To determine how the three-dimensional (3D) shape of scaffolds influences cell functions, 3D micropatterned scaffolds of various sizes were fabricated on a silicon substrate. The micropatterns were equilateral triangular pores with 3-20 µm long sides, and all had the same pore ratio (total pore area per unit area) and depth. The patterns only differed in terms of their 2D size. Such scaffolds have not been previously generated, and thus the effects of pattern size on cell functions have not been addressed. NIH-3T3 cells were cultured on these micropatterned scaffolds, and their morphology, proliferation rate, migration rate, and level of F-actin expression were assessed. Cells became more rounded and F-actin expression decreased as the pattern size of the scaffold decreased. Relationships were also demonstrated between pattern size and cell proliferation and migration. These results suggest that the pattern size of 3D micropatterned scaffolds affects the level of mechanical stress that cells experience, and thereby influences F-actin expression, cell morphology, cell proliferation and cell migration.2
Hepatoma-derived growth factor (HDGF) is a secreted heparin-binding growth factor that has been implicated in cancer development and progression. Here, we report that HDGF is a critical target for transcriptional repression by the tumor suppressor p53. Endogenous HDGF expression was decreased in cancer cells with introduction of wild-type p53, which also downregulated HDGF expression after DNA damage. In support of the likelihood that HDGF is a critical driver of cancer cell growth, addition of neutralizing HDGF antibodies to culture media was sufficient to block cell growth, migration, and invasion. Similarly, these effects were elicited by conditioned culture medium from p53-expressing cells, and they could be reversed by the addition of recombinant human HDGF. Interestingly, we found that HDGF was overexpressed also in primary gastric, breast, and lung cancer tissues harboring mutant p53 genes. Mechanistic investigations revealed that p53 repressed HDGF transcription by altering HDAC-dependent chromatin remodeling. Taken together, our results reveal a new pathway in which loss of p53 function contributes to the aggressive pathobiological potential of human cancers by elevating HDGF expression. Cancer Res; 71(22); 7038-47. Ó2011 AACR.
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