The invention relates to a method of treating ocular amyloidosis by reducing TTR expression in a subject by administering a double-stranded ribonucleic acid (dsRNA) that targets a TTR gene to the retinal pigment epithelium of the subject.

In an embodiment of the invention, a composition for treating a cell population comprises an Affinity Medicant Conjugate (AMC). The medicant moiety can be a toxin including an acylfulvene or a drug moiety. The affinity moiety can be an antibody, a binding protein, a steroid, a lipid, a growth factor, a protein, a peptide or non peptidic. The affinity moiety can be covalently bound to the medicant via a linker. Novel linkers that can be directed to cysteine, arginine or lysine residues based on solution pH allow greater flexibility in preserving and/or generating specific epitopes in the AMC.

The present invention provides a composition and a method for efficiently delivering a nucleic acid agent to the central nervous system and/or the retina and bringing about antisense effects. Provided is a composition for reducing the expression level of a target transcription product in the central nervous system and/or retina of a subject, the composition including a nucleic acid complex that includes a first nucleic acid strand and a second nucleic acid strand, wherein: the first nucleic acid strand comprises a base sequence capable of hybridizing with at least part of the target transcription product and has an antisense effect on the target transcription product; the second nucleic acid strand comprises a base sequence complementary to the first nucleic acid strand and is conjugated to tocopherol, cholesterol, or an analog thereof; and the first nucleic acid strand is annealed to the second nucleic acid strand.

The invention relates to a ligand-effector moiety provided with at least one saponin and antibody-effector moiety provided with at least one saponin. An aspect of the invention is a composition comprising the ligand-effector moiety provided with at least one saponin or the antibody-effector moiety provided with at least one saponin of the invention. The invention also relates to an antibody-drug conjugate comprising covalently linked saponin and to an antibody-oligonucleotide conjugate comprising covalently linked saponin. An aspect of the invention relates to a pharmaceutical composition comprising the ligand-effector moiety provided with at least one saponin or the antibody-effector moiety provided with at least one saponin of the invention, and optionally further comprising a pharmaceutically acceptable excipient. The invention also relates to the ligand-effector moiety provided with at least one saponin or the antibody-effector moiety provided with at least one saponin, for use as a medicament. The invention also relates to the ligand-effector moiety provided with at least one saponin or the antibody-effector moiety provided with at least one saponin of the invention for use in the treatment or prophylaxis of a cancer.

The invention relates to double stranded ribonucleic acid (dsRNAi) agents and compositions targeting the SCAP gene, as well as methods of inhibiting expression of a SCAP gene and methods of treating subjects having a SCAP-associated disorder, such as nonalcoholic fatty liver disease (NAFLD) or nonalcoholic steatohepatitis (NASH), using such dsRNAi agents and compositions.

The disclosure features surface coatings formed from dimeric steroid prodrugs for the extended delivery of a drug from a surface, and for the treatment of a disease or condition. Also provided herein are drug depots formed from dimeric steroid prodrugs for the extended delivery of a drug for use in combination with implantable medical devices. Said dimeric steroid prodrugs are represented by the formula D1-L-D2, wherein D1 and D2 are independently a steroid radical and L is a linker covalently linking D1 to D2.

In certain embodiments a platform technology for the facilitating immune therapy in the treatment of cancer is provided. In certain embodiments nanocarriers are provided that facilitate delivery of an IDO inhibitor in conjunction with an inducer of cell death (ICD-inducer). In certain embodiments the IDO inhibitor is conjugated to a component of a lipid bilayer forming a nanovesicle. In still another embodiment, methods and compositions are provided where an ICD-inducing agent (e.g., doxorubicin, oxaliplatin, mitoxantrone etc.) and an IDO pathway inhibitor (e.g., an IDO inhibitor-prodrug) are integrated into a nanocarrier (e.g. a lipid-bilayer (LB)-coated nanoparticle), that allows systemic delivery to orthotopic pancreatic cancer site.

Provided are functional segregated telodendrimers having, for example, two or three functional segments. The telodendrimers can have one or more crosslinking groups (e.g., reversible photocrosslinking groups). The telodendrimers can aggregate to form nanocarriers. Cargo such as drugs, imaging probes, and other materials may be sequestered in the core of the aggregates via non-covalent or covalent interactions with the telodendrimers. Such nanocarriers may be used in drug delivery applications and imaging applications.

Articles, compositions, kits, and methods relating to nanostructures, including synthetic nanostructures, are provided. Certain embodiments described herein include structures having a core-shell type arrangement; for instance, a nanostructure core may be surrounded by a shell including a material, such as a lipid bilayer, and may include other components such as oligonucleotides. In some embodiments, the structures, when introduced into a subject, can be used to deliver nucleic acids and/or can regulate gene expression. Accordingly, the structures described herein may be used to diagnose, prevent, treat or manage certain diseases or bodily conditions. In some cases, the structures are both a therapeutic agent and a diagnostic agent.

Nanoparticle compositions described herein comprise combinations of prodrugs of therapeutic agents that achieve enhanced therapeutic effects as compared to those observed when combinations of free forms of these therapeutic agents are administered.