The present invention provides a method of treating heart failure with reduced ejection fraction, by administering to a patient at risk of such damage, a pharmaceutically effective amount of a composition which inhibits the anchoring of PP2A to mAKAP?. This composition is preferably in the form of a viral based gene therapy vector that encodes a fragment of mAKAP? to which PP2A binds.

The present invention provides a method for preventing or treating liver cancer in a subject comprising administrating at least one selected from the group consisting of an Ssu72 peptide, a polynucleotide encoding the Ssu72 peptide and an expression vector containing the polynucleotide to the subject.

The present disclosure and invention relates to a chimeric protein useful in adoptive cell therapy (ACT) which is a membrane-associated signalling protein that can be induced to provide a cell expressing the protein with a STAT-5-mediated signal. Also provided are nucleic acid molecules encoding such a chimeric protein, 5 recombinant constructs, vectors and cells containing the nucleic acid molecule, methods of producing such cells, and therapeutic uses thereof.

Hypersensitive PYR/PYL receptor polypeptides comprising an amino acid substitution in a type 2 protein phosphatase (PP2C) binding interface are provided. Compositions and plants comprising the hypersensitive PYR/PYL receptor polypeptides and methods of producing plants comprising a hypersensitive PYR/PYL receptor polypeptide are also provided.

Disclosed are compositions and methods for targeted treatment of glioblastoma multiforme (GBM). In particular, chimeric antigen receptor (CAR) polypeptides are disclosed that can be used with adoptive cell transfer to target and kill Glioblastoma Stem Cells (GSCs). Also disclosed are immune effector cells, such as T cells or Natural Killer (NK) cells, that are engineered to express these CARs. Therefore, also disclosed are methods of providing an anti-tumor immunity in a subject with Glioblastoma Stem Cells (GSCs) that involves adoptive transfer of the disclosed immune effector cells engineered to express the disclosed CARs.

The present application discloses method of treating spinal cord injury, or a condition associated with or caused by spinal cord injury comprising regenerating nerve or attenuating degeneration of nerve at a site of nerve injury comprising administering at or an area near an injured nerve, a nerve regenerating or nerve degeneration attenuating amount of phosphatase and tensin homolog (PTEN) lipid phosphatase inhibiting peptide.

The present invention provides methods of regulating plant stress tolerance.

The present invention provides a method of treating heart failure with reduced ejection fraction, by administering to a patient at risk of such damage, a pharmaceutically effective amount of a composition which inhibits the anchoring of PP2A to mAKAP?. This composition is preferably in the form of a viral based gene therapy vector that encodes a fragment of mAKAP? to which PP2A binds.

Disclosed herein are polynucleotide agents (including interfering RNA agents (RNAi)), small molecule agents, and synthetic cells, methods of making the same, and their use as therapeutics against age-related dysfunction and/or cellular dysfunction that results in various disease states. In some embodiments, one or more agents as disclosed herein can be used to target and/or decrease the expression of the paired-box protein 5 (PAX5) gene, protein phosphatase, Mg.sup.2+/Mn.sup.2+ dependent 1F (PPM1F) gene, or both. Also disclosed herein are methods for the preparation and use of synthetic cells prepared by in vitro and/or in vivo manipulation using one or more cellular factors, polynucleotide agents, and/or small molecule agents. Disclosed herein is the use of these cells as therapeutic cells that treat age-related dysfunction and/or cellular dysfunction resulting in various disease states.

The present invention provides oligomeric compounds. Certain such oligomeric compounds are useful for hybridizing to a complementary nucleic acid, including but not limited, to nucleic acids in a cell. In certain embodiments, hybridization results in modulation of the amount activity or expression of the target nucleic acid in a cell.