33:33 PM PDT by neverdem
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To: neverdem

For those that are interested Free Republic has a team dedicated to Ronald Reagan that is pushing basic research into Alzheimer’s and Huntingdon’s.

Please rebiew the latest thread and join Freper Folders team 36120!

http://www.freerepublic.com/focus/chat/2011045/posts?page=86


2 posted on 07/08/2008 11:45:06 PM PDT by texas booster (Join FreeRepublic's Folding@Home team (Team # 36120) Cure Alzheimer's!)
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To: martin_fierro; pissant
the new structures provided by Tang
nice work if you can get it.
3 posted on 07/09/2008 10:19:51 AM PDT by SunkenCiv (https://secure.freerepublic.com/donate/_________________________Profile updated Friday, May 30, 2008)
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