The present invention relates to a CHO cell-derived protein secretory factor, an expression cassette in which a nucleic acid sequence encoding the protein secretory factor; and a gene encoding a target protein are operably linked, an expression vector comprising the expression cassette, a transformed cell into which the expression vector is introduced, and a method for producing a target protein using the transformed cell.

Provided herein are immunoresponsive cells having IL-1 superfamily activities with spatiotemporal restriction. The immunoresponsive cells can further express a protease for regulating the IL-1 superfamily activities, and a chimeric antigen receptor (CAR) or a parallel CAR. Also provided herein are methods of preparing the immunoresponsive cells and methods of directing T cell mediated immune response using the immunoresponsive cells.

The present disclosure relates to antigen presenting cells and uses thereof for treating sepsis. In some aspects, disclosed herein is an antigen presenting cell, comprising: a lipid-based nanoparticle, comprising: a recombinant polynucleotide, comprising: a first nucleic acid encoding an antimicrobial peptide; a second nucleic acid encoding cathepsin B; and a third nucleic acid encoding a linker; and a vitamin-lipid.

The present invention relates to a novel polypeptide which displays IgG cysteine protease activity, and in vivo and ex vivo uses thereof. Uses of the polypeptide include methods for the prevention or treatment of diseases and conditions mediated by IgG, and methods for the analysis of IgG.

The invention refers to a single-chain circular permuted caspase-2 comprising the following structure from N- to C-terminus: i) a small subunit of a caspase-2, or a functionally active variant thereof; and ii) a large subunit of a caspase-2, or a functionally active variant thereof, wherein said cp caspase-2 comprises one or more amino acid substitutions increasing P1′ tolerance of said cp caspase-2 compared to a cp caspase-2 without said amino acid substitutions.

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

Compositions and methods are provided for depletion of pluripotent cells. In one embodiment of the invention, methods are provided for depletion of pluripotent cells from a mixed population of differentiated cells and stem cells, to provide a population of cells substantially free of pluripotent stem cells.

Methods and compositions for the treatment or prevention of amyloidosis are provided. In some embodiments, the methods comprise administering to the subject a therapeutically effective amount of at least one catabolic enzyme or a biologically active fragment thereof. Such methods and compositions may be employed to reduce, prevent, degrade and/or eliminate amyloid formation in the lysosome and/or extracellularly.

Aspects of the disclosure relate to chimeric antigen receptors (CARs) comprising an antigen binding domain (e.g., anti-TSHR), transmembrane domain (e.g., CD28), and a cytoplasmic domain (e.g., CD27, CD-137, etc.) and a safety mechanism comprising an inducible apoptosis trigger. In some aspects, the disclosure relates to use of the CARs in T cells, compositions, kits and methods for the treatment of thyroid cancers.

The technology relates in part to methods for controlling the activity or elimination of therapeutic cells using molecular switches that employ distinct heterodimerizer ligands, in conjunction with other multimeric ligands. The technology may be used, for example to activate or eliminate cells used to promote engraftment, to treat diseases or condition, or to control or modulate the activity of therapeutic cells that express chimeric antigen receptors or recombinant T cell receptors.