Abstract: The inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to a method of treating a subject suffering from a cancer comprising a step of administration simultaneously, separately or sequentially to said subject a therapeutically amount of i) a population of derived engineered fetal stem cells carrying cancer associated fetal neo-antigen and ii) a compound selected from a group which activates immune response, as a combined preparation.

Abstract: The inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to a method of treating a subject suffering from a cancer comprising a step of administration simultaneously, separately or sequentially to said subject a therapeutically amount of i) a population of derived engineered fetal stem cells carrying cancer associated fetal neo-antigen and ii) a compound selected from a group which activates immune response, as a combined preparation.

Abstract: The inventors have developed a metastatic 4T1 breast tumor model in BALB/c mice. They have shown that the vaccination with xenogeneic embryonic stem cells in combination with valproic acid (VPA) generates a higher anti-tumoral response against breast cancer and inhibits metastasis development. They established that these responses are achieved only by the addition of valproic acid in the therapeutic regimen in comparison to the use ESCs or iPSCs alone. Thus, the inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to i) a population of pluripotent cells and ii) a compound selected from a group which activates MHC expression, as a combined preparation for use in a method for treating a subject suffering from a cancer, comprising a step of administering simultaneously, separately or sequentially to said subject a therapeutically amount thereof.

Abstract: The inventors have developed a metastatic 4T1 breast tumor model in BALB/c mice. They have shown that the vaccination with xenogeneic embryonic stem cells in combination with valproic acid (VPA) generates a higher anti-tumoral response against breast cancer and inhibits metastasis development. They established that these responses are achieved only by the addition of valproic acid in the therapeutic regimen in comparison to the use ESCs or iPSCs alone. Thus, the inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to i) a population of pluripotent cells and ii) a compound selected from a group which activates MHC expression, as a combined preparation for use in a method for treating a subject suffering from a cancer, comprising a step of administering simultaneously, separately or sequentially to said subject a therapeutically amount thereof.

Abstract: The invention relates to a method for treating cancers. Many cancers harbour sternness signature to de-differentiate into immature progenitors confer to tumor clones the re-expression of genes from fetal development. Inventors have obtained mice per group which received two boosts of vaccine 7 and 14 days with 2×106 irradiated hESCs cells that were mixed with 3 different adjuvants: 500 ?g of TLR3, 50 ?g of TLR9 agonist or 50 ?g/ml of Quil Saponin vaccine adjuvant. After 14 days 5×104 4T1 cells were injected into the mammary fat pad of the mice and Valproic acid added in the drinking water at the dose of 4 mg/ml. They have shown that in contrast to the non-vaccinated mice, the mice vaccinated with hESC combined with a TLR3 agonist have generated the highest reduction of breast tumor volume (p<0.001) compared to the use of a TLR9 agonist or to Quil-A® Saponin vaccine adjuvant.

Abstract: The inventors have developed a metastatic 4T1 breast tumor model in BALB/c mice. They have shown that the vaccination with xenogeneic embryonic stem cells in combination with valproic acid (VPA) generates a higher anti-tumoral response against breast cancer and inhibits metastasis development. They established that these responses are achieved only by the addition of valproic acid in the therapeutic regimen in comparison to the use ESCs or iPSCs alone. Thus, the inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to i) a population of pluripotent cells and ii) a compound selected from a group which activates MHC expression, as a combined preparation for use in a method for treating a subject suffering from a cancer, comprising a step of administering simultaneously, separately or sequentially to said subject a therapeutically amount thereof.

Abstract: The inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to a method of treating a subject suffering from a cancer comprising a step of administration simultaneously, separately or sequentially to said subject a therapeutically amount of i) a population of derived engineered fetal stem cells carrying cancer associated fetal neo-antigen and ii) a compound selected from a group which activates immune response, as a combined preparation.

Abstract: The present invention relates to gene therapy for the treatment of tumors. The invention more particularly relates to introduction of a gene encoding an anti-angiogenic factor into cells of a tumor, for example with a defective adenovirus vector, to inhibit growth or metastasis, or both, of the tumor. In a specific embodiment, delivery of a defective adenovirus that expresses the amino terminal fragment of urokinase (ATF) inhibited growth and metastasis of tumors. These effects were correlated with a remarkable inhibition of neovascularization within, and at the immediate vicinity of, the injection site. Delivery of a defective adenovirus vector that expresses kringles 1 to 3 of angiostatin inhibited tumor growth and tumorigenicity, and induced apoptosis of tumor cells. The invention further provides viral vectors for use in the methods of the invention.

Abstract: The present invention relates to gene therapy for the treatment of tumors. The invention more particularly relates to introduction of a gene encoding an anti-angiogenic factor into cells of a tumor, for example with a defective adenovirus vector, to inhibit growth or metastasis, or both, of the tumor. In a specific embodiment, delivery of a defective adenovirus that expresses the amino terminal fragment of urokinase (ATF) inhibited growth and metastasis of tumors. These effects were correlated with a remarkable inhibition of neovascularization within, and at the immediate vicinity of, the injection site. Delivery of a defective adenovirus vector that expresses kringles 1 to 3 of angiostatin inhibited tumor growth and tumorigenicity, and induced apoptosis of tumor cells. The invention further provides viral vectors for use in the methods of the invention.