Diabetes OD > Regeneration of Islets > Stem Cells > Other Cell Sources > Progenitors	Display all items Journal Articles Discussion Articles Comments Discussions Conferences/Workshops Availabilities Grants/Funds Information/News

Sub-Areas to Progenitors:

Derived from Adult Islet Cells (2)
Pancreatic Epithelial Cells (7)
Differentiation (1)
Transdifferentiation (2)
Insulinotropic Substances (1)

(Journal Article): Insulin-Producing Cells from Tissue Stem/Progenitor Cells: Are Autologous Cells Preferable to Allogeneic?
 
Efrat S
 
IN: Rev Diabetic Stud 2005; 2(1):3-8
Impact Factor(s) of Rev Diabetic Stud: 0.125 (2006)

ABSTRACT: Type 1 diabetes is caused by autoimmune destruction of the pancreatic islet insulin-producing β-cells. Insulin administration does not prevent long-term complications of the disea... Click HERE for details

(Journal Article): Differentiation of embryonic stem cells to insulin-secreting structures similar to pancreatic islets
 
Lumelsky N, Blondel O, Laeng P, Velasco I, Ravin R, McKay R
 
IN: Science 2001; 292:1389-1394
Impact Factor(s) of Science: 30.927 (2005), 31.853 (2004), 29.162 (2003), 26.682 (2002), 23.329 (2001)

ABSTRACT: Although the source of embryonic stem (ES) cells presents ethical concerns, their use may lead to many clinical benefits if differentiated cell types can be derived from them and u... Click HERE for details

(Journal Article): Growth inhibitors promote differentiation of insulin-producing tissue from embryonic stem cells.
 
Hori Y, Rulifson IC, Tsai BC, Heit JJ, Cahoy JD, Kim SK
 
IN: Proc Natl Acad Sci USA 2002; 99:16105-16110

ABSTRACT: The use of embryonic stem cells for cell-replacement therapy in diseases like diabetes mellitus requires methods to control the development of multipotent cells. We report that tre... Click HERE for details

(Journal Article): Expression of Pax4 in embryonic stem cells promotes differentiation of nestin-positive progenitor and insulin-producing cells.
 
Blyszczuk P, Czyz J, Kania G, Wagner M, Roll U, St-Onge L, Wobus AM
 
IN: Proc Natl Acad Sci U S A 2003; 100:998-1003
Impact Factor(s) of Proc Natl Acad Sci U S A: 10.452 (2004), 10.272 (2003), 10.7 (2002), 10.896 (2001)

ABSTRACT: Mouse embryonic stem (ES) cells differentiate into cells of all three primary germ layers including endodermal cells that produce insulin in vitro. We show that constitutive expres... Click HERE for details

(Journal Article): In vivo derivation of glucose-competent pancreatic endocrine cells from bone marrow without evidence of cell fusion.
 
Ianus A, Holz GG, Theise ND, Hussain MA
 
IN: J Clin Invest 2003; 111(6):843-850
Impact Factor(s) of J Clin Invest: 14.204 (2004), 14.307 (2003), 14.118 (2001)

ABSTRACT: Bone marrow harbors cells that have the capacity to differentiate into cells of nonhematopoietic tissues of neuronal, endothelial, epithelial, and muscular phenotype. Here we demon... Click HERE for details

(Journal Article): Bone marrow-derived stem cells initiate pancreatic regeneration.
 
Hess D, Li L, Martin M, Sakano S, Hill D, Strutt B, Thyssen S, Gray DA, Bhatia M
 
IN: Nat Biotechnol 2003; 21(7):763-770
Impact Factor(s) of Nat Biotechnol: 22.738 (2005), 22.355 (2004), 17.721 (2003), 12.822 (2002), 11.31 (2001)

ABSTRACT: We show that transplantation of adult bone marrow-derived cells expressing c-kit reduces hyperglycemia in mice with streptozotocin-induced pancreatic damage. Although quantitative ... Click HERE for details

(Journal Article): Combined expression of pancreatic duodenal homeobox 1 and islet factor 1 induces immature enterocytes to produce insulin.
 
Kojima H, Nakamura T, Fujita Y, Kishi A, Fujimiya M, Yamada S, Kudo M, Nishio Y, Maegawa H, Haneda M, et al
 
IN: Diabetes 2002; 51:1398-1408
Impact Factor(s) of Diabetes: 8.848 (2004), 8.298 (2003), 8.256 (2002), 7.7 (2001)

ABSTRACT: Immature rat intestinal stem cells (IEC-6) given the ability to express the transcription factor, pancreatic duodenal homeobox 1 (Pdx-1), yielded YK cells. Although these cells pro... Click HERE for details

(Journal Article): NeuroD-betacellulin gene therapy induces islet neogenesis in the liver and reverses diabetes in mice.
 
Kojima H, Fujimiya M, Matsumura K, Younan P, Imaeda H, Maeda M, Chan L
 
IN: Nat Med 2003; 9(5):596-603
Impact Factor(s) of Nat Med: 28.878 (2005), 31.223 (2004), 30.55 (2003), 28.74 (2002), 27.906 (2001)

ABSTRACT: To explore induced islet neogenesis in the liver as a strategy for the treatment of diabetes, we used helper-dependent adenovirus (HDAD) to deliver the pancreatic duodenal homeobox... Click HERE for details

(Journal Article): Reversal of hyperglycemia in mice by using human expandable insulin-producing cells differentiated from fetal liver progenitor cells.
 
Zalzman M, Gupta S, Giri R, Berkovich I, Sappal BS, Karnieli O, Zern MA, Fleischer N, Efrat S
 
IN: Proc Natl Acad Sci U S A 2003; 100(12):7253-7258
Impact Factor(s) of Proc Natl Acad Sci U S A: 10.452 (2004), 10.272 (2003), 10.7 (2002), 10.896 (2001)

ABSTRACT: Beta-cell replacement is considered to be the most promising approach for treatment of type 1 diabetes. Its application on a large scale is hindered by a shortage of cells for tran... Click HERE for details

(Journal Article): Cell replacement therapy for type 1 diabetes.
 
Efrat S
 
IN: Trends Mol Med 2002; 8(7):334-339
Impact Factor(s) of Trends Mol Med: 7.497 (2004), 9.848 (2003), 7.162 (2002)

ABSTRACT: Replacement of the insulin-producing pancreatic islet beta cells represents the ultimate treatment for type 1 diabetes. Recent advances in islet transplantation underscore the urge... Click HERE for details

(Journal Article): Encapsulated, genetically modified cells producing in vivo therapeutics.
 
Hauser O, Prieschl-Grassauer E, Salmons B
 
IN: Curr Opin Mol Ther 2004; 6:412-420
Impact Factor(s) of Curr Opin Mol Ther: 3.117 (2004), 3.049 (2003), 2.463 (2002), 1.148 (2001)

ABSTRACT: The ability to implant genetically modified cells in immuno-isolating materials has much potential for therapeutic use. This review presents the different types of polymer that can... Click HERE for details

(Journal Article): A second pathway for regeneration of adult exocrine and endocrine pancreas.
 
Bonner-Weir S, Baxter LA, Schuppin GT, Smith FE
 
IN: Diabetes 1993; 42(12):1715-1720
Impact Factor(s) of Diabetes: 8.848 (2004), 8.298 (2003), 8.256 (2002), 7.7 (2001)

ABSTRACT: Substantial regeneration of both the endocrine and exocrine pancreas occurs after a 90% partial pancreatectomy in the young adult rat. We have reported previously that replication ... Click HERE for details