Using a combination of expression studies,

macrophage dep

Using a combination of expression studies,

macrophage depletion, and ex vivo coculture, the authors propose a model whereby the balance between Notch and Wnt signaling in ADCs determines the proper ratio of BECs and hepatocytes during liver regeneration. They report their findings in the March issue of Nature Medicine.20 The authors begin their studies with a detailed immunohistochemical analysis and 3D reconstruction to characterize what they refer to as the hepatic progenitor cell “niche”—the population of nonparenchymal cells that arise alongside ADCs during liver injury. Using two different models: a murine choline deficient ethionine supplemented (CDE) model, which is thought to cause predominantly hepatocellular injury, and a DDC diet model, which is thought to cause predominantly biliary injury, the authors find two distinct patterns of infiltrating cells adjacent to the ADCs. Following check details hepatocyte injury, Kupffer cells were found in close proximity to the ADCs, AZD1152-HQPA chemical structure whereas following biliary injury,

ADCs were associated with portal fibroblasts and thick bands of collagen. Based on this difference in relative proximity, Boulter et al. hypothesized that these two cell populations (Kupffer cells and portal fibroblasts) might influence ADC behavior differently. As portal fibroblasts express high levels of the Notch ligand Jagged1, Boulter et al. treated isolated ADCs with the γ-secretase inhibitor DAPT, which inhibits the Notch pathway. They observed a decrease in the expression of biliary markers, consistent with the known role of Notch signaling 上海皓元 in biliary fate and identity. Furthermore, treatment of animals with DAPT in vivo led to a decrease in the number of ADCs. Interestingly, expression of the hepatocyte marker HNF4α was not increased by DAPT treatment, indicating that pharmacological inhibition of Notch was not sufficient to direct the ADCs to differentiate to the hepatocyte lineage. The authors observed that a number of Wnt pathway target genes, including

Numb, were activated in the ADCs in both patient and murine hepatocellular injury models. Hence, they investigated whether Numb, which inhibits Notch signaling by facilitating proteasome-mediated degradation of the Notch receptor, might induce ADCs to differentiate into hepatocytes. To test their hypothesis in vivo, they activated canonical Wnt signaling in ADCs by expressing a constitutively active form of β-catenin in these cells, an experiment that resulted in an increased number of hepatocytes exhibiting nuclear β-catenin in staining. Importantly, although the authors interpreted this finding as evidence that β-catenin activation directs ADCs to differentiate to the hepatocyte lineage, the absence of formal lineage tracing precludes such a conclusion. Finally, Boulter et al. turned their attention to the cells that might be providing activating signals for these pathways.

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