The neurokinins are indisputably essential neurotransmitters in numerous patho- and physiological events. Being widely distributed in the central nervous system (CNS) and peripheral tissues, their discovery rapidly promoted them to… Click to show full abstract
The neurokinins are indisputably essential neurotransmitters in numerous patho- and physiological events. Being widely distributed in the central nervous system (CNS) and peripheral tissues, their discovery rapidly promoted them to drugs targets. A necessity for molecular tools to understand the biological role of this class endogenous peptides and their receptors prompted the scientific community to design ligands displaying either agonist and antagonist activity at the three main neurokinin receptors, called NK1, NK2 and NK3. Several strategies were implemented for this purpose. With a preference for small non-peptidic ligands, many research groups invested efforts in synthesizing and evaluating a wide range of scaffolds, but only the NK1 antagonist Aprepitant (EMENDT) and its prodrug Fosaprepitant (IVEMENDT) have been approved by the Food Drug Administration (FDA) for the treatment of Chemotherapy-Induced and Post-Operative Nausea and Vomiting (CINV and PONV, respectively). While non-peptidic drugs showed limitations, especially in side effect control, peptidic and pseudopeptidic compounds progressively regained attention. Various strategies were implemented to modulate affinity, selectivity and activity of the newly designed ligands. Replacement of canonical amino acids, incorporation of conformational constraints, and fusion with non-peptidic moieties gave rise to families of ligands displaying individual or dual NK1, NK2 and NK3 antagonism, that ultimately was combined with non-neurokinin ligands (such as opioids) to target enhanced biological impact.
               
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