The invention provides compositions and methods for treating and preventing cancer. The invention relates to compositions and methods for treating subjects having a cancer associated with overexpression of estrogen receptors, especially in males. The invention comprises inhibitors of ERβ, inhibitors of TGFβ-1, inhibitors of SMAD, or inhibitors of HIF, or a combination thereof. In one embodiment, the invention provides a method of treating renal cancer, including renal cell carcinoma.

USP14 is a biomarker for recurrent disease and inhibition of USP14 is of therapeutic benefit for women with endometrial or ovarian cancer.

In certain embodiments, the disclosure relates to compositions and methods relating to a ribozyme-based gene regulation system that functions in mammalian cells. In certain specific embodiments, the disclosure relates to schistosome self-cleaving RNA mutant motifs.

The present disclosure provides methods for genetically modifying lymphocytes and methods for performing adoptive cellular therapy that include transducing T cells and/or NK cells. The methods can include inhibitory RNA molecule(s) and/or engineered signaling polypeptides that can include a lymphoproliferative element, and/or a chimeric antigen receptor (CAR), for example a microenvironment restricted biologic CAR (MRB-CAR). Additional elements of such engineered signaling polypeptides are provided herein, such as those that drive proliferation and regulatory elements therefor, as well as replication incompetent recombinant retroviral particles and packaging cell lines and methods of making the same. Numerous elements and methods for regulating transduced and/or genetically modified T cells and/or NK cells are provided, such as, for example, those including riboswitches, MRB-CARs, recognition domains, and/or pH-modulating agents.

The present disclosure relates to polynucleotides comprising a nucleic acid sequence encoding a replication competent viral genome, wherein the polynucleotide is capable of producing a replication competent virus when introduced into a cell by a non-viral delivery vehicle. The present disclosure further relates to the encapsulation of the polynucleotides and the use of the polynucleotides and/or particles for the treatment and prevention of cancer.

The present invention is directed to a single input multiplex decision expression system, and a method of using same, such as for expressing a reporter protein.

Disclosed herein, in certain embodiments, are recombinant Arc and endogenous Gag polypeptides, and methods of using recombinant Arc and endogenous Gag polypeptides.

The present invention relates to a hepcidin antagonist for use in the treatment of inflammatory diseases.

The present specification provides compositions and methods that are capable of directly installing an insertion or deletion of a given nucleotide at a specified genetic locus. The compositions and methods involve the novel combination of the use an engineered RNA enzyme (i.e., “ribozyme”) that is capable of site-specifically inserting or deleting a single nucleotide at a genetic locus and the use of a nucleic acid programmable DNA binding protein (napDNAbp) (e.g., Cas9) to target the engineered ribozyme to a specified genetic locus, thereby allowing for the direct installation of an insertion of deletion at the specified genetic locus by the engineered ribozyme.

Isolation or in vitro assembly of the Cas9-crRNA complex of the Streptococcus thermophilus CRISPR3/Cas system and use for cleavage of DNA bearing a nucleotide sequence complementary to the crRNA and a proto-spacer adjacent motif. Methods for site-specific modification of a target DNA molecule in vitro or in vivo using an RNA-guided DNA endonuclease comprising RNA sequences and at least one of an RuvC active site motif and an HNH active site motif; for conversion of Cas9 polypeptide into a nickase cleaving one strand of double-stranded DNA by inactivating one of the active sites (RuvC or HNH) in the polypeptide by at least one point mutation; for assembly of active polypeptide-polyribonucleotides complex in vivo or in vitro; and for re-programming a Cas9-crRNA complex specificity in vitro and using a cassette containing a single repeat-spacer-repeat unit.