Provided are compounds, methods, and pharmaceutical compositions for reducing the amount or activity of ATXN3 mRNA in a cell or animal, and in certain instances reducing the amount of Ataxin-3 protein in a cell or animal. Such compounds, methods, and pharmaceutical compositions are useful to prevent or ameliorate at least one symptom or hallmark of a neurodegenerative disease. Such symptoms and hallmarks include ataxia, neuropathy, and aggregate formation. Such neurodegenerative diseases include SCA3.

In one aspect, the present disclosure provides a microRNA-33 (miR-33) inhibitor comprising a peptide nucleic acid covalently bound to a pH low insertion peptide. In another aspect, the present disclosure provides a method of treating pulmonary fibrosis in a subject, the method comprising administering to the subject a therapeutically effective amount of the miR-33 inhibitor. In some embodiments, the pulmonary fibrosis is idiopathic pulmonary fibrosis.

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

Compositions and methods of use thereof for delivering nucleic acid cargo into cells are provided. The compositions typically include (a) a 3E10 monoclonal antibody or an antigen binding, cell-penetrating fragment thereof; a monovalent, divalent, or multivalent single chain variable fragment (scFv); or a diabody; or humanized form or variant thereof, and (b) a nucleic acid cargo including, for example, a nucleic acid encoding a polypeptide, a functional nucleic acid, a nucleic acid encoding a functional nucleic acid, or a combination thereof. Elements (a) and (b) are typically non-covalently linked to form a complex.

Compositions and methods of use thereof for delivering nucleic acid cargo into cells are provided. The compositions typically include (a) a 3E10 monoclonal antibody or an antigen binding, cell-penetrating fragment thereof; a monovalent, divalent, or multivalent single chain variable fragment (scFv); or a diabody; or humanized form or variant thereof, and (b) a nucleic acid cargo including, for example, a nucleic acid encoding a polypeptide, a functional nucleic acid, a nucleic acid encoding a functional nucleic acid, or a combination thereof. Elements (a) and (b) are typically non-covalently linked to form a complex.

The present disclosure features useful compositions and methods to treat disorders for which deamination of an adenosine in an mRNA produces a therapeutic result, e.g., in a subject in need thereof.

The present disclosure is directed to conjugates of a specific binding entity and an oligomer, i.e. [Specific Binding Entity]-[Oligomer].sub.n, wherein n is an integer ranging from 1 to 12, and where the Oligomer includes, in some embodiments, a PNA sequence having at least one substituent at a gamma carbon position. In some embodiments, the substituent at the gamma carbon position, e.g. an amino acid, a peptide, a miniPEG, or a polymer, includes at least one reporter moiety.

The present disclosure includes the use of a miRNA inhibitor for treating a disease or condition associated with a decreased level of SIRT1, PGC-1α, CD36, LRRK2, NRG1, STMN2, VLDLR, NRXN1, GRIA4, NXPH1, PSD-95, and/or synaptophysin protein or SIRT1, PGC-1α, CD36, LRRK2, NRG1, STMN2, VLDLR, NRXN1, GRIA4, NXPH1, PSD-95, and/or synaptophysin gene expression. In some aspects, the miRNA inhibitor can be used to treat a disease or condition associated with an increased level of caspase-3 protein or gene expression. The miRNA inhibitor useful for the present disclosure can inhibit miR-485 expression and/or activity, which in turn can increase the level of SIRT1, PGC-1α, CD36, LRRK2, NRG1, STMN2, VLDLR, NRXN1, GRIA4, NXPH1, PSD-95, and/or synaptophysin protein or gene expression; and/or can decrease the level of caspase 3 protein or gene expression.

The invention provides an oligonucleotide comprising an inosine, and/or a nucleotide containing a base able to form a wobble base pair or a functional equivalent thereof, wherein the oligonucleotide, or a functional equivalent thereof, comprises a sequence which is complementary to at least part of a dystrophin pre-m RNA exon or at least part of a non-exon region of a dystrophin pre-m RNA said part being a contiguous stretch comprising at least 8 nucleotides. The invention further provides the use of said oligonucleotide for preventing or treating DMD or BMD.

An antisense molecule capable of binding to a selected target site to induce exon skipping in the dystrophin gene, as set forth in SEQ ID NO: 1 to 59.