The present invention relates to RNAi agents, e.g., double-stranded RNAi agents, targeting the angiotensinogen (AGT) gene, and methods of using such RNAi agents to inhibit expression of AGT and methods of treating subjects having an AGT-associated disorder, e.g., hypertension.

The present invention relates to RNAi agents, e.g., double-stranded RNAi agents, targeting the angiotensinogen (AGT) gene, and methods of using such RNAi agents to inhibit expression of AGT and methods of treating subjects having an AGT-associated disorder, e.g., hypertension.

This invention relates to compounds, compositions, and methods useful for reducing α-1 antitrypsin target RNA and protein levels via use of dsRNAs, e.g., Dicer substrate siRNA (DsiRNA) agents.

The present invention relates to RNAi agents, e.g., double-stranded RNAi agents, targeting the apolipoprotein C3 (APOC3) gene, and methods of using such RNAi agents to inhibit expression of APOC3 and methods of treating subjects having an APOC3 associated disorder, e.g., hypertriglyceridemia.

The present disclosure provides compositions and methods for using self-deliverable siRNA (sdRNAi) directed against USP-10 for the treatment of various medical conditions, including skin scarring due to trauma wounds and surgery, corneal and retina scarring due to injury and surgery, internal organ scarring due to injury and surgery, heart tissue scarring due to heart attack and surgery, and lung, liver, and kidney fibrosis due to inflammation and injury. In embodiments, compositions including self-deliverable siRNA (sdRNAi) directed against USP-10 are suitable for use in pharmaceutical formulations and treatments resulting in significant less scar formation, and include synthetic nucleic acids such as sense and antisense oligonucleotides.

Therapeutic oligonucleotides comprising universal pharmacokinetic (PK)-modifying anchors are provided. Methods for treating diseases or disorders comprising administering to a subject a therapeutic oligonucleotide comprising one or more universal PK-modifying anchors are provided.

Aspects of the disclosure relate to complexes comprising a muscle-targeting agent covalently linked to a molecular payload. In some embodiments, the muscle-targeting agent specifically binds to an internalizing cell surface receptor on muscle cells. In some embodiments, the molecular payload inhibits expression or activity of DUX4. In some embodiments, the molecular payload is an oligonucleotide, such as an antisense oligonucleotide or RNAi oligonucleotide.

The present disclosure relates to RNAi agents, e.g., double stranded RNAi agents, able to inhibit xanthine dehydrogenase (XDH) gene expression. Also disclosed are pharmaceutical compositions that include XDH RNAi agents and methods of use thereof. The XDH RNAi agents disclosed herein may be conjugated to targeting ligands to facilitate the delivery to cells, including to hepatocytes. Delivery of the XDH RNAi agents in vivo provides for inhibition of XDH gene expression. The RNAi agents can be used in methods of treatment of diseases, disorders, or symptoms mediated in part by XDH gene expression, such as gout and hyperuricemia.

Disclosed herein are compounds including a nucleic acid (A), their preparation, and their use.

Disclosed herein are compositions and methods for reducing expression of C9ORF72 mRNA and protein in an animal with C9ORF72 specific inhibitors. Also disclosed herein are compositions and methods of selectively inhibiting a C9ORF72 pathogenic associated mRNA variant by administering an antisense compound targeting the region beginning at the start site of exon 1A to the start site of exon 1B of a C9ORF72 pre-mRNA. Such methods are useful to treat, prevent, or ameliorate neurodegenerative diseases in an individual in need thereof. Such C9ORF72 specific inhibitors include antisense compounds.