The present application presents novel peptidomimetic substituted hydroxyethylene compounds, which are inhibitors of beta amyloid cleavage enzyme, capable to permeate the brain and to achieve therapeutic concentrations in the target organ, the brain. These compounds are incorporated in pharmaceutical compositions and applied in the treatment or prophylaxis of neurological disorders or conditions and also other disorders or conditions including Down's syndrome and diabetes.

Described herein are nucleic acid-peptide capsule complexes or nanoparticles comprising pre-formed peptide capsules and nucleic acids bound the exterior surface of the capsule, such that the wrap around the capsule membrane. The peptide capsules comprise bilayer membrane defining a liquid-receiving interior space and comprises a plurality of branched, amphipathic peptides. Method of making and using such complexes for delivering nucleic acids in vivo and in vitro are also described.

Described herein are nucleic acid-peptide capsule complexes or nanoparticles comprising pre-formed peptide capsules and nucleic acids bound the exterior surface of the capsule, such that the wrap around the capsule membrane. The peptide capsules comprise bilayer membrane defining a liquid-receiving interior space and comprises a plurality of branched, amphipathic peptides. Method of making and using such complexes for delivering nucleic acids in vivo and in vitro are also described.

Disclosed herein are compounds for the treatment of neurodegenerative diseases and compositions comprising the same.

Disclosed herein are compounds for the treatment of neurodegenerative diseases and compositions comprising the same.

A method for enhancing, by at least 10 fold, the antibacterial activity of an antisense oligonucleotide composed of morpholino subunits linked by phosphorus-containing intersubunit linkages. The method includes one or both of: conjugating an arginine-rich carrier to a 3′ or 5′ end of the oligonucleotide and modifying the oligonucleotide to contain 20%-50% intersubunit linkages that are positively charged at physiological pH. Also disclosed is an antisense oligonucleotide having enhanced antibacterial activity by virtue of one or both modifications.

A method for enhancing, by at least 10 fold, the antibacterial activity of an antisense oligonucleotide composed of morpholino subunits linked by phosphorus-containing intersubunit linkages. The method includes one or both of: conjugating an arginine-rich carrier to a 3′ or 5′ end of the oligonucleotide and modifying the oligonucleotide to contain 20%-50% intersubunit linkages that are positively charged at physiological pH. Also disclosed is an antisense oligonucleotide having enhanced antibacterial activity by virtue of one or both modifications.

Compounds and compositions are disclosed in which a quaternized drug unit is linked to a targeting ligand unit from which a tertiary amine-containing drug is released at the targeted site of action. Methods for treating diseases characterized by the targeted abnormal cells, such as cancer or an autoimmune disease using the compounds and compositions of the invention are also disclosed.

Compounds and compositions are disclosed in which a quaternized drug unit is linked to a targeting ligand unit from which a tertiary amine-containing drug is released at the targeted site of action. Methods for treating diseases characterized by the targeted abnormal cells, such as cancer or an autoimmune disease using the compounds and compositions of the invention are also disclosed.

Disclosed are novel compounds having NPR-B agonistic activity. Preferred compounds are linear peptides containing 8-13 conventional or non-conventional L- or D-amino acid residues connected to one another via peptide bonds.