Compositions and methods of selectively activating Akt3 are provided.

Provided is an GARP protein antibody, and a cell comprising or expressing the GA RP protein antibody. The GARP protein antibody binds to human GARP/human TGF-?1 complex with a K.sub.D value of about 1.0E-12 or less. Also provided are a pharmaceutical combination comprising the GARP protein antibody and an immune checkpoint inhibitor and use thereof.

The present disclosure relates to expansion and activation of T cells. In an aspect, the present disclosure relates to expansion and activation of ?? T cells that may be used for transgene expression. In another aspect, the disclosure relates to expansion and activation of ?? T cells while depleting ?- and/or ?-TCR positive cells. T cell populations comprising expanded ?? T cell and depleted or reduced ?- and/or ?-TCR positive cells are also provided for by the instant disclosure. The disclosure further provides for methods of using the disclosed T cell populations.

Systems and methods are disclosed for the treatment of cancer. Specifically, techniques are disclosed for treating cancer through the administration of genetically modified immune cells that overexpress fibroblast activation protein. In other embodiments, the techniques include the treatment of cancer through the administration of fibroblast activation protein inhibitors to the tumor site.

The invention relates to a peptide comprising an amino acid sequence selected from the group consisting of (i) SEQ ID NO: 1 to SEQ ID NO: 113, and (ii) a variant sequence thereof which maintains capacity to bind to MHC molecule(s) and/or induce T cells cross-reacting with said variant peptide, or a pharmaceutically acceptable salt thereof.

The instant disclosure is directed to methods for generating stem cell-derived immune cells with enhanced function. Disclosed herein are methods for modifying a stem or progenitor cell capable of differentiating into an immune cell to inhibit the function of at least one gene selected from DGK? and DGK?, and directing differentiation of that stem or progenitor cells towards enhanced immune cells. Also disclosed herein are immune cells or stem cells made by the present methods, as well as the use of immune cells in therapeutic treatment.

The invention relates to a peptide comprising an amino acid sequence selected from the group consisting of (i) SEQ ID NO: 1 to SEQ ID NO: 113, and (ii) a variant sequence thereof which maintains capacity to bind to MHC molecule(s) and/or induce T cells cross-reacting with said variant peptide, or a pharmaceutically acceptable salt thereof.

Provided herein are, among other things, methods for treating a patient suffering from a CD38+ cancer.

Provided herein are, among other things, methods for treating a patient suffering from a CD38+ cancer.

In one aspect, a method generally includes obtaining a dried silicified cell that has been stored for at least 24 hours without cryopreservation and rehydrating the dried silicified cell in a pharmaceutically acceptable carrier. The method can further include surface modifying the silicified cell with at least one immunogenic molecule. The method can further include administering the rehydrated silicified cell to a subject. In some embodiment, the dried silicified cell has been stored for at least 14 days without cryopreservation. In another aspect, a method of treating a tumor in a subject generally includes administering to the subject a chemotherapeutic agent effective to treat the tumor and administering to the subject a silicified cell vaccine effective to treat the tumor.