2 These cells may be akin CDK inhibitor review to the small hepatocyte-like progenitors (SHPCs) described by Gordon and colleagues.3 Cell foci resembling SHPCs have also been observed in retrorsine-treated hepatitis B surface antigen
(HBsAg) transgenic mice that have chronic liver injury.4 In the mouse, evidence has been proffered for a parenchymal stem cell niche close to the portal area. By labeling cells with bromodeoxyuridine after a necrogenic dose of acetaminophen, and then administering another dose 2 weeks later to induce several divisions of previously labeled cells, so-called label-retaining cells (LRCs), which are considered to be slowly dividing stem cells, were found, both as cholangiocytes of interlobular ducts and peribiliary hepatocytes and so-called null cells.5 Likewise, in human liver, rare putative stem cells that strongly GDC-0980 price express STAT3 (signal transducer and activator of transcription 3) and the embryonic
stem cell pluripotency-associated factors Oct4 (octamer 4) and Nanog are also located near portal tracts.6 Moreover, using mitochondrial DNA mutations as markers of clonality, we have also found clonally-derived populations of hepatocytes in human liver that also appear to have their origins close to portal areas.7, 8 A seemingly distinctively different stem cell compartment appears to be activated from within the smallest branches of the intrahepatic biliary tree in response to overwhelming liver injury, chronic
liver injury,9 or large-scale hepatocyte senescence,10 and can be demonstrated in a transgenic mouse model of fatty liver and DNA damage.11 This so-called “oval cell” or “ductular reaction” amplifies a cholangiocyte-derived (biliary) population before these cells differentiate into either hepatocytes or cholangiocytes. Oval cells are thought to be derived from the canal of Hering, and while in rodents this canal barely extends beyond the limiting plate, but in human liver, the canal of Hering extends to the proximate third of the lobule (Fig. 1B).12 So, would the liver be unique in having functionally distinct stem cell populations, one for “physiological growth” that maintains tissue homeostasis, and one (the biliary cell–derived HPCs) that acts as a back-up, SB-3CT essentially for regenerative growth after tissue injury? A number of studies point to this state of affairs in many tissues.13, 14 This would include small intestine,15, 16 olfactory neuroepithelium,17 corneum,18 hair follicle,19 and the hematopoietic system.20 The recent article by Furuyama and colleagues now suggests the boundaries between the apparently distinct stem cell populations in the liver are somewhat blurred.21 This new study explored the role of the embryonic transcription factor Sox9 (sex determining region Y box 9) in three embryologically-related organs: liver, pancreas, and duodenum.