Pancreatic Stem Cells Found in Adult Mice
Thursday, 24 January 2008
Just as many scientists had given up the search, researchers have discovered that the pancreas does indeed harbour stem cells with the capacity to generate new insulin-producing beta cells. If the finding made in adult mice holds for humans, the newfound progenitor cells will represent “an obvious target for therapeutic regeneration of beta cells in diabetes,” the researchers report in the Jan. 25 issue of Cell, a publication of Cell Press.
“One of the most interesting characteristics of these [adult] progenitor cells is that they are almost indistinguishable from embryonic progenitors,” said Harry Heimberg of the JDRF Center at Vrije Universiteit Brussel in Belgium and the JDRF Center for Beta Cell Therapy in Diabetes.
“In terms of their structure and gene expression, there are no major differences. They look and behave just like embryonic beta cell progenitors."
Insulin is required for cells to take up blood sugar, the body’s primary energy source. In people with certain types of diabetes, blood sugar rises due to an inability of pancreatic beta cells to produce insulin in sufficient quantities.
Previous studies had failed to demonstrate the existence of bona fide beta cell progenitors in the pancreas after birth. The elusiveness of this cell type reached a summit when genetic lineage tracing provided evidence that pre-existing beta cells, rather than stem/progenitor cells, are the major source of new beta cells in adult mice, the researchers said.
“Most people gave up looking because they are so few and so hard to activate,” Heimberg said.
In the new study, Heimberg’s team tied off a duct that drains digestive enzymes from the pancreas. That injury led to a doubling of beta cells in the pancreas within two weeks, they showed. The animals’ pancreases also began producing more insulin, evidence that the new beta cells were fully functional, Heimberg said. He suspects the regenerative process is sparked by an inflammatory response in the enzyme-flooded pancreas.
They further found that the production of new beta cells depends on a gene called Neurogenin 3 (Ngn3), which is known to play a role in the pancreas during embryonic development.
“The most important challenge now is to extrapolate our findings to patients with diabetes,” Heimberg said.
Although he cautioned that any potential diabetes treatment remains far into the future, “our findings reveal the significance of investigating the feasibility of (1) isolating facultative beta cell progenitors and newly formed beta cells from human pancreas in order to expand and differentiate them in vitro and transplant them in diabetic patients and (2) composing a mix of factors able to activate beta cell progenitors to expand and differentiate in situ in patients with an absolute or relative deficiency in insulin,” the researchers wrote.
Reference:
β Cells Can Be Generated from Endogenous Progenitors in Injured Adult Mouse Pancreas
.........
ZenMaster
For more on stem cells and cloning, go to CellNEWS at
http://www.geocities.com/giantfideli/index.html
Thursday, 24 January 2008
Pancreatic Stem Cells Found in Adult Mice
Posted by ZenMaster at Thursday, January 24, 2008
Labels: diabetes, differentiation, mouse, research, stem cells
Subscribe to:
Post Comments (Atom)
2 comments:
Insulin positive cells have been found in or near the pancreatic duct both in animal models and human tissue samples with a long list of different studies. Difficult to believe and strangely enough, these repeated true observations have been ignored for a long time by a large population of scientists working with beta cell stem cell issues despite the effort of a few scientists. There is a natural reason for the existence of insulin positive ductal cells because they are the early steps of islet genesis, both during embryonic development and in adult life. The replication of so called preexisting beta cells is just a snapshot image of this long process of beta cell genesis from duct progenitors to mature islet cells. Glad to see the great work in this paper, which will bring the real hope to solve the beta cell expansion problem and new ways to treat diabetic patients. For the benefits of the people and the science, fight on.
erratum: the Beta Cell Biology Consortium website is http://www.betacell.org. The website provided is that for the JDRF Center for Beta Cell Therapy in Diabetes, which Dr. Harry Heimberg is a part of as well.
Post a Comment