 |
|
Circulating fats kill transplanted pancreas cells, study shows
August 28, 2007Dietary restrictions or other strategies that limit fat formation might make pancreatic cell transplants more effective, UT Southwestern Medical Center researchers report.
Using animal models, the researchers discovered that pancreatic islet cells transplanted into the liver fail not only because of immune rejection, but also because of overexposure to toxic fats that are synthesized by the surrounding liver cells and flood the pancreatic transplants. Their findings appear in the September issue of the journal Diabetes.
To date, a few hundred people have received transplants of complexes of pancreatic cells, called islets. The islets are implanted in the liver, where they at first make insulin, but over months or years their production often declines.
"By understanding how fat affects these cells, maybe we can improve islet transplant and make it last a bit longer," said Dr. Roger Unger, professor of internal medicine at UT Southwestern and senior author of the study.
During islet transplantation, the pancreatic cell complexes are injected into a large vein that feeds into the liver, where they lodge. Cells within the islets, called beta cells, then produce insulin. The person receiving the transplant must take anti-rejection drugs.
Dr. Unger said that after two years, 87 percent of recipients must resume taking insulin, a problem that has led clinicians to investigate if the anti-rejection drugs are at fault, or if some other mechanism is at work.
In the current study, UT Southwestern researchers tested the hypothesis that fats in the liver might be killing the beta cells. The liver receives its blood supply directly from the digestive system, which provides a rich concentration of fats and sugars to the transplanted islet cells - conditions the cells would not be exposed to in their normal environment in the pancreas. The researchers also theorized that the insulin that each islet produced might stimulate fat production around itself, adding to the problem.
The researchers first injected rats with a drug that kills pancreatic beta cells in order to mimic human insulin-dependent, or juvenile, diabetes (type 1), a condition in which beta cells are unable to produce insulin. They then transplanted beta cells into the animals' livers. Fat accumulations were found around islets four weeks after transplantation. Insulin levels declined, and the animals died at 15 weeks.
Another group of similar rats was then exposed to one of two conditions that reduce body fat - a restricted diet or administration of leptin, a hormone that decreases appetite and increases metabolism. In both cases, more beta cells survived. Rats that had received leptin also showed the highest survival rate of beta cells.
Because the differences among the groups of rats could be traced to the amount of fat, and no anti-rejection drugs had been given, the results validate their theory that fat was the culprit in killing the beta cells, Dr. Unger said.
These results also suggest that diet and weight control might enable transplanted beta cells in humans to survive longer or avoid destruction, he said.
"This seems very easy to prevent, but it's not being targeted by researchers," he said.
Dr. Unger said the study could also serve as a model for death of beta cells in non-insulin-dependent, or adult-onset, diabetes (type 2), a condition that is associated largely with obesity. His group is now working with other researchers at UT Southwestern to determine if excess fat is killing cells in obese humans.
UT Southwestern Medical Center
"By understanding how fat affects these cells, maybe we can improve islet transplant and make it last a bit longer," said Dr. Roger Unger, professor of internal medicine at UT Southwestern and senior author of the study.
During islet transplantation, the pancreatic cell complexes are injected into a large vein that feeds into the liver, where they lodge. Cells within the islets, called beta cells, then produce insulin. The person receiving the transplant must take anti-rejection drugs.
Dr. Unger said that after two years, 87 percent of recipients must resume taking insulin, a problem that has led clinicians to investigate if the anti-rejection drugs are at fault, or if some other mechanism is at work.
In the current study, UT Southwestern researchers tested the hypothesis that fats in the liver might be killing the beta cells. The liver receives its blood supply directly from the digestive system, which provides a rich concentration of fats and sugars to the transplanted islet cells - conditions the cells would not be exposed to in their normal environment in the pancreas. The researchers also theorized that the insulin that each islet produced might stimulate fat production around itself, adding to the problem.
The researchers first injected rats with a drug that kills pancreatic beta cells in order to mimic human insulin-dependent, or juvenile, diabetes (type 1), a condition in which beta cells are unable to produce insulin. They then transplanted beta cells into the animals' livers. Fat accumulations were found around islets four weeks after transplantation. Insulin levels declined, and the animals died at 15 weeks.
Another group of similar rats was then exposed to one of two conditions that reduce body fat - a restricted diet or administration of leptin, a hormone that decreases appetite and increases metabolism. In both cases, more beta cells survived. Rats that had received leptin also showed the highest survival rate of beta cells.
Because the differences among the groups of rats could be traced to the amount of fat, and no anti-rejection drugs had been given, the results validate their theory that fat was the culprit in killing the beta cells, Dr. Unger said.
These results also suggest that diet and weight control might enable transplanted beta cells in humans to survive longer or avoid destruction, he said.
"This seems very easy to prevent, but it's not being targeted by researchers," he said.
Dr. Unger said the study could also serve as a model for death of beta cells in non-insulin-dependent, or adult-onset, diabetes (type 2), a condition that is associated largely with obesity. His group is now working with other researchers at UT Southwestern to determine if excess fat is killing cells in obese humans.
UT Southwestern Medical Center
Pancreatic Current Events and Pancreatic News RSSPure insulin-producing cells produced in mouse
Singapore researchers have developed an unlimited number of pure insulin-producing cells from mouse embryonic stem cells (ESCs).
2 new compounds show promise for eliminating breast cancer tumors
Two new compounds created by a University of Central Florida professor show early promise for destroying breast cancer tumors.
The miseries of allergies just may help prevent some cancers, study finds
There may be a silver -- and healthy -- lining to the miserable cloud of allergy symptoms: Sneezing, coughing, tearing and itching just may help prevent cancer -- particularly colon, skin, bladder, mouth, throat, uterus and cervix, lung and gastrointestinal tract cancer, according to a new Cornell study.
Researchers aim to over-stress already taxed mantle cell lymphoma cells
Cancer cells are already stressed by the fast pace they require to grow and spread and scientists believe a little more stress just may kill them.
Cancer drugs my build and not tear down blood vessels
Scientists have thought that one way to foil a tumor from generating blood vessels to feed its growth - a process called angiogenesis - was by creating drugs aimed at stopping a key vessel growth-promoting protein. But now the opposite seems to be true.
UC Davis researchers discover Achilles' heel in pancreatic cancer
UC Davis Cancer Center researchers have discovered a metabolic deficiency in pancreatic cancer cells that can be used to slow the progress of the deadliest of all cancers.
New journal shows half-broken gene is enough to cause cancer
Tumour suppressor genes do not necessarily require both alleles to be knocked out before disease phenotypes are expressed. Research published in BioMed Central's new open access journal PathoGenetics reveals that only one allele of SMAD4 has to be damaged to put a person at risk of pancreatic and colorectal cancer.
Can berberine enhance glucose-stimulated insulin secretion in rat islets?
The therapeutical actions of berberine on diabetes have been well studied. Previous researches show that berberine modulates cholesterol through increasing low-density lipoprotein receptor mRNA stability, reduces body adiposity and increases insulin sensitivity partly through activating AMP-activated protein kinase and improves glucose metabolism via induction of glycolysis. Yet, the underlying mechanism for berberine promoting insulin release remains unclear.
Jefferson Department of Surgery announces new pancreas tumor registry
Charles J. Yeo, M.D., Samuel D. Gross Professor and Chair, Department of Surgery at Jefferson Medical College of Thomas Jefferson University, announces the establishment of the new Jefferson Pancreas Tumor Registry (JPTR).
Syracuse University researchers discover new way to attack some forms of leukemia
Each year, some 29,000 adults and 2,000 children are diagnosed with leukemia, a form of cancer that is caused by the abnormal production of white blood cells in the bone marrow.
More Pancreatic Current Events and Pancreatic News Articles
 | 100 Q&A About Pancreatic Cancer (100 Questions Series) by Joanne Frankel Kelvin Eileen O'Reilly EMPOWER YOURSELF! Whether you’re a newly diagnosed pancreatic cancer patient, a survivor, or a friend or relative of someone with pancreatic cancer, this book offers help. The only text to provide a doctor’s and patient’s view, 100 Questions & Answers About Pancreatic Cancer gives you authoritative, practical answers to your questions about treatment options, post-treatment quality of... |
 | My Journey With Pancreatic Cancer by Calvin E. Rains Sr. This book is shared to help all understand the cancer affecting the pancreas which is a vital organ in the digestion of food. Pancreatic cancer is one of the most deadly of cancers affecting the human body. Less than 5% of those diagnosed with Pancreatic Cancer survive the first year. This book is intended to help the patient, their families, and friends to understand the dangers and possible... |
 | Pancreatic Cancer (M.D. Anderson Solid Tumor Oncology Series) Since the previous M.D. Anderson Solid Tumor Oncology Series publication on pancreatic cancer, there have been major advances in our understanding of molecular events which underlie pancreatic cancer development, both in the sporadic and inherited forms. We have seen the development of the first mouse models that accurately recapitulate features of the human disease. Several landmark clinical... |
| 100 Questions & Answers About Pancreatic Cancer, 2nd Edition (100 Questions & Answers about . . .) by Eileen O'Reilly Empower yourself!Whether you're a newly diagnosed pancreatic cancer patient, a survivor, or friend or relative of someone with pancreatic cancer, this book offers help. The only text to provide a doctor's and a patient's view, 100 Questions & Answers About Pancreatic Cancer, Second Edition gives you authoritative, practical answers to your questions about treatment options, post-treatment quality... | |
 | Pancreatic Cytopathology (Essentials in Cytopathology) by David C. Chhieng, Edward B. Stelow This volume will fulfill the need for an easy-to-use and authoritative synopsis of pancreas cytopathology. This volume, part of the Essentials in Cytopathology book series, fits into the lab coat pocket and is ideal for portability and quick reference. Each volume in the series is heavily illustrated with a full color art program, while the text follows a user-friendly outline... |
| Pancreatic Cancer (American Cancer Society Atlas of Clinical Oncology) by John L. Cameron At present, there are approximately 28,300 new cases of pancreatic cancer in the United States. It is the fourth leading cause of cancer death in men and women. Approximately 2 out of 10 patients with cancer of the pancreas will live at least one year after the cancer is found, but only a very few will survive for five or more years. The editors have brought together a stellar team of... | |
 | Pancreatic Transplantation Pancreatic transplantation has emerged as the single most effective means to achieve normal glucose homeostasis in patients suffering from type 1 diabetes mellitus. Standing as the most comprehensive source on pancreatic transplantation available, this guide describes short- and long-term outcomes, as well as provides authoritative chapters on patient evaluation, donor management, and recipient... |
 | Advances in the Diagnosis and Treatment of Pancreatic Diseases, An Issue of Gastroenterology Clinics (The Clinics: Internal Medicine) by David C. Whitcomb, Adam Slivka, Kenneth K. Lee Disorders of the pancreas have, in the past, been very frustrating because the diagnosis was often made late in the course of the disease and no significantly beneficial interventions were available. This situation is rapidly changing as new insights from multiple perspectives are integrated and focused on each step of this complex processes. This issue of Gastroenterology Clinics of North... |
 | Pancreatic Cancer by Daniel D. Von Hoff (Editor) Praise for the book “An outstanding text covering all aspects of pancreatic cancer, from embryology through genetics and pathology, and including all avenues of treatment. There are 112 internationally recognized authors, the book is marvelously illustrated, and is a must for all scientists and clinicians interested in neoplasms of the pancreas. It is currently the most up-to-date and... |
 | The Official Patient's Sourcebook on Pancreatic Cancer: A Revised and Updated Directory for the Internet Age by Icon Health Publications This book has been created for patients who have decided to make education and research an integral part of the treatment process. Although it also gives information useful to doctors, caregivers and other health professionals, it tells patients where and how to look for information covering virtually all topics related to pancreatic cancer (also Cancer pancreas; Pancreatic cancer), from the... |
| © 2008 BrightSurf.com |