An object is to provide dispersion containing lipid peptide type compound useful as low molecular weight gelator, such as lipid dipeptide and lipid tripeptide, and dissolution accelerator capable of dissolving the lipid peptide type compound at lower temperature and more easily. It is also an object to provide dispersion that can form hydrogel by simpler method and under milder condition (low temperature) and from which gel can be obtained as gel having high thermal stability, and provide method for forming the gel. Dispersion including: a lipid peptide type compound in which peptide portion formed by repetition of at least two or more identical or different amino acids is bonded to lipid portion including C.sub.10-24 aliphatic group; dissolution accelerator having, in molecules thereof, hydrophilic portion and hydrophobic portion, the hydrophilic portion having betaine structure; and water; and method for producing hydrogel by use of the dispersion.

The present invention relates to the field of wood rosin and resin acid derivatives and more particularly to abietane-type diterpenoids as well as different uses thereof. Furthermore, the present invention relates to methods of coating surfaces, preventing, reducing or inhibiting bacterial biofilm formation, and treating or preventing disorders caused by microbial growth and viability as well as bacterial colonization.

A method of synthesing a compound of formula (I) from a compound of formula (III). ##STR00001##

A conjugate comprising a PBD dimer linked from the tether joining the two PBD units, wherein the linker is of formula (A1): (Formula (A1)) wherein R.sup.N1 is selected from H and C.sub.1-4 alkyl; L is a linker connected to a cell binding agent; CBA is the cell binding agent; n is an integer selected in the range of 0 to 48; Q is: (Formula (Q)), where Q.sup.x is such that Q is an amino-acid residue, a dipeptide residue or a tripeptide residue.

##STR00001##

The present invention provides a compound represented by the formula (1) or a salt thereof, or a complex of the compound or the salt with a metal, in the formula (1), A.sup.1 represents a chelate group; R.sup.1 represents a hydrogen atom or the like; R.sup.2 represents a hydrogen atom or the like; and Z.sup.1, Z.sup.2, Z.sup.3, Z.sup.4, and Z.sup.5 are the same or different and each represent a nitrogen atom or CR.sup.3 or the like wherein R.sup.3 represents a hydrogen atom or an optionally substituted C.sub.1-6 alkyl group or the like; L.sup.1 represents a group represented by the formula (3) wherein R.sup.13, R.sup.14, R.sup.15, and R.sup.16 are the same or different and each represent a hydrogen atom or the like; L.sup.2 represents an optionally substituted C.sub.1-6 alkylene group; and L.sup.3 represents an optionally substituted C.sub.1-6 alkylene group. ##STR00001##

Provided herein are deuterated compounds and compositions useful in increasing PPARδ activity. The compounds and compositions provided herein are useful for the treatment of PPARδ related diseases (e.g., muscular diseases, vascular disease, demyelinating disease, and metabolic diseases).

The present invention relates to the ability of specialized non-naturally occurring peptides to bind to sodium channels and inhibit activation of the sodium channels. The invention further relates to methods for regulating of sodium absorption and fluid volume and treating disorders responsive to modulating sodium absorption by modulating the binding of specialized non-naturally occurring peptides to sodium channels.

Some embodiments include compounds that can inhibit the growth of bacterial and/or inhibit or reduce microbial infections caused by one or more microorganisms (e.g., Pseudomonas aeruginosa and Cryptococcus neoformans) and methods of using these compounds to treat microbial infection and outbreaks and/or to reduce the formation of biofilms. Other embodiments include synthesis of the compounds that can inhibit the growth of one or more microorganisms and/or inhibit or reduce microbial infections.

There is provided novel small molecule E3 ubiquitin ligase protein binding ligand compounds, and to their utility in PROteolysis Targeted Chimeras (PROTACs), as well as processes for their preparation thereof, and use in medicine. There is particularly provided novel small molecule E3 ubiquitin ligase protein binding inhibitor compounds based on a fluorohydroxyproline scaffold, to their utility as ligands in synthesizing novel PROTACs, and to synthetic methods therefor.

Devices, bandages, kits and methods are described that can control or regulate the mechanical environment of a wound to ameliorate scar and/or keloid formation. The mechanical environment of a wound includes stress, strain, and any combination of stress and strain. The control of a wound's mechanical environment can be active, passive, dynamic, or static. The devices are configured to be removably secured to a skin surface in proximity to the wound site and shield the wound from endogenous and/or exogenous stress.