Publications by authors named "Yuriko Hishida-Nozaki"
Article Synopsis
- Mammals have a limited ability to regenerate organs, while some vertebrates like fish and salamanders can regenerate efficiently through cell dedifferentiation and proliferation.
- A new mouse model was created for the inducible expression of the Yamanaka factors in liver cells, which induces partial reprogramming and boosts cell proliferation.
- The short-term presence of these factors enhances liver regeneration and suggests that this approach might help address liver failure by increasing cellular plasticity.
It is widely believed that cellular senescence plays a critical role in both aging and cancer, and that senescence is a fundamental, permanent growth arrest that somatic cells cannot avoid. Here we show that Myc plays an important role in self-renewal of esophageal epithelial cells, contributing to their resistance to cellular senescence. Myc is homogeneously expressed in basal cells of the esophageal epithelium and Myc positively regulates their self-renewal by maintaining their undifferentiated state.
View Article and Find Full Text PDFIdentification of the precise molecular pathways involved in oncogene-induced transformation may help us gain a better understanding of tumor initiation and promotion. Here, we demonstrate that SOX2 foregut epithelial cells are prone to oncogenic transformation upon mutagenic insults, such as Kras and p53 deletion. GFP-based lineage-tracing experiments indicate that SOX2 cells are the cells-of-origin of esophagus and stomach hyperplasia.
View Article and Find Full Text PDFc-Myc and phosphatidylinositol 3-OH kinase (PI3K) both participate in diverse cellular processes, including cell cycle control and tumorigenic transformation. They also contribute to preserving embryonic stem cell (ESC) characteristics. However, in spite of the vast knowledge, the molecular relationship between c-Myc and PI3K in ESCs is not known.
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