Sources for Leads: Natural Products and Libraries.

Natural products have traditionally been a major source of leads in the drug discovery process. However, the development of high-throughput screening led to an increased interest in synthetic methods that enabled the rapid construction of large libraries of molecules. This resulted in the termination or downscaling of many natural product research programs, but the chemical libraries did not necessarily produce a larger amount of drug leads. On one hand, this chapter explores the current state of natural product research within the drug discovery process. On the other hand it evaluates the efforts made to increase the amount of leads generated from chemical libraries and considers what role natural products could play here.

Synthesis of nisin AB dicarba analogs using ring-closing metathesis: influence of sp(3) versus sp(2) hybridization of the α-carbon atom of residues dehydrobutyrine-2 and dehydroalanine-5 on the lipid II binding affinity.

Herein the synthesis of two nisin AB dicarba analogs is described, focusing on amino acid modifications at positions 2 and 5. The nisin mimics were synthesized by a combination of solid phase synthesis of the linear peptides, followed by macrocyclization via ring-closing metathesis and fragment assembly by means of solution phase chemistry. The two N-terminal nisin AB-fragment mimics contain either the native dehydrobutyrine (Dhb)/dehydroalanine (Dha) amino acid residues or alanine at position 2 and 5, respectively. The native dehydrobutyrine at position 2 and dehydroalanine at position 5 were introduced as their precursors, namely threonine and serine, respectively, and subsequent dehydration was carried out by EDCI/CuCl as the condensing agent. Both AB-fragment mimics were analyzed in a lipid II binding assay and it was found that the Ala2/Ala5 AB-mimic (2) showed a reduced activity, while the Dhb2/Dha5 AB-mimic (3) was as active as the native AB-fragment (1).

The Supersized Class III Lanthipeptide Stackepeptin Displays Motif Multiplication in the Core Peptide.

Lanthipeptides are ribosomally synthesized and post-translationally modified peptides bearing the characteristic amino acids lanthionine and/or labionin. Here, we report on the discovery and characterization of the stackepeptins, produced by the Actinomycete Stackebrandtia nassauensis DSM-44728(T). The stackepeptins are the first supersized class III lanthipeptides to be discovered. Unlike other class III lanthipeptides, they consist of three lanthionine/labionin moieties instead of two. In this study, both in vivo and in vitro maturation of the peptides have been investigated. Studies involving the wild type strain showed culture medium-dependent production of three stackepeptins consisting of one common N-terminal labionin ring and varying dehydration and cyclization patterns in the C-terminal rings. On the other hand, in vitro assessment of the heterologously expressed modifying enzyme StaKC, yielded one major product with an N-terminal lanthionine and C-terminal labionins. The discrepancy between in vivo and in vitro processing was discovered to be sequence-dependent and also implies that in vivo processing is facilitated by additional factors in the cell. Furthermore, a Ser → Ala scan revealed the importance of C-terminal ring formation for full in vitro maturation of the stackepeptins. StaKC showed promiscuity toward the phosphorylating cosubstrate with a significant preference for purine nucleotides. Finally, in contrast to other known class III lanthipeptides, in vitro experiments showed that the leader peptide might not be required for partial dehydration by the modifying enzyme.