 |
|
Human beta cells can be easily induced to replicate, according to study in Diabetes
January 14, 2009Researchers at the University of Pittsburgh School of Medicine have successfully induced human insulin-producing cells, known as beta cells, to replicate robustly in a living animal, as well as in the lab. The discovery not only could improve models and methods for studying diabetes, but also opens up new possibilities for treating the condition.
"Most scientists thought that these important pancreatic cells could not be induced to regenerate, or could only replicate very slowly," explained senior author Andrew F. Stewart, M.D., professor of medicine and chief of the Division of Endocrinology and Metabolism at the University of Pittsburgh School of Medicine. "This work provides proof-of-principle that the production of human beta cells can be stimulated, and that the newly generated cells function effectively both in the lab and in a living animal."
The findings are in the early online version of Diabetes, one of the journals of the American Diabetes Association.
Lead authors Nathalie Fiaschi-Taesch, Ph.D., assistant professor in Pitt's endocrinology division, and Todd A. Bigatel, M.D., a graduate of the postdoctoral fellowship program, identified molecules that play key roles in human beta, or islet, cell replication, building on previous work conducted by co-author Irene Cozar-Castellano, Ph.D., also an instructor of endocrinology, who performed similar studies using mouse cells.
They found that, unlike rodents, human beta cells contain a significant amount of a protein called cdk-6. When cdk-6 production was increased using a viral vector carrying the cdk-6 gene, the cells replicated. Stimulation was further enhanced by increasing production of another cell cycle molecule called cyclin D1. Untreated human islets did not replicate.
"After we transplanted some of these engineered human beta cells under the outer layer of a kidney in a diabetic mouse, we saw that replication continued and blood sugar levels normalized," explained Dr. Fiaschi-Taesch. "When we took out the kidney that contained the insulin-producing cells, the mouse immediately developed diabetes again."
The prospect of being able to study human beta cells and their replication in vivo, meaning in a living animal, could greatly improve diabetes study models, and could lead to techniques to generate new beta cells in patients with diabetes. In the future, it also could allow more effective therapeutic transplants of insulin-producing cells - either by expanding the numbers of cells available from a single cadaveric donor or from a gene-enhanced version of the patient's own cells, or by establishing permanent cell lines from existing beta cells or stem cells, Dr. Stewart pointed out.
He added that cell cycle replication molecules might also be targets for drugs that could transiently turn on beta cell replication to increase insulin production.
University of Pittsburgh Schools of the Health Sciences
Lead authors Nathalie Fiaschi-Taesch, Ph.D., assistant professor in Pitt's endocrinology division, and Todd A. Bigatel, M.D., a graduate of the postdoctoral fellowship program, identified molecules that play key roles in human beta, or islet, cell replication, building on previous work conducted by co-author Irene Cozar-Castellano, Ph.D., also an instructor of endocrinology, who performed similar studies using mouse cells.
They found that, unlike rodents, human beta cells contain a significant amount of a protein called cdk-6. When cdk-6 production was increased using a viral vector carrying the cdk-6 gene, the cells replicated. Stimulation was further enhanced by increasing production of another cell cycle molecule called cyclin D1. Untreated human islets did not replicate.
"After we transplanted some of these engineered human beta cells under the outer layer of a kidney in a diabetic mouse, we saw that replication continued and blood sugar levels normalized," explained Dr. Fiaschi-Taesch. "When we took out the kidney that contained the insulin-producing cells, the mouse immediately developed diabetes again."
The prospect of being able to study human beta cells and their replication in vivo, meaning in a living animal, could greatly improve diabetes study models, and could lead to techniques to generate new beta cells in patients with diabetes. In the future, it also could allow more effective therapeutic transplants of insulin-producing cells - either by expanding the numbers of cells available from a single cadaveric donor or from a gene-enhanced version of the patient's own cells, or by establishing permanent cell lines from existing beta cells or stem cells, Dr. Stewart pointed out.
He added that cell cycle replication molecules might also be targets for drugs that could transiently turn on beta cell replication to increase insulin production.
University of Pittsburgh Schools of the Health Sciences
Moderate use averts failure of type 2 diabetes drugs in animal model
Drugs widely used to treat type 2 diabetes may be more likely to keep working if they are used in moderation, researchers at Washington University School of Medicine in St. Louis have found in a study using an animal model.
Battling Diabetes with Beta Cells
Affecting eight percent of America's population, diabetes can lead to blindness, kidney failure, strokes and heart disease. Thanks to Tel Aviv University researchers, a new cure -- based on advances in cell therapy -- may be within reach.
More Human Beta Cells Current Events and Human Beta Cells News Articles
|
Nature Biotechnology October 2005: Human Beta-cells on Tap by Nature (Author) | |
|
[beta]-Sitosterol activates Fas signaling in human breast cancer cells.: An article from: Phytomedicine: International Journal of Phytotherapy & Phytopharmacology by A.B. Awad (Author), M. Chinnam (Author), C.S. Fink (Author), P.G. Bradford (Author) This digital document is an article from Phytomedicine: International Journal of Phytotherapy & Phytopharmacology, published by Thomson Gale on November 1, 2007. The length of the article is 4729 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: [beta]-Sitosterol activates Fas signaling in human breast cancer cells. Author: A.B. Awad Publication: Phytomedicine: International Journal of Phytotherapy & Phytopharmacology (Magazine/Journal) Date: November 1, 2007 Publisher: Thomson Gale Volume: 14 Issue: 11 Page: 747(8) Distributed by Thomson... | |
|
Red Cell Genetic Abnormalities, [beta]-Globin Gene Haplotypes, and APOB Polymorphism in the Great Andamanese, A Primitive Negrito Tribe of Andaman and ... Included): An article from: Human Biology by K.M. Murhekar (Author), M.V. Murhekar (Author), M.B. Mukherjee (Author), A.C. Gorakshakar (Author), R. Surve (Author), M. Wadia (Author), S. Phanasgaonkar (Author), S. Shridevi (Author), B. Colah Roshan (Author), D. Mohanty (Author) This digital document is an article from Human Biology, published by Wayne State University Press on October 1, 2001. The length of the article is 2602 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Red Cell Genetic Abnormalities, [beta]-Globin Gene Haplotypes, and APOB Polymorphism in the Great Andamanese, A Primitive Negrito Tribe of Andaman and Nicobar Islands, India. (Brief Communications).(apolipoprotein B)(Statistical Data Included) Author: K.M. Murhekar Publication: Human Biology (Refereed) Date: October 1, 2001 Publisher: Wayne State University... | |
|
Pancreatic human islet cells offer alternative to pancreas transplant. (Patients with Type 1 Diabetes).: An article from: Family Practice News by Patrice G.W. Norton (Author) This digital document is an article from Family Practice News, published by International Medical News Group on January 15, 2003. The length of the article is 460 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Pancreatic human islet cells offer alternative to pancreas transplant. (Patients with Type 1 Diabetes). Author: Patrice G.W. Norton Publication: Family Practice News (Magazine/Journal) Date: January 15, 2003 Publisher: International Medical News Group Volume: 33 Issue: 2 Page: 14(1) Distributed by Thomson... | |
|
Pancreatic human islet cells: safe, less invasive. (Alternative to Pancreas Transplantation).: An article from: Internal Medicine News by Patrice G.W. Norton (Author) This digital document is an article from Internal Medicine News, published by International Medical News Group on January 15, 2003. The length of the article is 2068 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Pancreatic human islet cells: safe, less invasive. (Alternative to Pancreas Transplantation). Author: Patrice G.W. Norton Publication: Internal Medicine News (Magazine/Journal) Date: January 15, 2003 Publisher: International Medical News Group Volume: 36 Issue: 2 Page: 23(1) Distributed by Thomson... | |
|
Human islet cell transplantation for insulin dependent diabetes mellitus. (Journal Club).: An article from: Nephrology Nursing Journal by Patricia Weiskittel (Author) This digital document is an article from Nephrology Nursing Journal, published by Jannetti Publications, Inc. on June 1, 2002. The length of the article is 2046 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Human islet cell transplantation for insulin dependent diabetes mellitus. (Journal Club). Author: Patricia Weiskittel Publication: Nephrology Nursing Journal (Refereed) Date: June 1, 2002 Publisher: Jannetti Publications, Inc. Volume: 29 Issue: 3 Page: 306(3) Distributed by Thomson... | |
|
Pacemaker Activity and Intercellular Communication by Jan D. Huizinga (Author) The book focuses on enhancing our understanding of pacemaker systems and associated mechanisms of intercellular communication. Three different physiological systems are compared: the cadiac system, the b cells of the pancreas, and the gastrointestinal tract. Experts in all three areas highlight the parallels and comparisons among the systems. Emphasis is placed on finding precise characteristics of all cell types involved in pacemaker activity. The interpretation of data on single isolated cells in light of tissue function receives thorough discussion. Ion channel characteristics involved in the generation of action potential and pacemaker components are described in detail. A fascinating but largely unexplored area is touched upon: the electrical and metabolic coupling of different cell... | |
|
Synergistic Reduction in Proliferation of the Human Histiolytic Lymphoma Cell Line, U-937, by the Combined Action of Recombinant Interferon on Beta-ser ... in 2'- 5' Oligoadenylate Synthetase. ; by Timothy A Anderson (Author) |
| © 2009 BrightSurf.com |