Abstract: The present invention relates to the prediction of responsiveness to cancer immunotherapy of a subject based on the T-cell composition of the subject, and a therapeutic method using cancer immunotherapy based on the prediction. The present invention also provides a method for improving or maintaining responsiveness to cancer immunotherapy of a subject. Responsiveness to cancer immunotherapy is predict by determining a relative value of a CD4+ T-cell subpopulation, dendritic cell subpopulation, and/or CD8+ T-cell subpopulation correlated with a dendritic cell stimulation in an anti-tumor immune response in a sample derived from a subject. A composition for treating or preventing cancer comprising cells such as CD62LlowCD4+ T-cells is also provided.

Abstract: The present invention relates to the prediction of responsiveness to cancer immunotherapy of a subject based on the T-cell composition of the subject, and a therapeutic method using cancer immunotherapy based on the prediction. The present invention also provides a method for improving or maintaining responsiveness to cancer immunotherapy of a subject. Responsiveness to cancer immunotherapy is predict by determining a relative value of a CD4+ T-cell subpopulation, dendritic cell subpopulation, and/or CD8+ T-cell subpopulation correlated with a dendritic cell stimulation in an anti-tumor immune response in a sample derived from a subject. A composition for treating or preventing cancer comprising cells such as CD62LlowCD4+ T-cells is also provided.

Abstract: Provided is a peripheral blood biomarker for evaluating the antitumor immune effect of radiation therapy. Also provided is a method in which the composition of cell subpopulation in a sample obtained from a subject is used as an index for immune activation in the subject caused by a radiation therapy. By comparing, with a reference, the amount of CD4+ T cell subpopulation that correlates with dendritic cell stimulation in an antitumor immune response or the amount of dendritic cell subpopulation that correlates with the dendritic cell stimulation in an antitumor immune response, the presence or absence of, and/or the magnitude of, immune activation occurring in the subject as a result of a radiation therapy can be determined.

Abstract: The present invention relates to the prediction of responsiveness to cancer immunotherapy of a subject based on the T-cell composition of the subject, and a therapeutic method using cancer immunotherapy based on the prediction. The present invention also provides a method for improving or maintaining responsiveness to cancer immunotherapy of a subject. Responsiveness to cancer immunotherapy is predict by determining a relative value of a CD4+ T-cell subpopulation, dendritic cell subpopulation, and/or CD8+ T-cell subpopulation correlated with a dendritic cell stimulation in an anti-tumor immune response in a sample derived from a subject. A composition for treating or preventing cancer comprising cells such as CD62LlowCD4+ T-cells is also provided.

Abstract: Provided is a peripheral blood biomarker for predicting the long-term survival/need for therapeutic intervention in cancer immunotherapy. The present invention provides a method that uses a composition of a cell subpopulation in a sample obtained from a subject as an indicator to predict the long-term survival of the subject in cancer immunotherapy. The long-term survival/need for therapeutic intervention in a subject in cancer immunotherapy can be predicted by comparing the level of a CD4+ T cell subpopulation that correlates with dendritic cell stimulation in an antitumor immune response or a dendritic cell subpopulation that correlates with dendritic cell stimulation in an antitumor immune response with a reference standard.

Abstract: The present invention relates to the prediction of responsiveness to cancer immunotherapy of a subject based on the T-cell composition of the subject, and a therapeutic method using cancer immunotherapy based on the prediction. The present invention also provides a method for improving or maintaining responsiveness to cancer immunotherapy of a subject. Responsiveness to cancer immunotherapy is predict by determining a relative value of a CD4. T-cell subpopulation, dendritic cell subpopulation, and/or CD8+ T-cell subpopulation correlated with a dendritic cell stimulation in an anti-tumor immune response in a sample derived from a subject. A composition for treating or preventing cancer comprising cells such as CD62LlowCD4+ T-cells is also provided.

Abstract: The present invention provides a novel method for determining cancer malignancy, a novel cancer diagnostic method, a novel method for determining prognosis, a novel vaccine for cancer treatment, and a novel vaccine for suppressing cancer metastasis. Specifically, the invention provides a cancer malignancy evaluation method that comprises the step of measuring a DDX3X expression level in a cancer tissue, and the step of evaluating malignancy of the cancer tissue by using the DDX3X expression level.