RESUMO
Peptides of importance to both academia and industry are mostly synthesized in the solid-phase mode using a two-dimensional scheme. The so-called Fmoc/tBu strategy, where the groups are removed by piperidine and TFA, respectively, is currently the method of choice for peptide synthesis. However, as the molecular diversity of cyclic and branched peptides becomes a challenging interest, a high level of orthogonal dimensionality is required, such as through triorthogonal protection schemes. Here we present a fourth category of orthogonal protecting groups that are stable under cleavage conditions, including the TFA treatment that removes the tBu-based groups. At the end of the synthetic process and upon some chemical manipulation, the groups in this fourth category were removed with TFA. This new concept of protecting groups could facilitate the synthesis and manipulation of difficult peptides.
Assuntos
Peptídeos , Técnicas de Síntese em Fase Sólida , Peptídeos/química , Técnicas de Síntese em Fase Sólida/métodosRESUMO
Enzyme-labile protecting groups have emerged as a green alternative to conventional protecting groups. These groups introduce a further orthogonal dimension and eco-friendliness into protection schemes for the synthesis of complex polyfunctional organic molecules. S-Phacm, a Cys-protecting group, can be easily removed by the action of a covalently immobilized PGA enzyme under very mild conditions. Herein, the versatility and reliability of an eco-friendly combination of the immobilized PGA enzyme and the S-Phacm protecting group has been evaluated for the synthesis of diverse Cys-containing peptides.
Assuntos
Cisteína/química , Enzimas Imobilizadas/química , Enzimas Imobilizadas/síntese química , Escherichia coli/química , Penicilina Amidase/química , Peptídeos/química , Peptídeos/síntese química , Química Verde , Estrutura MolecularRESUMO
The solid-phase peptide synthesis (SPPS) of the C-terminal sequence of hGH with one extra Tyr attached to its N-terminus (total of 16 residues with a disulfide bridge) has been accomplished for the first time by optimizing several synthetic parameters. First of all, the two Ser residues (positions 9 and 13 of the molecule) have been introduced as a single amino acid, Fmoc-Ser(ψMe,Mepro)-OH, demonstrating that the acylation of these hindered moieties is possible. This allows us to avoid the use of the corresponding dipeptides, Fmoc-AA-Ser(ψMe,Mepro)-OH, which are very often not commercially available or very costly. The second part of the sequence has been elongated via a double coupling approach using two of the most effective coupling methods (DIC-OxymaPure and HATU-DIEA). Finally, the disulfide bridging has been carried out very smoothly by a chemoselective thiol-disulfide interchange reaction between a SIT (sec-isoamyl mercaptan)-protected Cys residue and the free thiol of the second Cys. The synthesis of this short peptide has evidenced that SPPS is a multifactorial process which should be optimized in each case.
RESUMO
An easy and efficient solid-phase synthesis strategy to obtain rapidly water-soluble chromophores/fluorophores in highly pure form has been developed. This first successful use of N-Fmoc-α-sulfo-ß-alanine as a SPPS building block opens the way to the future development of promising direct "on-resin" peptide labelling and water-solubilising methods.
Assuntos
Ácido Cisteico/análogos & derivados , Corantes Fluorescentes/química , Água/química , Técnicas de Química Analítica/métodos , Ácido Cisteico/química , Estrutura Molecular , SolubilidadeRESUMO
Peptides are key to modern drug discovery. This article reviews the requirements for bulk production of peptides and how it affects research and production of smaller scales. Peptides, as modern drugs, are currently produced in millions in mg-scale for research purpose, in order to better understand the function of biological systems. Some newly discovered sequences form the basis of modern drugs and are now produced in multi-tons. The most popular example is the T-20 peptide (Fuzeon), which is the first peptide produced at such scale by a combination of solid phase and solution phase methodologies. This particular peptide sequence has the ability to dock on the surface of the HIV virus and block the virus from entering into a human blood cell, helping patient life conditions. A multi-ton scale production was made necessary based on the high number of patients, the socio-economical importance of the disease and the strong support by governmental institutions such as the FDA. Fuzeon is the first peptide-based drug that is produced in multi-tons on solid support. This had revolutionary effects on the whole peptide synthesis techniques in general including the production of the starting materials. It also had a positive impact on the cost-effectiveness of peptides for research, as the standard technique for producing peptides in research quantities is solid phase chemistry. The decrease of the cost of all starting materials will lead to an increase of the number of produced peptides, which will certainly bring new interesting and effective sequences to be used as novel drugs.