Development of a novel co-culture system using human pancreatic cancer cells and human iPSC-derived stellate cells to mimic the characteristics of pancreatic ductal adenocarcinoma in vitro.

Pancreatic ductal adenocarcinoma (PDAC) is a serious disease with poor prognosis and prone to chemotherapy resistance. It is speculated that the tumor microenvironment (TME) of PDAC contributes to these characteristics. However, the detailed mechanisms of interactions between pancreatic cancer cells and stroma in the TME are unclear. Therefore, the aim of this study was to establish a co-culture system that mimics the TME, using cancer cells derived from PDAC patient specimens and stellate cells from human induced pluripotent stem cells as stromal cells. We succeeded in observing the interaction between cancer cells and stellate cells and reproduced some features of PDAC in vitro using our co-culture systems. In addition, we demonstrated the applicability of our co-culture system for drug treatment in vitro. To conclude, we propose our co-culture system as a novel method to analyze cell-cell interactions, especially in the TME of PDAC.

Differential regulation of p27Kip1 depending on culture conditions and its correlation with status of p14ARF and p53.

p27Kip1 is known as a major cyclin-dependent kinase inhibitor and a tumor suppressor, and often functionally hampered at protein level. p27 protein expression levels are frequently low in various cancers and negatively correlated with malignancy of cancer. However, in our previous study, we discovered that p27 overexpression does not inhibit the proliferation of two cancer cell lines due to a functional suppression of p27 by nucleophosmin isoform 1 (NPM1); that is, a qualitative, not quantitative, suppression of p27 function occurs in these cancer cell lines. To clarify the regulation of p27 in several types of cancer, we investigated p27 function in other cancer cell lines, based on proliferation assays in those cell lines carrying doxycycline-inducible p27, and found that MDAH041 cells which express p14ARF, an antagonist of NPM1, show growth inhibition depending on p27 induction. Moreover, to investigate p27 function under anchorage-independent culture conditions, we performed soft agar colony formation assay and observed that the colony formation of some cell lines carrying wild-type p53, a major tumor suppressor, was inhibited depending on p27 induction. These results suggest that p27 function is regulated differentially among cancer cell types under anchorage-dependent and anchorage-independent culture conditions.

Increased Expression of NPM1 Suppresses p27Kip1 Function in Cancer Cells.

p27Kip1, a major cyclin-dependent kinase inhibitor, is frequently expressed at low levels in cancers, which correlates with their malignancy. However, in this study, we found a qualitative suppression of p27 overexpressed in some cancer cells. By proteomic screening for factors interacting with p27, we identified nucleophosmin isoform 1 (NPM1) as a novel p27-interacting factor and observed that NPM1 protein was expressed at high levels in some cancer cells. NPM1 overexpression in normal cells suppressed p27 function, and conversely, NPM1 knockdown in cancer cells restored the function in vitro. Furthermore, the tumors derived from cancer cells carrying the combination of p27 overexpression and NPM1 knockdown constructs showed significant suppression of growth as compared with those carrying other combinations in mouse xenograft models. These results strongly suggest that increased expression of NPM1 qualitatively suppresses p27 function in cancer cells.