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Researchers identify potential new avenue to attack cancer
August 13, 2009EAST LANSING, Mich. - New insight into how human cells reproduce, published by cancer researchers at Michigan State University and the Van Andel Research Institute in Grand Rapids, could help scientists move closer to finding an "off switch" for cancer.
Cancer cells divide uncontrollably and can move from one part of the body to another. They undergo dramatic shifts in shape when they do so, said Aaron DeWard, an MSU cell and molecular biology doctoral candidate who published his research recently in the Journal of Biological Chemistry. He's trying to figure out how certain proteins trigger cell movement and division and how cancer hijacks the system to create genomic instability.
DeWard and his academic adviser, VARI senior scientific investigator Art Alberts, investigated proteins called formins that help determine the shape of a cell during division and movement. They identified a new mechanism for regulation of formins during cell division.
"One of the cool things about these proteins is that they're tightly regulated - they will only do their jobs when they're told to do so," DeWard said, describing formins as the workers that put together the pieces that shape a cell.
"A lot of work has been done on how to get these proteins to work, but not when to stop working," he said. "We identified the way in which these proteins get flagged for destruction. This mechanism is pretty common for a lot of proteins, but had never been shown for this family of proteins before, and no one really knew how to shut them off completely."
The family of proteins DeWard and Alberts are studying could lend themselves well to pharmaceutical treatment, he added.
"Aaron's observation gives us a handle on the molecular machinery controlling cell division," Alberts said. "Our goal now is to exploit this information in the development of strategies to specifically stop the process of uncontrolled cell division that characterizes cancer."
"I don't think shutting them off will stop cancer, but by better understanding the mechanism of this we might find ways to manipulate the system," DeWard said.
The MSU-VARI connection constitutes a vibrant, research-oriented dimension to the university's growing presence in the western Michigan health care complex. Michigan State opens its new College of Human Medicine building, the Secchia Center, in downtown Grand Rapids near VARI parent Van Andel Institute, Spectrum Health and other health care organizations in 2010. It signed a research collaboration agreement with the VAI in 2006.
"Collaboration is essential to developing West Michigan as a center for life sciences," said Steve Heacock, VAI chief administrative officer and general counsel. "A solid connection and interaction between students, scientists, medical professionals and the entire life science community is vital. We have a strong collaboration. MSU students work in VAI laboratories, MSU and VAI researchers collaborate on studies and there will be a two-way connection between VAI and the new MSU College of Human Medicine."
A joint graduate school program allows graduate students in several medicine-related programs to take one of their laboratory "rotations" at VARI, and afterward to complete their thesis project there. Four VARI fellowships also are awarded to MSU first-year graduate students interested in cancer research or cell biology.
Michigan State University
"One of the cool things about these proteins is that they're tightly regulated - they will only do their jobs when they're told to do so," DeWard said, describing formins as the workers that put together the pieces that shape a cell.
"A lot of work has been done on how to get these proteins to work, but not when to stop working," he said. "We identified the way in which these proteins get flagged for destruction. This mechanism is pretty common for a lot of proteins, but had never been shown for this family of proteins before, and no one really knew how to shut them off completely."
The family of proteins DeWard and Alberts are studying could lend themselves well to pharmaceutical treatment, he added.
"Aaron's observation gives us a handle on the molecular machinery controlling cell division," Alberts said. "Our goal now is to exploit this information in the development of strategies to specifically stop the process of uncontrolled cell division that characterizes cancer."
"I don't think shutting them off will stop cancer, but by better understanding the mechanism of this we might find ways to manipulate the system," DeWard said.
The MSU-VARI connection constitutes a vibrant, research-oriented dimension to the university's growing presence in the western Michigan health care complex. Michigan State opens its new College of Human Medicine building, the Secchia Center, in downtown Grand Rapids near VARI parent Van Andel Institute, Spectrum Health and other health care organizations in 2010. It signed a research collaboration agreement with the VAI in 2006.
"Collaboration is essential to developing West Michigan as a center for life sciences," said Steve Heacock, VAI chief administrative officer and general counsel. "A solid connection and interaction between students, scientists, medical professionals and the entire life science community is vital. We have a strong collaboration. MSU students work in VAI laboratories, MSU and VAI researchers collaborate on studies and there will be a two-way connection between VAI and the new MSU College of Human Medicine."
A joint graduate school program allows graduate students in several medicine-related programs to take one of their laboratory "rotations" at VARI, and afterward to complete their thesis project there. Four VARI fellowships also are awarded to MSU first-year graduate students interested in cancer research or cell biology.
Michigan State University
Cell Division Current Events and Cell Division News RSSParadoxical protein might prevent cancer
One difficulty with fighting cancer cells is that they are similar in many respects to the body's stem cells. By focusing on the differences, researchers at Karolinska Institutet have found a new way of tackling colon cancer. The study is presented in the prestigious journal Cell.
Study reveals why certain drug combinations backfire
Combination drug therapy has become a staple for treating many infections. For instance, doctors treat extensively drug resistant forms of tuberculosis with one drug that breaks down the pathogen's protective barriers and opens the door for another to deliver the deathblow.
Sponges recycle carbon to give life to coral reefs
Coral reefs support some of the most diverse ecosystems on the planet, yet they thrive in a marine desert. So how do reefs sustain their thriving populations?
Researchers discover mechanism that prevents two species from reproducing
Cornell researchers have discovered a genetic mechanism in fruit flies that prevents two closely related species from reproducing, a finding that offers clues to how species evolve.
Common weed could provide clues on aging and cancer
A common weed and human cancer cells could provide some very uncommon details about DNA structure and its relationship with telomeres and how they affect cellular aging and cancer, according to a team led by scientists from Texas A&M University and the University of Cincinnati (UC).
Boston University scientists first to see RNA network in live bacterial cells
Scientists who study RNA have faced a formidable roadblock: trying to examine RNA's movements in a living cell when they can't see the RNA. Now, a new technology has given scientists the first look ever at RNA in a live bacteria cell-a sight that could offer new information about how the molecule moves and works.
Texas A&M researchers find new mechanism for circadian rhythm
Molecules that may hold the key to new ways to fight cancer and other diseases have been found to play an important role in regulating circadian rhythm, says Liheng Shi, a researcher in Texas A&M's Department of Veterinary Integrative Biosciences.
Checkered history of mother and daughter cells explains cell cycle differences
When mother and daughter cells are created each time a cell divides, they are not exactly alike. They have the same set of genes, but differ in the way they regulate them.
Eutrophication affects diversity of algae
Eutrophication of the seas may have an impact on genetic variation in algae, research at the University of Gothenburg shows.
MDC scientists show how hematopoietic stem cell development is regulated
During cell division, whether hematopoietic stem cells (HSCs) will develop into new stem cells (self-renewal) or differentiate into other blood cells depends on a chemical process called DNA methylation.
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SciEd Cell Division: Mitosis, Meiosis, and Cytokinesis VHS Video by Neo/Sci Corporation Video, Cell division; Neo Sci; Mitosis, Meiosis, and Cytokinesis; VHS |
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