A method of creating antigen-specific, chimeric antigen receptor (CAR) T cells capable of secreting regenerative growth factors upon activation of said CAR. In one embodiment said regenerative CAR-T cells possess a CAR capable of selectively recognizing damaged tissue. In one embodiment said CAR recognizes damage-associated molecular patterns (DAMPs) such as ATP, HMGB-1, matricryptins, cold-inducible RNA-binding protein, histones and mitochondrial DNA. Upon activation of said CAR said regenerative CAR-T cell is induced to produce one or more regenerative growth factors. In some embodiments the invention provides a suicide gene in said regenerative CAR-T cells in order to remove said cells after their therapeutic purpose is completed.

A method of creating antigen-specific, chimeric antigen receptor (CAR) T cells capable of secreting regenerative growth factors upon activation of said CAR. In one embodiment said regenerative CAR-T cells possess a CAR capable of selectively recognizing damaged tissue. In one embodiment said CAR recognizes damage-associated molecular patterns (DAMPs) such as ATP, HMGB-1, matricryptins, cold-inducible RNA-binding protein, histones and mitochondrial DNA. Upon activation of said CAR said regenerative CAR-T cell is induced to produce one or more regenerative growth factors. In some embodiments the invention provides a suicide gene in said regenerative CAR-T cells in order to remove said cells after their therapeutic purpose is completed.

Provided is an application of a non-IGF1R-binding substance in the prevention and/or treatment of inflammatory diseases. Specifically, provided is use of a non-IGF1R-binding substance. The non-IGF1R-binding substance is used for preparing a composition or formulation, and the composition or formulation is used for preventing and/or treating inflammatory diseases.

The present invention relates to compositions of recombinant polynucleic acid constructs comprising at least one nucleic acid sequence encoding an siRNA capable of binding to a target mRNA and at least one nucleic acid sequence encoding a gene of interest. Also disclosed herein is use of the compositions in treating a disease or a condition and in simultaneously modulating expression of two or more genes.

The present invention relates to compositions of recombinant polynucleic acid constructs comprising at least one nucleic acid sequence encoding an siRNA capable of binding to a target mRNA and at least one nucleic acid sequence encoding a gene of interest. Also disclosed herein is use of the compositions in treating a disease or a condition and in simultaneously modulating expression of two or more genes.

The present invention relates to a DNA construct encoding one or more human IGF-1 isoforms that can be used for treatment of neuropathy. Further provided herein are a pharmaceutical composition including the DNA construct as an active ingredient and a method of administering the DNA construct for treatment of neuropathy. The present invention provides a safe and effective way of treating neuropathic patients.

The present invention relates to a DNA construct encoding one or more human IGF-1 isoforms that can be used for treatment of neuropathy. Further provided herein are a pharmaceutical composition including the DNA construct as an active ingredient and a method of administering the DNA construct for treatment of neuropathy. The present invention provides a safe and effective way of treating neuropathic patients.

Provided herein are improved gene therapy vectors and methods of use, in some embodiments, comprising sequences for improved expression and cellular targeting of a therapeutic protein.

Provided herein are compositions and methods to make and use engineered cells, for the purpose of increasing the cell density of a culture comprising metazoan cells and for the production of a cultured edible product.

Provided herein are compositions and methods to make and use engineered cells, for the purpose of increasing the cell density of a culture comprising metazoan cells and for the production of a cultured edible product.