This disclosure relates to an improved process for the preparation of carbohydrate conjugates. The disclosure also relates to carbohydrate conjugated iRNA agents comprising these carbohydrate conjugates, which have improved purity and are advantageous for the in vivo delivery of the iRNA agents.

Provided herein are DNA aptamers targeting AXL receptor kinase. The DNA aptamers may comprise a thiophosphate backbone and be chemically modified. Further provided herein are methods of use thereof for the treatment of a disease or disorder, such as cancer.

The present invention relates to an asymmetric siRNA that may inhibit expression of programmed cell death protein 1 (PD-1), and a use thereof, and more specifically, to: an asymmetric siRNA including an antisense strand including a sequence complementary to mRNA encoding PD-1, and a sense strand forming complementary bonds with the antisense strand; a pharmaceutical composition for preventing or treating cancer, including the asymmetric siRNA; an immune cell in which expression of PD-1 is inhibited, obtained by treatment with the siRNA; and an immune cell therapeutic agent for treating cancer, including the immune cell.

The present disclosure provides oligonucleotide compositions comprising (1) an oligonucleotide of the present disclosure, e.g., an ASO, siRNA, shRNA, DNA or RNA aptamer, gene therapy vector, miRNA, miRNA mimic, antimiR, DNA or RNA decoy, CpG oligonucleotide, or any therapeutic or diagnostic oligonucleotide known in the art, and (ii) a caprylic acid derivative, e.g., 5-CNAC. In some aspects, the oligonucleotide composition is formulated for delivery to the gastrointestinal tract. Thus, some aspects, the present disclosure provides oligonucleotide compositions for oral delivery comprising a therapeutic or diagnostic oligonucleotide (e.g., an ASO) and a caprylic acid derivative (e.g., 5-CNAC or de derivative thereof).

The invention relates to antisense polynucleotide agents targeting the LECT2 gene, and methods of using such antisense polynucleotide agents to inhibit expression of LECT2 and to treat subjects having a LECT2-associated disease, e.g., amyloidosis.

The present disclosure relates to double-stranded oligonucleotides, including double-stranded oligonucleotides such as siRNAs, comprising a sense strand oligonucleotide and an antisense strand oligonucleotide, and wherein the antisense strand oligonucleotide comprises one or more nucleotide analogs of formula (I-A) which are neither the 5′-overhang nucleotide nor the 3′-overhang nucleotide of the said antisense strand oligonucleotide, and wherein a nucleotide analog of formula (I-A) is as described in the disclosure. Oligonucleotides containing these analogs have superior biological activity, for example, increased in vitro stability and improved in vivo potency especially improved off-target profiles. The improved oligonucleotides are useful for silencing (e.g., reducing or eradicating) the expression of a target gene.

Compositions and methods are provided for the inhibition, treatment and/or prevention of degenerative myelopathy (DM) or amyotrophic lateral sclerosis (ALS).

The object of the present invention is to provide a nucleic acid agent that is efficiently delivered to the nervous system, for example, the central nervous system to which drug delivery can be prevented by BBB, and produces an antisense effect on the target transcriptional product at the delivery site, and a composition comprising the same. In an embodiment, the present invention provides a double-stranded nucleic acid complex formed by annealing a first nucleic acid strand that hybridizes to a part of a target transcriptional product and has an antisense effect on the target transcriptional product, and a second nucleic acid strand that comprises a base sequence complementary to the first nucleic acid strand and is bound to a C.sub.22-35 alkyl group optionally substituted with a hydroxy group or an analog thereof.

This invention relates to methods and compositions useful for treatment of subjects with dry age-related macular degeneration or geographic atrophy secondary to dry age-related macular degeneration. The methods involve administration of a pharmaceutical composition comprising an anti-05 agent ARC1905, which comprises a C5-specific aptamer conjugated to a polyethylene glycol moeity via a linker, in an amount effective for slowing or inhibiting loss of low luminance visual acuity in the subject. The aptamer consists of the sequence fCmGfCfCGfCmGmGfUfCfUfCmAmGmGfCGfCfUmGmAmGfUfCfUmGmAmGfUfUfUAfCf CfUmGfCmG-3T, wherein fC and fU=2′ fluoro nucleotides, mG and mA=2′-OMe nucleotides, all other nucleotides are 2′-OH, and 3T indicates an inverted deoxythymidine. Dosages and administration schedules are disclosed.

Disclosed herein are compositions and methods for targeted treatment of liver cancers with Paclitaxel and miR-122. The disclosed composition comprises RNA nanostructure conjugated to a hepatocyte targeting ligand, paclitaxel, and miR-122 for use in intracellular drug delivery to liver cancer cells. The RNA nanoparticle can involve three or more self-assembled synthetic RNA oligonucleotides that form a central core domain and at least three double-stranded arms arranged around the core domain and extending away from the central core domain.