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  • Cancer stem cells as a therapeutic target in 3D tumor models of human chondrosarcoma: An encouraging future for proline rich polypeptide‑1.

Cancer stem cells as a therapeutic target in 3D tumor models of human chondrosarcoma: An encouraging future for proline rich polypeptide‑1.

Molecular medicine reports (2020-09-10)
Caroline J Granger, Aaron K Hoyt, Alexandra Moran, Beatrice Becker, Anil Sedani, Shannon Saigh, Sheila A Conway, Jeffrey Brown, Karina Galoian
ABSTRACT

Chondrosarcoma is a malignant bone neoplasm that is refractory to chemotherapy and radiation. With no current biological treatments, mutilating surgical resection is the only effective treatment. Proline rich polypeptide 1 (PRP‑1), which is a 15‑amino acid inhibitor of mammalian target of rapamycin complex‑1 (mTORC1), has been indicated to exert cytostatic and immunomodulatory properties in human chondrosarcoma cells in a monolayer. The aim of the present study was to evaluate the effects of PRP‑1 on an in vitro 3D chondrosarcoma tumor model, known as spheroids, and on the cancer stem cells (CSCs) which form spheroids. JJ012 cells were cultured and treated with PRP‑1. An ALDEFLUOR™ assay was conducted (with N,N‑diethylaminobenzaldehyde as the negative control) to assess aldehyde dehydrogenase (ALDH) activity (a recognized CSC marker), and bulk JJ012, ALDHhigh and PRP‑1 treated ALDHlow cells were sorted using flow cytometry. Colony formation and spheroid formation assays of cell fractions, including CSCs, were used to compare the PRP‑1‑treated groups with the control. CSCs were assessed for early apoptosis and cell death with a modified Annexin V/propidium iodide assay. Western blotting was used to identify mesenchymal stem cell markers (STRO1, CD44 and STAT3), and spheroid self‑renewal assays were also conducted. A clonogenic dose‑response assay demonstrated that 20 µg/ml PRP‑1 was the most effective dose for reducing colony formation capacity. Furthermore, CSC spheroid growth was significantly reduced with increasing doses of PRP‑1. Annexin V analysis demonstrated that PRP‑1 induced CSC cell death, and that this was not attributed to apoptosis or necrosis. Western blot analysis confirmed the expression of mesenchymal markers, and the spheroid self‑renewal assay confirmed the presence of self‑renewing CSCs. The results of the present study demonstrate that PRP‑1 eliminates anchorage independent CSC growth and spheroid formation, indicating that PRP‑1 likely inhibits tumor formation in a murine model. Additionally, a decrease in non‑CSC bulk tumor cells indicates an advantageous decline in tumor stromal cells. These findings confirm that PRP‑1 inhibits CSC proliferation in a 3D tumor model which mimics the behavior of chondrosarcoma in vivo.

MATERIALS
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