Estudo da síntese convergente de peptídeos em fase sólida: abordagem clássica e uso de temperatura alta / Study of the convergent solid phase peptide synthesis: classical approach and use of high temperature

AUTOR(ES)
DATA DE PUBLICAÇÃO

2003

RESUMO

Stepwise solid-phase peptide synthesis (SSPPS) has been applied successfully for the preparation of most peptides containing up to 30 residues. However, it presents problems and limitations. Convergent soIid-phase peptide synthesis (CSPPS) can overcome part of them. This methodology is based on the synthesis of peptide segments by SSPPS followed by their condensations: the Nα- acylated protected segments act as acyl donors and the protected segments bound to the resin as acyl receptors. When the sequence is completed this is detached from the resin and fully deprotected to give the crude peptide. Besides developing other projectsfocused on peptide synthesis itself or on the use of synthetics to study biologically active peptides or proteins, we have systematically examined solid-phase peptide synthesis at elevated temperature. The aim of the present work was to investigate different aspects of convergent solid-phase peptide synthesis and examine the possibility to improve it at 60°C. Thus, unsulfated human cholecystokinin-33 and [Gln1]-gomesin were divided in three and two fragments, respectively. In the first case, the acyl donors were built-up by SSPPS on Kaiser oxime resin while in the second peptide elongation was done on 2-CI-Trt resin. The acyl receptor was synthesized and kept on the MBHA resin. The synthetic process was evaluated through characterization of every peptidyl-resin by amino acid analysis and of each crude peptide obtained from resin cleavage/full deprotection by RP-HPLC and LC/ESI-MS. The swelling degrees of the peptidyl-resins were determined in various solvents or mixtures of high boiling points. The peptidyl-KOR and peptidyl-2-CI-Trt were then submitted to peptide detachment under a few experimental conditions in order to release the Nα-acyl protected peptides (the acyl donors). Finally, their couplings with the acyl receptors were carried-out at 37 and 60°C in solvents or mixtures suitable for peptidyl-resin solvation containing specific coupling agents. The resulting peptidyl-resins were isolated, dried and submitted to HF treatment to release the corresponding unprotected crude peptides, which were analysed by RP-HPLC and LC/ESI-MS. The results found indicated that: 1) the knowledge of the swelling properties of the peptidyl-resins in different solvents systems is very useful in SCPFS. Indeed, it may guide the selection of experimental conditions to be used in peptide detachment from KOR and 2-CI-Trt and in segment condensation at elevated temperature, 2) peptide detachment from KOR is not as trivial as described (it was impossible to release hCCK-33 fragment 6-19 in its protected form). Further studies are certainly required to improve it. It seems that the size and the sequence are strictly related to the process efficiency, 3) high temperature can improve it, 4) peptide detachment from 2-CI-Trt is as simple as described, 5) combination of DMF as solvent, TBTU as coupling agent and 60°C was suited for the segment couplings studied: the reactions were completed in relatively short times and crude peptides of good quality were obtained, 6) this is the first attempt to carry-out CSPFS at elevated temperature, thus its advantages and disadvantages must be studied, 7) CSPPS also presents problems and limitations to overcome. Such task requires further investigation using various resins and peptide sequences.

ASSUNTO(S)

síntese convergente peptídeos (estudo) solid phase peptide synthesis unsulfated cholecystokinin-33 temperatura alta peptídeo (síntese) colecistocinina-33 não sulfatada síntese de peptídeo s em fase sólida gomesin high temperature convergent synthesis peptide gomesina

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