An isolated or purified antisense oligonucleotide targeted to a nucleic acid molecule encoding vascular endothelial growth factor A (VEGF-A) pre-mRNA, wherein the antisense oligonucleotide has a nucleobase sequence selected from the list comprising SEQ ID NO: 1 to SEQ ID NO: 22 which has a modified backbone structure and sequences with at least 95% sequence identity to SEQ ID NO: 1-22 which have a modified backbone structure, and wherein the antisense oligonucleotide inhibits the expression of human VEGF-A.

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.

Methods for treating muscular dystrophy by administering a pharmaceutical composition comprising about 80 to about 300 mg/kg of an antisense oligomer, or pharmaceutically acceptable salt thereof, are described. In one embodiment, the compositions are administered less frequently than occurs in existing methods of treatment

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 invention relates to cell penetrating molecules comprising two oligonucleotide cargo molecules.

The present disclosure relates to antisense oligomers and related compositions and methods for decreasing the expression of functional human myostatin and methods for treating muscular dystrophy and related disorders and more specifically relates to inducing exclusion of myostatin exon 2 and thereby reducing levels of myostatin protein.

The present disclosure provides a solid phase method of making oligonucleotides via sequential coupling cycles including at least one coupling of a dinucleotide dimer subunit to a free 3′-terminal group of a growing chain. The oligonucleotides include at least two nucleoside subunits joined by a N3′.fwdarw.P5′ phosphoramidate linkage. The method may include the steps of (a) deprotecting the protected 3′ amino group of a terminal nucleoside attached to a solid phase support, said deprotecting forming a free 3′ amino group; (b) contacting the free 3′ amino group with a 3′-protected amino-dinucleotide-5′-phosphoramidite dimer in the presence of a nucleophilic catalyst to form an internucleoside N3′.fwdarw.P5′ phosphoramidite linkage; and (c) oxidizing (e.g., sulfurizing) the linkage. The compositions produced by the subject methods may include a reduced amount of one or more (N−x) oligonucleotide products. Also provided are pharmaceutical compositions including the subject oligonucleotide compositions.

The present disclosure provides a solid phase method of making oligonucleotides via sequential coupling cycles including at least one coupling of a dinucleotide dimer subunit to a free 3′-terminal group of a growing chain. The oligonucleotides include at least two nucleoside subunits joined by a N3′.fwdarw.P5′ phosphoramidate linkage. The method may include the steps of (a) deprotecting the protected 3′ amino group of a terminal nucleoside attached to a solid phase support, said deprotecting forming a free 3′ amino group; (b) contacting the free 3′ amino group with a 3′-protected amino-dinucleotide-5′-phosphoramidite dimer in the presence of a nucleophilic catalyst to form an internucleoside N3′.fwdarw.P5′ phosphoramidite linkage; and (c) oxidizing (e.g., sulfurizing) the linkage. The compositions produced by the subject methods may include a reduced amount of one or more (N−x) oligonucleotide products. Also provided are pharmaceutical compositions including the subject oligonucleotide compositions.

The invention relates to method for repairing aberrant; splicing, wherein such aberrant: splicing is caused by the presence of a natural pseudo exon, comprising blocking of either the natural cryptic 3′ splice site or the natural cryptic 5′ splice site of said natural pseudo exon with an antisense oligomeric compound (AON). Further, the invention comprises an antisense oligomeric compound targeting SEQ ID NO: 1 or SEQ ID NO: 171, preferably selected from the sequences of SEQ ID NO: 267-2040, sequences that are complementary to said sequences or sequences that have an identity of 80% with said sequences or the complementary sequences. The invention further envisages the use of two antisense oligomeric compounds, a first AON targeting SEQ ID NO: 1 and a second targeting AON or SEQ ID NO: 171. These AONs are specifically for use in the treatment of Pompe disease. It is an aspect of the invention that antisense therapy using the above AONs or combinations thereof is used in combination with ERT.

The invention relates to method for repairing aberrant; splicing, wherein such aberrant: splicing is caused by the presence of a natural pseudo exon, comprising blocking of either the natural cryptic 3′ splice site or the natural cryptic 5′ splice site of said natural pseudo exon with an antisense oligomeric compound (AON). Further, the invention comprises an antisense oligomeric compound targeting SEQ ID NO: 1 or SEQ ID NO: 171, preferably selected from the sequences of SEQ ID NO: 267-2040, sequences that are complementary to said sequences or sequences that have an identity of 80% with said sequences or the complementary sequences. The invention further envisages the use of two antisense oligomeric compounds, a first AON targeting SEQ ID NO: 1 and a second targeting AON or SEQ ID NO: 171. These AONs are specifically for use in the treatment of Pompe disease. It is an aspect of the invention that antisense therapy using the above AONs or combinations thereof is used in combination with ERT.