Abstract: This disclosure relates to methods for enhancing the therapeutic efficacy of isolated cells for use in cell therapies such as adoptive cell transfer therapies by insertion of an under-expressed miRNA that is beneficial for therapeutic efficacy of cell therapies into the actively expressed locus of a gene, either protein coding or non-coding, that hampers therapeutic efficacy of cell therapies by this disrupting expression of the latter while inducing expression of the former.

Abstract: This invention relates, in part, to methods and compositions that are useful for the treatment and/or prevention of various disorders, including radiation-related disorders, such as acute radiation syndrome.

Abstract: This invention relates, in part, to methods and compositions that are useful for the treatment and/or prevention of various disorders, including radiation-related disorders, such as acute radiation syndrome.

Abstract: The present application relates to nucleic acid compounds, compositions comprising same and methods of use thereof for treatment of various diseases, disorders and conditions. The compounds are preferably chemically synthesized and modified double-stranded nucleic acid molecules which down regulate expression of a p53 gene.

Abstract: The present disclosure relates to methods of treating a patient suffering from or at risk of developing an ocular disease, disorder or injury, and includes treatment regimens using a double-stranded RNA compound that down-regulates CASP2 expression, or a pharmaceutically acceptable salt thereof.

Abstract: Provided herein are double stranded nucleic acid molecules, compositions comprising same and methods of use thereof for the treatment of a subject wherein expression of DDIT4 is associated with the etiology or progression of a disease or disorder in the subject. The compounds are preferably chemically synthesized and modified dsRNA molecules.

Abstract: This invention relates, in part, to methods and compositions that are useful for the treatment and/or prevention of various disorders, including radiation-related disorders, such as acute radiation syndrome.

Abstract: The present application relates to nucleic acid compounds, compositions comprising same and methods of use thereof for treatment of various diseases, disorders and conditions. The compounds are preferably chemically synthesized and modified double-stranded nucleic acid molecules which down regulate expression of a p53 gene.

Abstract: What is described is a pharmaceutical composition for treating a fibrotic disease comprising a drug carrier, which comprises a lipid and a retinoid, and a double-stranded nucleic acid molecule, which comprises an antisense sequence to mRNA encoding human hsp47.

Abstract: What is described is a method for treating a fibrotic disease by administering a pharmaceutical composition comprising a drug carrier, which comprises a lipid and a retinoid, and a double-stranded nucleic acid molecule, which comprises an antisense sequence to mRNA encoding human hsp47.

Abstract: This invention relates, in part, to methods and compositions that are useful for the treatment and/or prevention of various disorders, including radiation-related disorders, such as acute radiation syndrome.

Abstract: Disclosed herein are double stranded RNA molecules which have been modified to exhibit one of the following, increased activity, enhanced nuclease stability, reduced off target activity and or reduced immunogenicity, to pharmaceutical compositions comprising such compounds and to methods of use. Further disclosed is a method for the synthesis of threose nucleic acid phosphoramidites and methods of use thereof.

Abstract: The invention, in some embodiments, relates to compounds and methods for the prevention of ischemia reperfusion injury (IRI) in organs, and in particular to IRI in organs aged 35 years and older. Specific uses include prevention of IRI in native organs in vivo, in reimplantations and in transplantations of donor organs aged 35 years and older. Additional embodiments include the prophylaxis of delayed graft function (DGF) and reduction in the frequency, amount and duration of dialysis in recipients of deceased donor kidney transplantations. The methods entail contacting the organ in vivo or ex vivo with a temporary p53 inhibitor. Novel temporary dsNA p53 inhibitors are further provided.

Abstract: Provided herein are compositions, methods and kits for modulating expression of target genes, particularly heat shock protein 47 (hsp47). The compositions, methods and kits may include nucleic acid molecules (for example, short interfering nucleic acid (siNA), short interfering RNA (siRNA), double-stranded RNA (dsRNA), micro-RNA (miRNA) or short hairpin RNA (shRNA)) that modulate a gene encoding hsp47, for example, the gene encoding human hsp47. The composition and methods disclosed herein may also be used in treating conditions and disorders associated with hsp47 such as liver fibrosis, pulmonary fibrosis, peritoneal fibrosis and kidney fibrosis.

Abstract: The present invention provides antibodies or antigen-binding fragments thereof that specifically bind the ENDO180 polypeptide and are internalized thereby, to conjugates comprising the molecules, to compositions comprising the antibodies and conjugates and to methods of using the same for delivery of therapeutic agents to cells that express the ENDO180 polypeptide on the surface of the cell for treating cell proliferative diseases or disorders and fibrosis, and for controlling (modulating) tumor progression.

Abstract: The present application relates to nucleic acid compounds, compositions comprising same and methods of use thereof for treatment of various diseases, disorders and conditions. The compounds are preferably chemically synthesized and modified double-stranded nucleic acid molecules which down regulate expression of a p53 gene.

Abstract: The present application relates to nucleic acid compounds, compositions comprising same and methods of use thereof for treatment of various diseases, disorders and conditions. The compounds are preferably chemically synthesized and modified double-stranded nucleic acid molecules which down regulate expression of a p53 gene.

Abstract: The invention, in some embodiments, relates to compounds and methods for the prevention of ischemia reperfusion injury (IRI) in organs, and in particular to IRI in organs aged 35 years and older. Specific uses include prevention of IRI in native organs in vivo, in reimplantations and in transplantations of donor organs aged 35 years and older. Additional embodiments include the prophylaxis of delayed graft function (DGF) and reduction in the frequency, amount and duration of dialysis in recipients of deceased donor kidney transplantations. The methods entail contacting the organ in vivo or ex vivo with a temporary p53 inhibitor. Novel temporary dsNA p53 inhibitors are further provided.

Abstract: Provided herein are double stranded nucleic acid molecules, compositions comprising same and methods of use thereof for the treatment of a subject wherein expression of DDIT4 is associated with the etiology or progression of a disease or disorder in the subject. The compounds are preferably chemically synthesized and modified dsRNA molecules.

Abstract: The invention, in some embodiments, relates to compounds and methods for the prevention of ischemia reperfusion injury (IRI) in organs, and in particular to IRI in organs aged 35 years and older. Specific uses include prevention of IRI in native organs in vivo, in reimplantations and in transplantations of donor organs aged 35 years and older. Additional embodiments include the prophylaxis of delayed graft function (DGF) and reduction in the frequency, amount and duration of dialysis in recipients of deceased donor kidney transplantations. The methods entail contacting the organ in vivo or ex vivo with a temporary p53 inhibitor. Novel temporary dsNA p53 inhibitors are further provided.