SummaryThe demand for modified peptides with improved stability profiles and pharmacokinetic properties is driving extensive research effort in this field. Many structural modifications of peptides guided by rational design and molecular modeling have been established to develop novel synthetic approaches. Recent advances in the synthesis of conformationally restricted building blocks and peptide bond isosteres are discussed.
Peptide targets for synthesis are often desired with C-terminal end groups other than the more usual acid and amide functionalities. Relatively few routes exist for synthesis of C-terminal-modified peptidesincluding cyclic peptidesby either solution or solid-phase methods, and known routes are often limited in terms of ease and generality. We describe here a novel Backbone Amide Linker (BAL) approach, whereby the growing peptide is anchored through a backbone nitrogen, thus allowing considerable flexibility in management of the termini. Initial efforts on BAL have adapted the chemistry of the tris(alkoxy)benzylamide system exploited previously with PAL anchors. Aldehyde precursors to PAL, e.g. 5-(4-formyl-3,5-dimethoxyphenoxy)valeric acid, were reductively coupled to the α-amine of the prospective C-terminal amino acid, which was blocked as a tert-butyl, allyl, or methyl ester, or to the appropriately protected C-terminal-modified amino acid derivative. These reductive aminations were carried out either in solution or on the solid phase, and occurred without racemization. The secondary amine intermediates resulting from solution amination were converted to the 9-fluorenylmethoxycarbonyl (Fmoc)-protected preformed handle derivatives, which were then attached to poly(ethylene glycol)−polystyrene (PEG-PS) graft or copoly(styrene−1% divinylbenzene) (PS) supports and used to assemble peptides by standard Fmoc solid-phase chemistry. Alternatively, BAL anchors formed by on-resin reductive amination were applied directly. Conditions were optimized to achieve near-quantitative acylation at the difficult step to introduce the penultimate residue, and a side reaction involving diketopiperazine formation under some circumstances was prevented by a modified protocol for Nα-protection of the second residue/introduction of the third residue. Examples are provided for the syntheses in high yields and purities of representative peptide acids, alcohols, N,N-dialkylamides, aldehydes, esters, and head-to-tail cyclic peptides. These methodologies avoid postsynthetic solution-phase transformations and are ripe for further extension.
Injury-induced sensitization of nociceptors contributes to pain states and the development of chronic pain. Inhibiting activity-dependent mRNA translation through mechanistic target of rapamycin and mitogen-activated protein kinase (MAPK) pathways blocks the development of nociceptor sensitization. These pathways convergently signal to the eukaryotic translation initiation factor (eIF) 4F complex to regulate the sensitization of nociceptors, but the details of this process are ill defined. Here we investigated the hypothesis that phosphorylation of the 5Ј cap-binding protein eIF4E by its specific kinase MAPK interacting kinases (MNKs) 1/2 is a key factor in nociceptor sensitization and the development of chronic pain. Phosphorylation of ser209 on eIF4E regulates the translation of a subset of mRNAs. We show that pronociceptive and inflammatory factors, such as nerve growth factor (NGF), interleukin-6 (IL-6), and carrageenan, produce decreased mechanical and thermal hypersensitivity, decreased affective pain behaviors, and strongly reduced hyperalgesic priming in mice lacking eIF4E phosphorylation (eIF4E S209A ). Tests were done in both sexes, and no sex differences were found. Moreover, in patch-clamp electrophysiology and Ca 2ϩ imaging experiments on dorsal root ganglion neurons, NGF-and IL-6-induced increases in excitability were attenuated in neurons from eIF4E S209A mice. These effects were recapitulated in Mnk1/2 Ϫ/Ϫ mice and with the MNK1/2 inhibitor cercosporamide. We also find that cold hypersensitivity induced by peripheral nerve injury is reduced in eIF4E S209A and Mnk1/2 Ϫ/Ϫ mice and following cercosporamide treatment. Our findings demonstrate that the MNK1/2-eIF4E signaling axis is an important contributing factor to mechanisms of nociceptor plasticity and the development of chronic pain.
Dedicated to (he l1IeJlun:r of Dr Karel 8M/Ill, The course and the end point or the acylation of resin-bound amino groups in solid-phase peptide synthesis WHS monitored by a novel noninvasivequalitative and quantitative test bused on the use of the acid-base indicator bromophenol blue.
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