PUBLIC RELEASE DATE: 1-Nov-2013
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Contact: Anita Srikameswaran
SrikamAV@upmc.edu
412-720-2058
University of Pittsburgh Schools of the Health Sciences
PITTSBURGH, Nov. 1, 2013 The red, swollen and painful gums and bone destruction of periodontal disease could be effectively treated by beckoning the right kind of immune system cells to the inflamed tissues, according to a new animal study conducted by researchers at the University of Pittsburgh. Their findings, published this week in the early online version of the Proceedings of the National Academy of Sciences, offer a new therapeutic paradigm for a condition that afflicts 78 million people in the U.S. alone.
Periodontal disease currently is treated by keeping oral bacteria in check with daily brushing and flossing as well as regular professional deep cleaning with scaling and root planing, which remove tartar above and below the gum line. In some hard-to-treat cases, antibiotics are given. These strategies of mechanical tartar removal and antimicrobial delivery aim to reduce the amount of oral bacteria on the tooth surface, explained co-author and co-investigator Charles Sfeir, D.D.S., Ph.D., director, Center for Craniofacial Regeneration and associate professor, Departments of Periodontics and Oral Biology, Pitt's School of Dental Medicine.
"Currently, we try to control the build-up of bacteria so it doesn't trigger severe inflammation, which could eventually damage the bone and tissue that hold the teeth in place," Dr. Sfeir said. "But that strategy doesn't address the real cause of the problem, which is an overreaction of the immune system that causes a needlessly aggressive response to the presence of oral bacteria. There is a real need to design new approaches to treat periodontal disease."
In the healthy mouth, a balance exists between bacteria and the immune system response to forestall infection without generating inflammation, said senior author Steven Little, Ph.D., associate professor and chair of the Department of Chemical and Petroleum Engineering, Pitt's Swanson School of Engineering. But in many people, a chronic overload of bacteria sets up the immune system to stay on red alert, causing harm to the oral tissues while it attempts to eradicate germs.
"There is a lot of evidence now that shows these diseased tissues are deficient in a subset of immune cells called regulatory T-cells, which tells attacking immune cells to stand down, stopping the inflammatory response," Dr. Little said. "We wanted to see what would happen if we brought these regulatory T-cells back to the gums."
To do so, the researchers developed a system of polymer microspheres to slowly release a chemokine, or signaling protein, called CCL22 that attracts regulatory T-cells, and placed tiny amounts of the paste-like agent between the gums and teeth of animals with periodontal disease. The team found that even though the amount of bacteria was unchanged, the treatment led to improvements of standard measures of periodontal disease, including decreased pocket depth and gum bleeding, reflecting a reduction in inflammation as a result of increased numbers of regulatory T-cells. MicroCT-scanning showed lower rates of bone loss.
"Mummified remains from ancient Egypt show evidence of teeth scraping to remove plaque," Dr. Little noted. "The tools are better and people are better trained now, but we've been doing much the same thing for hundreds of years. Now, this homing beacon for Treg cells, combined with professional cleaning, could give us a new way of preventing the serious consequences of periodontal disease by correcting the immune imbalance that underlies the condition."
Next steps include developing the immune modulation strategy for human trials. In addition to Drs. Sfeir and Little, the research team included Ph.D. candidate Andrew J. Glowacki,, Sayuri Yoshizawa, D.D.S., Ph.D., Siddharth Jhunjhunwala, Ph.D., all of the University of Pittsburgh; and Andreia E Vieira, Ph.D., and Gustavo P. Garlet, D.D.S., Ph.D., of Sao Paulo University, Brazil.
###
The project was funded by National Institutes of Health Grants 1R01DE021058-01 A1, 1R56DE021058-01, the Wallace H. Coulter Foundation, the Camille and Henry Dreyfus Foundation, the Arnold and Mabel Beckman Foundation and the Commonwealth of Pennsylvania.
About the University of Pittsburgh School of Dental Medicine
Established in 1896 as an independent institution named the Pittsburgh Dental College, the School of Dental Medicine was incorporated into the University of Pittsburgh in 1905. The school offers a four-year Predoctoral Program leading to a Doctor of Dental Medicine (DMD) degree, an International and Advanced Standing Program for graduates of foreign dental schools, and post-graduate residency programs in 10 disciplines. The school of Dental Medicine offers the only dental hygiene certificate program in Pennsylvania affiliated with a major university, in addition to a dental hygiene baccalaureate degree program. The School of Dental Medicine's comprehensive clinical offerings include the new Multidisciplinary Implant Center and the Center for Patients with Special Needs, one of the few centers in the U.S. dedicated to training future dentists to care for patients with disabilities. Recognized for excellence in research, the School of Dental medicine ranked 6th in National Institute of Dental and Craniofacial Research funding for fiscal year 2011. For more information about the school of Dental Medicine, visit http://www.dental.pitt.edu.
About the University of Pittsburgh's Swanson School of Engineering
The University of Pittsburgh's Swanson School of Engineering is one of the oldest engineering programs in the United States. The Swanson School has excelled in basic and applied research during the past decade and is in the forefront of 21st century technology, including energy systems, sustainability, bioengineering, microsystems and nanosystems, computational modeling and advanced materials development. Approximately 120 faculty members serve more than 3,200 undergraduate and graduate students in six departments, including bioengineering, chemical and petroleum engineering, civil and environmental engineering, electrical engineering, industrial engineering and mechanical engineering and materials science. In 2011, the Swanson School was the top-ranked U.S. school in the percentage of doctoral degrees awarded to women in engineering, according to a ranking based on 2010-11 data from the American Society for Engineering.
http://www.upmc.com/media
Contact:
Anita Srikameswaran
Phone: 412-720-2058
E-mail: SrikamAV@upmc.edu
Contact:
Stephanie Stanley
Phone: 412-586-9762
E-mail: StanleySL@upmc.edu
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Share
]
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
PUBLIC RELEASE DATE: 1-Nov-2013
[
]
Share
Contact: Anita Srikameswaran
SrikamAV@upmc.edu
412-720-2058
University of Pittsburgh Schools of the Health Sciences
PITTSBURGH, Nov. 1, 2013 The red, swollen and painful gums and bone destruction of periodontal disease could be effectively treated by beckoning the right kind of immune system cells to the inflamed tissues, according to a new animal study conducted by researchers at the University of Pittsburgh. Their findings, published this week in the early online version of the Proceedings of the National Academy of Sciences, offer a new therapeutic paradigm for a condition that afflicts 78 million people in the U.S. alone.
Periodontal disease currently is treated by keeping oral bacteria in check with daily brushing and flossing as well as regular professional deep cleaning with scaling and root planing, which remove tartar above and below the gum line. In some hard-to-treat cases, antibiotics are given. These strategies of mechanical tartar removal and antimicrobial delivery aim to reduce the amount of oral bacteria on the tooth surface, explained co-author and co-investigator Charles Sfeir, D.D.S., Ph.D., director, Center for Craniofacial Regeneration and associate professor, Departments of Periodontics and Oral Biology, Pitt's School of Dental Medicine.
"Currently, we try to control the build-up of bacteria so it doesn't trigger severe inflammation, which could eventually damage the bone and tissue that hold the teeth in place," Dr. Sfeir said. "But that strategy doesn't address the real cause of the problem, which is an overreaction of the immune system that causes a needlessly aggressive response to the presence of oral bacteria. There is a real need to design new approaches to treat periodontal disease."
In the healthy mouth, a balance exists between bacteria and the immune system response to forestall infection without generating inflammation, said senior author Steven Little, Ph.D., associate professor and chair of the Department of Chemical and Petroleum Engineering, Pitt's Swanson School of Engineering. But in many people, a chronic overload of bacteria sets up the immune system to stay on red alert, causing harm to the oral tissues while it attempts to eradicate germs.
"There is a lot of evidence now that shows these diseased tissues are deficient in a subset of immune cells called regulatory T-cells, which tells attacking immune cells to stand down, stopping the inflammatory response," Dr. Little said. "We wanted to see what would happen if we brought these regulatory T-cells back to the gums."
To do so, the researchers developed a system of polymer microspheres to slowly release a chemokine, or signaling protein, called CCL22 that attracts regulatory T-cells, and placed tiny amounts of the paste-like agent between the gums and teeth of animals with periodontal disease. The team found that even though the amount of bacteria was unchanged, the treatment led to improvements of standard measures of periodontal disease, including decreased pocket depth and gum bleeding, reflecting a reduction in inflammation as a result of increased numbers of regulatory T-cells. MicroCT-scanning showed lower rates of bone loss.
"Mummified remains from ancient Egypt show evidence of teeth scraping to remove plaque," Dr. Little noted. "The tools are better and people are better trained now, but we've been doing much the same thing for hundreds of years. Now, this homing beacon for Treg cells, combined with professional cleaning, could give us a new way of preventing the serious consequences of periodontal disease by correcting the immune imbalance that underlies the condition."
Next steps include developing the immune modulation strategy for human trials. In addition to Drs. Sfeir and Little, the research team included Ph.D. candidate Andrew J. Glowacki,, Sayuri Yoshizawa, D.D.S., Ph.D., Siddharth Jhunjhunwala, Ph.D., all of the University of Pittsburgh; and Andreia E Vieira, Ph.D., and Gustavo P. Garlet, D.D.S., Ph.D., of Sao Paulo University, Brazil.
###
The project was funded by National Institutes of Health Grants 1R01DE021058-01 A1, 1R56DE021058-01, the Wallace H. Coulter Foundation, the Camille and Henry Dreyfus Foundation, the Arnold and Mabel Beckman Foundation and the Commonwealth of Pennsylvania.
About the University of Pittsburgh School of Dental Medicine
Established in 1896 as an independent institution named the Pittsburgh Dental College, the School of Dental Medicine was incorporated into the University of Pittsburgh in 1905. The school offers a four-year Predoctoral Program leading to a Doctor of Dental Medicine (DMD) degree, an International and Advanced Standing Program for graduates of foreign dental schools, and post-graduate residency programs in 10 disciplines. The school of Dental Medicine offers the only dental hygiene certificate program in Pennsylvania affiliated with a major university, in addition to a dental hygiene baccalaureate degree program. The School of Dental Medicine's comprehensive clinical offerings include the new Multidisciplinary Implant Center and the Center for Patients with Special Needs, one of the few centers in the U.S. dedicated to training future dentists to care for patients with disabilities. Recognized for excellence in research, the School of Dental medicine ranked 6th in National Institute of Dental and Craniofacial Research funding for fiscal year 2011. For more information about the school of Dental Medicine, visit http://www.dental.pitt.edu.
About the University of Pittsburgh's Swanson School of Engineering
The University of Pittsburgh's Swanson School of Engineering is one of the oldest engineering programs in the United States. The Swanson School has excelled in basic and applied research during the past decade and is in the forefront of 21st century technology, including energy systems, sustainability, bioengineering, microsystems and nanosystems, computational modeling and advanced materials development. Approximately 120 faculty members serve more than 3,200 undergraduate and graduate students in six departments, including bioengineering, chemical and petroleum engineering, civil and environmental engineering, electrical engineering, industrial engineering and mechanical engineering and materials science. In 2011, the Swanson School was the top-ranked U.S. school in the percentage of doctoral degrees awarded to women in engineering, according to a ranking based on 2010-11 data from the American Society for Engineering.
http://www.upmc.com/media
Contact:
Anita Srikameswaran
Phone: 412-720-2058
E-mail: SrikamAV@upmc.edu
Contact:
Stephanie Stanley
Phone: 412-586-9762
E-mail: StanleySL@upmc.edu
[
Share
]
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2013-11/uops-ptg110113.php
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