Bone Abstracts

Tumors contain a small population of cancer stem cells (CSC) proposed to be responsible for tumor maintenance and relapse. Aldehyde dehydrogenase 1 (ALDH1) activity has been used as a functional stem cell marker to isolate CSCs in different cancer types. This study used the Aldefluor assay and fluorescence-activated cell sorting (FACS) analysis to isolate ALDH1^high cells from five human sarcoma cell lines and one primary chordoma cell line. ALDH1^high cells range from 0.3% (MUG-Chor1) to 4.1% (SW-1353) of gated cells. Immunohistochemical staining, analysis of the clone formation efficiency, and xCELLigence microelectronic sensor technology revealed that ALDH1^high cells from all sarcoma cell lines have an increased proliferation rate compared to ALDH1^low cells. By investigating of important regulators of stem cell biology, real-time RT-PCR data showed an increased expression of c-Myc, β-catenin, and SOX-2 in the ALDH1^high population and a significant higher level of ABCG2. Statistical analysis of data demonstrated that ALDH1^high cells of SW-982 and SW-1353 showed higher resistance to commonly used chemotherapeutic agents like doxorubicin, epirubicin, and cisplatin than ALDH1^low cells. Using a NOD/SCID mice xenograft model, ALDH1^high cells showed a greater tumor forming capacity compared to ALDH1^low cells. The ALDH1^high tumors were significantly larger than the ALDH1^low tumors after 4–6 weeks.

This study demonstrates that in different sarcoma cell lines, high ALDH1 activity can be used to identify a subpopulation of cells characterized by a significantly higher proliferation rate, increased colony forming, increased expression of ABC transporter genes and stemness markers compared to control cells. In addition, enhanced drug resistance and a greater tumor forming capacity were demonstrated.