Posts Tagged ‘Pdx1’
Transdifferentiation
Posted by admin in stem cells on June 23rd, 2009
An alternative to the use of undifferentiated cells is that of reprogramming adult cells from nonpancreatic sources. Of these, the most promising is the liver, whose embryonic development is deeply intertwined with that of the pancreas. Several teams have now proven that the ectopic expression of master pancreatic regulators such as Pdx1 or MafA, among others, can induce the expression of pancreatic markers in liver-derived cells, both in Read the rest of this entry »
Do New Beta Cells Arise from the Duct/Acinar Tissue
Posted by admin in stem cells on June 21st, 2009
Virtually all researchers on pancreatic and islet cell biology are familiar with the occasional sight of a single islet cell or small islets seemingly sprouting from the ducts of a section of adult pancreas. The incidence of such observations is amplified under a number of experimental or pathological conditions. For a long time, the obvious conclusion has been that islets might indeed be formed in or near the ducts, migrating at a later point to the acinar surroundings. BrdU labeling studies led to Bonner-Weir and colleagues to hypothesize that pancreatic regeneration in the partially pancreatectomized rat occurs through two pathways, namely: the self-replication of existing endocrine and exocrine cells; and the proliferation and differentiation of the ductal epithelium into new Read the rest of this entry »
Pancreatic development
Posted by admin in stem cells on June 20th, 2009
Pancreatic development is arguably the best-studied example of organogenesis. Both gain-of-function and loss-of-function studies conducted in mice over the last decade have contributed to our understanding of a basic “genetic roadmap” of pancreatic – and particularly endocrine – development. Here we review this knowledge from the onset of the pancreatic program in the foregut epithelium (with the expression of the critical regulators Pdx1 and Ptf1a) to the specification of ductal, exocrine, and endocrine cell types. A special emphasis is placed on the development of endocrine beta cells, which are destroyed in type I diabetes and therefore constitute the endpoint of many stem cell differentiation protocols. Read the rest of this entry »