The present disclosure provides methods of identifying non-productive splice sites in target RNA transcripts and antisense oligonucleotides that increase the expression of said target RNA transcripts. In an embodiment, the target RNA transcript comprises ADAR, ARSA, ATPIA2, CACNAIA, DNMI, EIF2BI, EIF2B2, EIF2B5, IDUA, MFSD8, NF2, NPC1L PEXI, PRICKLE2, PRRT2, RAM, SETD5, SHANKS, SLC6A1, STXBPI, STX1B, and TCF4.

Disclosed herein are polynucleic acid molecules, pharmaceutical compositions, and methods for treating muscle dystrophy (DM1).

The present invention relates to nucleic acids for inhibiting expression of a target gene in a cell, comprising at least one duplex region that comprises at least a portion of a first strand and at least a portion of a second strand that is at least partially complementary to the first strand, wherein said first strand is at least partially complementary to at least a portion of RNA transcribed from said target gene to be inhibited. The first strand of the nucleic acid has a terminal 5′ (E)-vinylphosphonate nucleotide that is linked to the second nucleotide in the first strand by a phosphodiester linkage.

The present disclosure relates to modified extracellular vesicles, e.g., exosomes, comprising an antisense oligonucleotide (ASO), which is capable of reducing and/or inhibiting expression of KRAS mRNA and/or KRAS protein. ASOs that can be used with the modified extracellular vesicles are also disclosed. Also provided herein are methods for using the exosomes and ASOs to treat and/or prevent diseases, such as cancer.

Compositions and methods for modulating expression of target nucleic acids using a single strand oligoribonucleotide ss-siRNA compound are disclosed.

This disclosure relates to novel targets for angiogenic disorders. Novel oligonucleotides are also provided. Methods of using the novel oligonucleotides for the treatment of angiogenic disorders (e.g., preeclampsia) are also provided.

The present invention provides RNAi agents, e.g., double stranded RNAi agents, that target the transthyretin (TTR) gene and methods of using such RNAi agents for treating or preventing TTR-associated diseases.

Disclosed herein are methods for decreasing AlAT mRNA and protein expression and treating, ameliorating, preventing, slowing progression, or stopping progression of fibrosis. Disclosed herein are methods for decreasing A1AT mRNA and protein expression and treating, ameliorating, preventing, slowing progression, or stopping progression of liver disease, such as, A1ATD associated liver disease, and pulmonary disease, such as, A1ATD associated pulmonary disease in an individual in need thereof. Methods for inhibiting AlAT mRNA and protein expression can also be used as a prophylactic treatment to prevent individuals at risk for developing a liver disease, such as, A1ATD associated liver disease and pulmonary disease, such as, A1ATD associated pulmonary disease.

Compositions and methods for introducing double-stranded breaks within the SERPINA1 gene are provided. Compositions and methods for reducing and eliminating mutant forms of α1-antitrypsin (AAT), such as seen in subjects having α1-antitrypsin deficiency (AATD), are provided.

The invention relates to antisense molecules and methods for modulating splicing of polyomavirus T antigen pre-mRNA. In one aspect the invention relates to an antisense oligonucleotide 12 to 30, preferably 17, 18, 19 or 20 to 30 nucleobases in length which comprises a sequence that is the reverse complement of a contiguous stretch of at least 12 nucleobases of a polyomavirus T-antigen pre-mRNA and which antisense oligonucleotide can modulate splicing of said T-antigen pre-mRNA in a cell.