Synthesis and structure-affinity relationships of spirocyclic σ receptor ligands with tetrahydropyran scaffold.

The σ receptor plays a key role in the regulation of various processes in the human body; it is involved in the development of neurodegenerative and neuropsychiatric diseases and is overexpressed in several human tumors rendering it an important target for potential drug candidates. In this project, spirocyclic σ receptor ligands with different substituents in 4- and 9-position were synthesized and investigated for their σ receptor affinity and selectivity over related targets. The σ affinity of the ligands was correlated with their lipophilicity (logD value) giving insight into their lipophilic ligand efficiency (LLE).

N-Pyrazolyl- and N-Triazolylamines and -Ureas as Antileishmanial and Antitrypanosomal Drugs.

Three types of modifications of antileishmanial pyrazole lead compounds 7 and 8 were conducted to expand understanding of the relationships between structural features and antileishmanial/antitrypanosomal activity: (1) the pyrazole core was retained or replaced by a 1,2,4-triazole ring; (2) various aryl moieties including 2-fluorophenyl, pyridin-3-yl and pyrazin-2-yl rings were attached at 3-position of the core azole; (3) either arylmethylamino or ureido substituents were introduced at 5-position of the azole core. The synthesis followed established routes starting with esters 9 or 15 and anhydride 21. The synthesized 3-arylpyrazoles and 3-aryl-1,2,4-triazoles had only very low antileishmanial activity.

Late-Stage Diversification of Pyrazoles as Antileishmanial Agents.

N-Pyrazolylcarboxamides and N-pyrazolylureas represent promising lead compounds for the development of novel antileishmanial drugs. Herein, we report the late-stage diversification of 3-bromopyrazoles 10 A/B and 14 A by Pd-catalyzed Sonogashira and Suzuki-Miyaura cross coupling reactions. The electron-withdrawing properties of the cyano moiety in 4-position of the pyrazole ring limited the acylation of the primary amino moiety in 5-position.

Diastereoselective synthesis and structure-affinity relationships of receptor ligands with spirocyclic scaffold.

Spirocyclic scaffolds play an increasing role in drug discovery as they define a rigid three-dimensional space to increase specific interactions with protein binding sites. Herein, a spirocyclic center was introduced into the lead compound 1 to rigidify its flexible benzylaminoethyl side chain. The key step of the synthesis was the reaction of different α,β-unsaturated amides 6 and 13-16 with methyl acrylate in the presence of TBDMSOTf.