The present disclosure relates to compounds that are capable of inhibiting the ENPP1 gene and treating a variety of cardiac conditions. The disclosure further relates to methods of treating or preventing cardiac conditions, such as myocardial infarction and heart failure.

The present disclosure relates to compounds that are capable of inhibiting the ENPP1 gene and treating a variety of cardiac conditions. The disclosure further relates to methods of treating or preventing cardiac conditions, such as myocardial infarction and heart failure.

The subject matter described herein is directed to compounds, synergistic compositions, and methods for repelling arthropods, such as insects. The compositions comprise aryl and pyridyl-type compounds. The compounds demonstrate strong vapor and topical repellency when applied alone and in synergistic compositions.

Cycloalkylamine derivatives may be used for preventing or treating diseases in humans, animals, and have demonstrated efficacy specifically in treating type 2 diabetes. In an embodiment, the cycloalkylamine derivatives can include a compound selected from the group consisting of cycloheptanamine salts, cyclohexanamine salts, cyclopentanamine salts 1-cycloheptyl-[4,4′-bipyridin]-1-ium, N1,N2-dicycloheptyloxalamide, 1-[3′,5′-bis(trifluoromethyl)phenyl]-3-cycloheptylurea, 1,1′-(4-methyl-1,3-phenylene)bis(3-cycloheptylurea), 1-(2′-aminopyrimidin-4′-yl)-3-cycloheptylurea, 4-amino-N-(cycloheptylcarbamoyl)benzenesulfonamide, 4-(3′-cycloheptylureido)-N-(5″-methylisoxazol-3″-yl)benzenesulfonamide, N-(cycloheptylcarbamoyl)-4-methylbenzenesulfonamide, 1-cycloheptylguanidine hydrochloride, (E)-amino[(amino(cycloheptylamino)methylene)amino]methaniminium chloride, or a pharmaceutically acceptable salt thereof.

Disclosed is a composition and method for a therapeutic treatment that is able to combat triple negative breast cancers (TNBCs). The class of urea compounds acts by blocking at inhibiting the mTOR signaling pathway, which, as a central regulator of mammalian metabolism and physiology that when inhibited leads to the induction of autophagocytosis. The disclosed compounds are further capable of reinitiating the p53 cycle as well as inhibition of the BNIP3/BNIP3L pathway. The disclosed compounds also shows the ability to cross the blood-brain-barrier where metastases can form. This new drug has the potential to be a powerful new treatment to combat invasive TNBCs.

Disclosed is a composition and method for a therapeutic treatment that is able to combat triple negative breast cancers (TNBCs). The class of urea compounds acts by blocking at inhibiting the mTOR signaling pathway, which, as a central regulator of mammalian metabolism and physiology that when inhibited leads to the induction of autophagocytosis. The disclosed compounds are further capable of reinitiating the p53 cycle as well as inhibition of the BNIP3/BNIP3L pathway. The disclosed compounds also shows the ability to cross the blood-brain-barrier where metastases can form. This new drug has the potential to be a powerful new treatment to combat invasive TNBCs.

The present invention relates to the discovery that certain non-naturally occurring, non-peptide amide compounds and amide derivatives, such as oxalamides, ureas, and acrylamides, are useful flavor or taste modifiers, such as a flavoring or flavoring agents and flavor or taste enhancer, more particularly, savory (the “umami” taste of monosodium glutamate) or sweet taste modifiers, —savory or sweet flavoring agents and savory or sweet flavor enhancers, for food, beverages, and other comestible or orally administered medicinal products or compositions.

The present invention relates to the discovery that certain non-naturally occurring, non-peptide amide compounds and amide derivatives, such as oxalamides, ureas, and acrylamides, are useful flavor or taste modifiers, such as a flavoring or flavoring agents and flavor or taste enhancer, more particularly, savory (the “umami” taste of monosodium glutamate) or sweet taste modifiers, —savory or sweet flavoring agents and savory or sweet flavor enhancers, for food, beverages, and other comestible or orally administered medicinal products or compositions.

The present invention relates to a novel N-acylurea derivative and the use thereof for the prevention or treatment of cardiovascular disease, and more particularly to a novel N-acylurea derivative, a pharmaceutical composition for prevention or treatment of cardiovascular disease, which contains the N-acylurea derivative as an active ingredient, and a method of preparing the N-acylurea derivative. The N-acylurea derivative according to the present invention can inhibit platelet aggregation by inhibiting the activity of talin in the intracellular matrix, and thus can be useful for the prevention or treatment of cardiovascular disease.

The present invention relates to a novel N-acylurea derivative and the use thereof for the prevention or treatment of cardiovascular disease, and more particularly to a novel N-acylurea derivative, a pharmaceutical composition for prevention or treatment of cardiovascular disease, which contains the N-acylurea derivative as an active ingredient, and a method of preparing the N-acylurea derivative. The N-acylurea derivative according to the present invention can inhibit platelet aggregation by inhibiting the activity of talin in the intracellular matrix, and thus can be useful for the prevention or treatment of cardiovascular disease.