Compositions and methods are provided for the cell-mediated targeted killing of diseased cells based on the presence of an intracellular antigen, rather than a surface-bound marker. The targeting cells are modified to express a cytotoxic protein that is delivered into a targeted cell, and after delivery is selectively activated by the presence of a cytoplasmic protein of interest. In one embodiment of the invention, the cytotoxic molecule is a Granzyme B (GrB) polypeptide. In the compositions of the invention, GrB is modified to render its cytotoxic enzymatic functions inactive, until the presence of an intracellular antigen unlocks the GrB molecule to enable enzymatic activities.

Compositions and methods are provided for the cell-mediated targeted killing of diseased cells based on the presence of an intracellular antigen, rather than a surface-bound marker. The targeting cells are modified to express a cytotoxic protein that is delivered into a targeted cell, and after delivery is selectively activated by the presence of a cytoplasmic protein of interest. In one embodiment of the invention, the cytotoxic molecule is a Granzyme B (GrB) polypeptide. In the compositions of the invention, GrB is modified to render its cytotoxic enzymatic functions inactive, until the presence of an intracellular antigen unlocks the GrB molecule to enable enzymatic activities.

Mitochondria modified by a targeting protein, according to one embodiment of the present invention, can be effectively delivered to a target. In addition, when a protein of interest bound to the modified mitochondria is delivered into a cell, various activities can be exhibited. The modified mitochondria can effectively cause cancer tissue death, and thus can also be used as an anticancer agent. Furthermore, various activities are exhibited according to a protein of interest loaded on modified mitochondria, and thus the modified mitochondria can be applied in the treatment of various diseases. Additionally, a fusion protein comprising a protein of interest and a fusion protein comprising a targeting protein, according to one embodiment of the present invention, can be used in order to modify mitochondria. Moreover, mitochondria modified with the fusion proteins exhibits various effects in a target cell.

The present invention refers to a stably or transiently IL-1R8 deficient isolated human cell, being a natural killer (NK) cell or T cell and to their medical use, preferably in the treatment of tumours and infections.

Provided are combination therapies for treating and preventing relapse of a tumor and infectious diseases in a subject, as well as methods for use thereof. The combination therapies comprise an Hsp70 based pharmaceutical ingredient and at least one further immunotherapeutic agent that specifically inhibits and/or preferably binds to an immune checkpoint molecule or tumor immune microenvironment immune regulator. Furthermore, a kit and methods of using the combination therapies of the invention are described.

The present invention relates to compositions for enhancing innate immunity, comprising ginsenoside F1 as an active ingredient. Specifically, the composition according to the present invention promotes degranulation activity and cell-killing activity of natural killer cells, and increases expressions of cell-killing factors, thereby being effectively used as an innate immunity enhancer.

The invention is directed to cell-targeted cytotoxic agents, including sortase serine protease constructs. Methods for targeted cell killing for treatment of proliferative diseases, for example, cancer, are provided. Exemplary embodiments comprise an R-spondin ligand for targeting the cytotoxic agents to effect the cell killing.

The present invention includes novel inhibitors of JARID1A demethylase activity, and methods using the same.

The invention relates to a combination preparation containing a selective cell death-inducing binary enzyme system for use in the therapy and/or treatment of cancer and tumors in humans and animals, a process, and its use.

The invention is directed to cell-targeted cytotoxic agents, including sortase serine protease constructs. Methods for targeted cell killing for treatment of proliferative diseases, for example, cancer, are provided. Exemplary embodiments comprise an R-spondin ligand for targeting the cytotoxic agents to effect the cell killing.