The invention relates to iRNA, e.g., double-stranded ribonucleic acid (dsRNA), compositions targeting the complement component C5 gene, and methods of using such iRNA, e.g., dsRNA, compositions to inhibit expression of C5 and to treat subjects having a complement component C5-associated disease, e.g., paroxysmal nocturnal hemoglobinuria.

The present invention provides a vasodilator capable of dilating a blood vessel even in the presence of ROS. A vasodilator of the present invention includes:

a compound represented by the following formula (1) or a salt thereof:

##STR00001##

where in the formula (1),

an A ring and a B ring may be the same or different and are each a pyrazole ring having a substituent or a pyrazoline ring having a substituent, and

L is a saturated or unsaturated hydrocarbon group.

The present invention provides a vasodilator capable of dilating a blood vessel even in the presence of ROS. A vasodilator of the present invention includes:

a compound represented by the following formula (1) or a salt thereof:

##STR00001##

where in the formula (1),

an A ring and a B ring may be the same or different and are each a pyrazole ring having a substituent or a pyrazoline ring having a substituent, and

L is a saturated or unsaturated hydrocarbon group.

The invention provides a method of reducing or preventing mitochondrial permeability transitioning. The method comprises administering an effective amount of an aromatic-cationic peptide having at least one net positive charge; a minimum of four amino acids; a maximum of about twenty amino acids; a relationship between the minimum number of net positive charges (p.sub.m) and the total number of amino acid residues (r) wherein 3p.sub.m is the largest number that is less than or equal to r+1; and a relationship between the minimum number of aromatic groups (a) and the total number of net positive charges (p.sub.t) wherein 2 a is the largest number that is less than or equal to p.sub.t+1, except that when a is 1, p.sub.t may also be 1.

A gene vector comprising a miRNA sequence target.

Products, compositions, systems, and methods for modifying a target structure which mediates or is associated with a biological activity, including treatment of conditions, disorders, or diseases mediated by or associated with a target structure, such as a virus, cell, subcellular structure or extracellular structure. The methods may be performed in situ in a non-invasive manner by placing a nanoparticle having a metallic shell on at least a fraction of a surface in a vicinity of a target structure in a subject and applying an initiation energy to a subject thus producing an effect on or change to the target structure directly or via a modulation agent. The nanoparticle is configured, upon exposure to a first wavelength λ.sub.1, to generate a second wavelength λ.sub.2 of radiation having a higher energy than the first wavelength λ.sub.1. The methods may further be performed by application of an initiation energy to a subject in situ to activate a pharmaceutical agent directly or via an energy modulation agent, optionally in the presence of one or more plasmonics active agents, thus producing an effect on or change to the target structure. Kits containing products or compositions formulated or configured and systems for use in practicing these methods.

An amorphous solid form of a compound comprising of the angiotensin receptor antagonist (ARB) valsartan, the neutral endopeptidase inhibitor (NEPi) (2R,4S)-5-biphenyl-4-yl-4-(3-carboxy-propionylamino)-2-methylpentanoic acid ethyl ester and sodium cations is provided. This is compound is useful for the treatment of hypertension and/or heart failure.

The invention provides a novel adrenomedullin derivative sustainable for a long period which is capable of substantially suppressing unwanted side effects while maintaining pharmacological effects of adrenomedullin. In an exemplary embodiment, the invention relates to a compound represented by formula (I): A-CH.sub.2—B (I) [wherein A is a modifying group comprising one or more polyethylene glycol groups, and B is a peptide moiety derived from adrenomedullin or a modified form thereof with adrenomedullin activity, wherein the peptide moiety B is linked to the other moieties through a covalent bond of the nitrogen atom of the N-terminal α-amino group of the peptide moiety B to the carbon atom of the methylene group] or a salt thereof, or a hydrate thereof.

The invention provides a novel adrenomedullin derivative sustainable for a long period which is capable of substantially suppressing unwanted side effects while maintaining pharmacological effects of adrenomedullin. In an exemplary embodiment, the invention relates to a compound represented by formula (I): A-CH.sub.2—B (I) [wherein A is a modifying group comprising one or more polyethylene glycol groups, and B is a peptide moiety derived from adrenomedullin or a modified form thereof with adrenomedullin activity, wherein the peptide moiety B is linked to the other moieties through a covalent bond of the nitrogen atom of the N-terminal α-amino group of the peptide moiety B to the carbon atom of the methylene group] or a salt thereof, or a hydrate thereof.

The present invention provides apelin receptor (APLNR) modulators that bind to APLNR and methods of using the same. The invention includes APLNR modulators such as antibodies, or antigen-binding fragments thereof, which inhibit or attenuate APLNR-mediated signaling. The invention includes APLNR modulators such as antibodies, or antibody fusion proteins thereof, that activate APLNR-mediated signaling. According to certain embodiments of the invention, the antibodies or antigen-binding fragments or antibody fusion proteins are fully human antibodies that bind to human APLNR with high affinity. The APLNR modulators of the invention are useful for the treatment of diseases and disorders associated with APLNR signaling and/or APLNR cellular expression, such as cardiovascular diseases, angiogenesis diseases, metabolic diseases and fibrotic diseases.