Therapy of peritoneally disseminated colon cancer by TAP-deficient embryonic stem cell-derived macrophages in allogeneic recipients.

We established a method to generate a large quantity of myeloid lineage cells from mouse embryonic stem (ES) cells, termed ES cell-derived proliferating myeloid cell lines (ES-ML). ES-ML continuously proliferated in the presence of M-CSF and GM-CSF. ES-ML genetically modified to express an anti-HER2 (neu) mAb single-chain V region fragment reduced the number of cocultured mouse Colon-26 cancer cells expressing HER2.

Application of iPS cell-derived macrophages to cancer therapy.

We established a method to produce a large quantity of myeloid cells from human inducible pluripotent stem cells (iPSCs). When injected intraperitoneally into mice carrying established peritoneal tumors, iPSC-derived myeloid cells (iPS-MCs) efficiently accumulated within neoplastic lesions. The intraperitoneal injection of iPS-MCs expressing interferon β significantly inhibited the growth of human gastric and pancreatic cancers implanted in the peritoneal cavity of immunocompromised mice.

Therapeutic effect of human iPS-cell-derived myeloid cells expressing IFN-β against peritoneally disseminated cancer in xenograft models.

We recently developed a method to generate myeloid cells with proliferation capacity from human iPS cells. iPS-ML (iPS-cell-derived myeloid/macrophage line), generated by introducing proliferation and anti-senescence factors into iPS-cell-derived myeloid cells, grew continuously in an M-CSF-dependent manner. A large number of cells exhibiting macrophage-like properties can be readily obtained by using this technology.