655. CD133-Targeted Oncolytic Adenovirus Exhibits Anti-Tumor Effect by Attacking Colon Cancer Stem Cells

Abstract

Colorectal cancer is the third most common cancer in the world and about 50% of patients relapse after treatment. Cancer stem cells (CSCs) have contribution to recurrence, metastasis and and chemotherapy resistant of colorectal cancers. CD133 (Prominin-1), a member of the transmembrane glycoprotein family, is a marker of CSCs in several cancers and is also generally accepted as a colorectal cancer stem cell marker. CD133 expression was correlated with recurrence, metastases and chemotherapy resistance, as well as poor prognosis in colorectal cancer. It is therefore reasonable to develop CSCs-directed therapeutic strategies by employing CD133 as a target molecule. Recently, we have established a method for isolating transductionally-targeted adenovirus by high-throughput screening.In this study, the CD133-specific Oncolytic Adenovirus (OAd) was isolated by using this novel system, and the resultant virus was tested for the oncolytic activity both in vitro and in vivo. CD133-targeted OAd (AdML-TYML) showed strong binding to CD133-positive cells (293-CD133 and LoVo (CD133 (+) human colon carcinoma)), not to CD133-negative cells (parental 293 and LS174T (CD133 (-) human colon carcinoma)) and this virus also showed strong oncolysis selectively in LoVo cells, whereas there was no effect on LS174T cells. In the analyses of the effect of AdML-TYML on colorectal cancer stem cells, CD133-targeted OAd treatment leads to inhibition of tumor establishment of CD133-positive colorectal cancer cell lines in nude mice. 100% of the mice inoculated with non-infected LoVo cells had developed tumors, while 0% of the mice inoculated with AdML-TYML infected LoVo cells had done so. In addition, when the anti-tumor effect of the CD133-targeted OAd was analyzed in established tumors of CD133(+) colorectal cancer subcutaneous xenografts, intra-tumor (i.t.) administration of AdML-TYML exhibited significantly stronger antitumor effect compared to its counterpart with wild type fiber.We focused on the CD133 as a target molecule of CSCs in colon cancer and successfully identified potent CD133-targeting OAd using high-throughput screening system. The CD133-targeted OAd exhibited selective infectivity and oncolysis to CD133-positive cells and anti-tumorigenic activity against colon cancer cells. The ability of CSCs-targeted Ad such as CD133-targeted OAd to infect and kill CSCs has important implications for the prevention of metastases and relapses in a variety of cancers.