Identification and Isolation of Cancer Stem Cells Using NANOG-EGFP Reporter System.

Cancer stem Cells or Cancer Stem-like Cells are thought to be associated with chemoresistance and recurrence in cancer patients following chemotherapy. Developing a method to study these malignant populations is the key to successful development of drug or immunotherapeutic assays. Here, we present a method of identification, isolation of Prostate Cancer Stem Cells (PCSCs) from the DU145 prostate cancer cell line using the NANOG-GFP expression system.

HAGE, a cancer/testis antigen expressed at the protein level in a variety of cancers.

The search for novel tumour antigens that are either uniquely expressed or over-expressed in a wide variety of tumours is still ongoing. Because of their expression in a broad spectrum of cancers and limited expression in normal tissues, cancer/testis antigens are considered to be potentially reliable targets for immunotherapy of cancer in general. The helicase antigen HAGE has been identified as a cancer/testis antigen. However, little is known about its expression in normal and cancer tissues. Using a newly developed antibody against HAGE, specific staining of its expression by immunohistochemistry was validated and optimised on murine tumours transfected to express the HAGE protein. The antibody was subsequently used to determine HAGE expression in normal human and cancer tissue microarrays. HAGE protein expression was confirmed in 75% (12/16) of carcinomas as compared to normal tissues, which either did not express HAGE at all or expressed HAGE at very low levels with the exception of testis. Interestingly, discrepancies were also found between mRNA analysis by real time quantitative PCR (RT-qPCR) and protein analysis by immunohistochemistry, emphasising the need to validate the expression of cancer/testis antigens at the protein level prior to the development of new vaccine strategies. HAGE is therefore proposed to be a valid candidate for designing a broad spectrum vaccine against cancer.