This issue of the American Chemical Society (ACS) News Service Weekly press package (PressPac) is a special edition with selections from scientific presentations scheduled for the ACS national meeting in San Francisco. Our regular coverage of reports from 34 major peer-reviewed journals and Chemical & Engineering News will resume with the Sept. 20, 2006 edition.
In this Special Edition:
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NOTE: A press briefing with call-in audio participation will be held on Articles 1-3. Reporters are asked to call in five to ten minutes prior to the scheduled start time. Reporters will be asked to identify themselves, their affiliations and the topic of the briefing. Call 800-967-7140 (domestic) or 719-457-2629 (international).
ARTICLE #1 EMBARGOED FOR Wednesday, Sept. 13, 1:00 p.m., EDT Adult stem cells show wider potential than previously thought
Chemists are developing new insights and techniques in an effort to expand the therapeutic potential of stem cells, which includes possible treatments for Parkinson's disease, diabetes, spinal cord injury and other devastating conditions.
Embryonic stem cells are the most versatile stem cells, capable of being transformed into any other cell type, depending on their desired therapeutic use. Now, researchers at Northwestern University have found new evidence that hematopoietic stem cells, a type of adult stem cell derived from the bone marrow that gives rise to blood cells, are capable of undergoing more diverse transformations than previously thought and could be transformed into a wide variety of tissue types, not just blood cells.
In recent laboratory tests, human megakaryocytes (bone marrow cells that produce blood platelets that are responsible for blood clotting) derived from adult hematopoietic stem cells were, for the first time, reprogrammed into neutrophil-like cells similar to the white blood cells that are responsible for fighting infections, according to study leader E. Terry Papoutsakis. Insights from this study could help guide similar adult stem cell transformations in other cell types in the future, he says.
ARTICLE #1 EMBARGOED FOR Wednesday, Sept. 13, 1:00 p.m., EDT
E. Terry Papoutsakis, Ph.D.
ARTICLE #2 EMBARGOED FOR Wednesday, Sept. 13, 1:00 p.m., EDT Elasticity of tissue environment plays role in determining stem cell growth
Researchers at the University of Pennsylvania have shown that the elasticity of a stem cell's environment is a major determinant of what type of tissue the stem cell becomes.
In laboratory tests, Dennis Discher and Adam Engler grew mesenchymal stem cells (derived from adult bone marrow) in polymer hydrogels with either soft, medium or rigid elasticity. Based on resulting cell shapes as well as messenger RNA and protein markers, stem cells grown in softer environments -- such as brain tissue -- tended to produce nerve-like cells; those grown in environments with medium elasticity -- similar to muscle -- produced muscle-like cells
The stem cells grown in more rigid environments -- like bone -- produced bone-like cells. The study provides new clues on how chemical and mechanical factors interact to influence stem cell growth, the researchers say.
ARTICLE #2 EMBARGOED FOR Wednesday, Sept. 13, 1:00 p.m., EDT
Dennis Discher, Ph.D.
University of Pennsylvania
Adam Engler, Ph.D.
University of Pennsylvania
ARTICLE #3 EMBARGOED FOR Wednesday, Sept. 13, 1:00 p.m., EDT 'Stretched' stem cells have potential to be transformed into blood vessel cells
Scientists have searched for years for a renewable cell source to craft blood vessels that can be used for heart bypass surgery and perform more like natural arteries.
Now, researchers at the University of California, Berkeley, have shown that mesenchymal stem cells from adult bone marrow can be repeatedly and mechanically stretched -- in a manner similar to a taffy pull -- into patterns that could potentially transform them into smooth muscle cells similar to blood vessel tissue.
These newly formed smooth muscle cells, which can expand and contract, could be used as a component of a tissue-engineered graft that may provide superior performance over conventional grafts that are used for bypass surgery, says study leader Kyle Kurpinkski, a doctoral candidate in the University's Department of Bioengineering.
ARTICLE #3 EMBARGOED FOR Wednesday, Sept. 13, 1:00 p.m., EDT
University of California, Berkeley
ARTICLE #4 EMBARGOED FOR Thursday, Sept. 14, 6:00 p.m. EDT California scientists find natural way to control spread of destructive Argentine ants
Chemists and biologists at the University of California, Irvine, (UCI) think they may have found a natural way to finally check the spread of environmentally destructive Argentine ants in California and elsewhere in the United States: Spark a family feud.
Organic chemist Kenneth Shea, evolutionary biologist Neil Tsutsui and graduate student Robert Sulc found that the ants use chemical cues on their exoskeletons to recognize other members of their own colony. Because Argentine ants in the California super colony are so interrelated, they have similar "recognition" cues and generally cooperate with each other.
But in their preliminary laboratory work, Shea and Tsutsui were able to create a slightly altered, synthetic version of one of these "recognition" compounds, which was composed mainly of linear hydrocarbons with one- to three-side chains called methyl groups. When coated onto experimental Argentine ants, the synthetic recognition compound caused untreated nest mates to attack. Although further study is needed, this approach could help control the spread of this pest, Shea said.
Argentine ants are one of the most widespread and ecologically damaging invasive species, Tsutsui said. When Argentine ants are introduced to a new habitat, they eliminate virtually all native species of ants and cause significant harm to agricultural crops, such as citrus, by protecting aphids and scale insects from potential predators and parasites.
ARTICLE #4 EMBARGOED FOR Thursday, Sept. 14, 6:00 p.m. EDT
CONTACT: Kenneth J. Shea, Ph.D. Department of Chemistry University of California, Irvine Irvine, CA 92697-2025 Phone: 949-824-5844 E-mail: firstname.lastname@example.org
Neil Tsutsui, Ph.D.
Department of Ecology and Evolutionary Biology
University of California, Irvine
Phone: (949) 824-7525
Fax: (949) 824-2181
ARTICLE #5 EMBARGOED FOR Thursday, Sept. 14, 2:30 p.m., EDT Pesticide exposure could increase risk of early onset of Parkinson's disease
Low-level exposure to a banned but lingering pesticide appears to accelerate changes in the brain that can potentially lead to the onset of Parkinson's disease symptoms years or even decades before they might naturally develop, researchers have found in a pilot study.
The concept of an accelerated disease process is a new twist in the investigation of the long-suspected link between the use of pesticides and Parkinson's disease, according to Gary Miller and colleagues. They found that levels of dieldrin, a now-banned organochlorine pesticide developed in the 1940s as an alternative to DDT, were three times higher in the brains of 14 people who had Parkinson's disease than in the brains of 12 people without the disease.
Based on this finding, the researchers estimated the lifetime exposure levels of these people and extrapolated these levels to mice. They then exposed laboratory mice to low, but "environmentally relevant" dosages of dieldrin - about 1 to 3 milligrams per kilogram. After one month, although none of the mice showed symptoms of Parkinson's disease, the researchers did detect increased levels of oxidative stress in the brain and significantly reduced uptake of dopamine, the neurotransmitter that plays a key role in the development of Parkinson's.
ARTICLE #5 EMBARGOED FOR Thursday, Sept. 14, 2:30 p.m., EDT
Kurt D. Pennell, Ph.D Georgia Institute of Technology
Atlanta, Georgia 30332-0512 USA
Phone: (404) 894-9365
Fax: (404) 894-8266
E-mail: email@example.com Environmental Engineering Group
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The American Chemical Society -- the world's largest scientific society -- is a nonprofit organization chartered by the U.S. Congress and a global leader in providing access to chemistry-related research through its multiple databases, peer-reviewed journals and scientific conferences. Its main offices are in Washington, D.C., and Columbus, Ohio.
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