AbstractÐStereochemically constrained amino acid residues that strongly favour speci®c backbone conformations may be used to nucleate and stabilize speci®c secondary structures in designed peptides. An overview of the use of aa-dialkyl amino acids in stabilizing helical structures in synthetic peptides is presented, with an emphasis on work carried out in the authors laboratory. a-Aminoisobutyric acid (Aib) and related achiral homologs facilitate stable helix formation in oligopeptides as exempli®ed by a large number of crystal structure determinations in the solid state. The ability to design conformationally rigid helical modules has been exploited in attempts to design structurally well characterized helix-linker±helix, using potential nonhelical linking segments. bHairpin design has been approached by exploiting the tendency of`prime turns' to nucleate hairpin formation. The use of nucleating D Pro-Gly segments has resulted in the generation of several well characterized b-hairpin structures, including the crystallographic observation of b-hairpin in a synthetic apolar octapeptide. Extensions of this approach to three stranded b-sheets and larger structures containing multiple D Pro-Gly segments appear readily possible.
Inhibition
of O-GlcNAcase (OGA) has emerged as a promising therapeutic approach
to treat tau pathology in neurodegenerative diseases such as Alzheimer’s
disease and progressive supranuclear palsy. Beginning with carbohydrate-based
lead molecules, we pursued an optimization strategy of reducing polar
surface area to align the desired drug-like properties of potency,
selectivity, high central nervous system (CNS) exposure, metabolic
stability, favorable pharmacokinetics, and robust in vivo pharmacodynamic
response. Herein, we describe the medicinal chemistry and pharmacological
studies that led to the identification of (3aR,5S,6S,7R,7aR)-5-(difluoromethyl)-2-(ethylamino)-3a,6,7,7a-tetrahydro-5H-pyrano[3,2-d]thiazole-6,7-diol 42 (MK-8719), a highly potent and selective OGA inhibitor
with excellent CNS penetration that has been advanced to first-in-human
phase I clinical trials.
To probe the conformational requirements of loop 1 in the Pin1 WW domain, the residues at the i + 2 and i + 3 positions of a beta-turn within this loop were replaced by dPro-Gly and Asn-Gly, which are known to prefer the conformations required at the i + 1 and i + 2 positions of type II' and type I' beta-turns. Conformational specificity or lack thereof was further examined by incorporating into the i + 2 and i + 3 positions a non-alpha-amino acid-based beta-turn mimetic (4-(2'-aminoethyl)-6-dibenzofuran propionic acid residue, 1), which was designed to replace the i + 1 and i + 2 positions of beta-turns. All these Pin WW variants are monomeric and folded as discerned by analytical ultracentrifugation, NMR, and CD. They exhibit cooperative two-state transitions and display thermodynamic stability within 0.5 kcal/mol of the wild-type WW domain, demonstrating that the acquisition of native structure and stability does not require a specific sequence and, by extension, conformation within loop 1. However, it could be that these loop 1 mutations alter the kinetics of antiparallel beta-sheet folding, which will be addressed by subsequent kinetic studies.
[structures: see text] A systematic study was performed to establish general synthesis protocols for forming enantiomerically pure macrocyclic dipeptide lactams. Focusing on macrocycles of 8-, 9-, and 10-membered rings, effective syntheses were achieved by a sequence featuring peptide coupling of allyl- and homoallyl-glycine building blocks followed by ring-closing metathesis. The 8-membered lactam-possessing cis-amide and cis-olefin geometry as well as 9-membered [corrected] lactams having trans-amide and cis-olefin [corrected] configurations were effectively prepared by a general strategy employing the respective protected dipeptide, the first generation Grubbs' catalyst, and temporary protection of the central amide as a benzyl derivative. The 10-membered macrocycle was synthesized possessing cis- or trans-olefin geometry by employing similar metathesis conditions in the presence or absence of temporary benzyl amide protection, respectively [corrected]
Chemoselective hydrolysis of tert-butyl esters in the presence of other acid-labile groups has been explored by employing alpha-amino esters and ZnBr(2) in DCM. Although N-Boc and N-trityl groups were found to be labile, PhF protected amines were compatible with these Lewis acid deprotection conditions such that a variety of N-(PhF)amino acids were prepared in good yields from their corresponding tert-butyl esters.
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