The present invention relates to a new chemical synthesis, intermediates and catalysts useful for the preparation of the neprilysin (NEP) inhibitor sacubitril, inter alia via nitro 5 compounds. It further relates to new intermediate compounds and their use for said new chemical synthesis route, as well as a new catalyst ligand.

The present disclosure discloses prodrugs of gamma-hydroxybutyric acid as well as compositions and uses thereof.

The present disclosure discloses prodrugs of gamma-hydroxybutyric acid as well as compositions and uses thereof.

-Substituted -amino acids, -substituted -amino acid derivatives, and -substituted -amino acid analogs and (bio)isosteres and their use as chemotherapeutic agents are disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres are selective LAT1/4F2hc substrates and exhibit rapid uptake and retention in tumors expressing the LAT1/4F2hc transporter. Methods of synthesizing the -substituted -amino acid derivatives and -substituted -amino acid analogs and methods of using the compounds for treating cancer are also disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs exhibit selective uptake in tumor cells expressing the LAT1/4F2hc transporter and accumulate in cancerous cells when administered to a subject in vivo. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres exhibit cytotoxicity toward several tumor types.

-Substituted -amino acids, -substituted -amino acid derivatives, and -substituted -amino acid analogs and (bio)isosteres and their use as chemotherapeutic agents are disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres are selective LAT1/4F2hc substrates and exhibit rapid uptake and retention in tumors expressing the LAT1/4F2hc transporter. Methods of synthesizing the -substituted -amino acid derivatives and -substituted -amino acid analogs and methods of using the compounds for treating cancer are also disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs exhibit selective uptake in tumor cells expressing the LAT1/4F2hc transporter and accumulate in cancerous cells when administered to a subject in vivo. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres exhibit cytotoxicity toward several tumor types.

Novel aryl compounds or pharmaceutically acceptable salts thereof, and uses of the same for the treatment of Gram-negative infections.

Novel aryl compounds or pharmaceutically acceptable salts thereof, and uses of the same for the treatment of Gram-negative infections.

It is an objective of the present invention to provide a novel polymerizable triptycene derivative that has a structure in which three benzene rings arranged at the axis formed by barrelene of the triptycene skeleton can rotate evenly and that has hydrophilicity imparted to it as compared to any of the prior art triptycene derivatives and is thus highly useful in functional materials.

The above objective is achieved by the polymerizable triptycene derivative having substituents with an unsaturated bonding functional group at position 9 and/or position 10 of the triptycene skeleton, the polymerizable triptycene derivative having two carboxyl groups and the polymerizable triptycene derivative having one carboxyl group and one amino group.

It is an objective of the present invention to provide a novel polymerizable triptycene derivative that has a structure in which three benzene rings arranged at the axis formed by barrelene of the triptycene skeleton can rotate evenly and that has hydrophilicity imparted to it as compared to any of the prior art triptycene derivatives and is thus highly useful in functional materials.

The above objective is achieved by the polymerizable triptycene derivative having substituents with an unsaturated bonding functional group at position 9 and/or position 10 of the triptycene skeleton, the polymerizable triptycene derivative having two carboxyl groups and the polymerizable triptycene derivative having one carboxyl group and one amino group.

Described herein are new synthetic routes for production of Endochin-Like Quinolone (ELQ) compounds. Synthetic routes to 3-substituted 4(1H)-quinolones are presented that are amenable to industrial scale preparation. One herein presented approach is relatively short, does not require palladium, and involves no chromatographic separation. A second herein presented approach is similarly relatively short, does not require palladium, involves no chromatographic separation, and also avoids high vacuum distillation. Additionally, both approaches require no protecting group chemistry because the insoluble 4(1H)-quinolone is not formed until the final reaction step.