Disulfide Formation Strategies in Peptide Synthesis

Postma, Tobias M.; Alberício, Fernando

doi:10.1002/ejoc.201402149

Cited by 94 publications

(80 citation statements)

References 93 publications

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“…The ESI‐MS of this fraction was identical to that observed for CIGB‐300, and no other modified species was found (data not shown). As yet, we have not determined the chemical nature of this isomer, but it has been reported that peptides containing cysteine are racemized during coupling by base‐catalysis . We therefore concluded that isomeric species of CIGB‐300 may be eluting in this fraction.…”

Section: Resultsmentioning

confidence: 84%

Characterization of low‐abundance species in the active pharmaceutical ingredient of CIGB‐300: A clinical‐grade anticancer synthetic peptide

Garay

Espinosa

Perera

et al. 2018

Journal of Peptide Science

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CIGB-300 is a first-in-class synthetic peptide-based drug of 25 amino acids currently undergoing clinical trials in cancer patients. It contains an amidated disulfide cyclic undecapeptide fused to the TAT cell-penetrating peptide through a beta-alanine spacer. CIGB-300 inhibits the CK2-mediated phosphorylation leading to apoptosis of tumor cells in vitro, and in vivo in cancer patients. Despite the clinical development of CIGB-300, the characterization of peptide-related impurities present in the active pharmaceutical ingredient has not been reported earlier. In the decision tree of ICHQ3A(R2) guidelines, the daily doses intake, the abundance, and the identity of the peptide-related species are pivotal nodes that define actions to be taken (reporting, identification, and qualification). For this, purity was first assessed by reverse-phase chromatography (>97%) and low-abundance impurities (≤0.27%) were collected and identified by mass spectrometry. Most of the impurities were generated during peptide synthesis, the spontaneous air oxidation of the reduced peptide, and the lyophilization step. The most abundant impurity, with no biological activity, was the full-length peptide containing Met transformed into a sulfoxide residue. Interestingly, parallel and antiparallel dimers of CIGB-300 linked by 2 intermolecular disulfide bonds exhibited a higher antiproliferative activity than the CIGB-300 monomer. Likewise, very low abundance trimers and tetramers of CIGB-300 linked by disulfide bonds (≤0.01%) were also detected. Here we describe for the first time the presence of active dimeric species whose feasibility as novel CIGB-300 derived entities merits further investigation.

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Section: Resultsmentioning

confidence: 84%

Characterization of low‐abundance species in the active pharmaceutical ingredient of CIGB‐300: A clinical‐grade anticancer synthetic peptide

Garay

Espinosa

Perera

et al. 2018

Journal of Peptide Science

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“…In nature, cysteine (Cys) is crucial due to its capacity to confer stability to peptides and proteins, but also constrain the specific conformation of these biomolecules through disulfide bonds [2,3]. In addition, its use has modernized the chemical synthesis of large polypeptides and proteins by Native Chemical Ligation [4].…”

Section: Cysteinementioning

confidence: 99%

Trends to Acid-Labile Cys Protecting Groups: Thp as an Efficient and Non-Aromatic Cys Protecting Group for Fmoc Chemistry

Ramos-Tomillero¹,

Rodríguez²,

Alberício³

2015

Peptides 2015, Proceedings of the 24th American Peptide Symposium

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“…11 Much effort has been devoted to the development of new cysteine protecting groups with the goal of improving the available toolbox for folding disulfide-rich polypeptides. 12 Although some of these groups can be removed while the peptide is on resin and in the presence of related protecting groups, several have practical limitations preventing their widespread use. For example, known photolabile groups are incompatible with piperidine, 13a and reductive removal of protecting groups can interfere with existing disulfide linkages, and sometimes cannot be removed at all.…”

Section: Introductionmentioning

confidence: 99%

“…A traditional approach to access disulfides on solid support ( 5 ) involves treatment with excess iodine, usually for peptides bearing trityl (Trt), acetamidomethyl (Acm), or 4-methoxytrityl (Mmt) protected cysteines ( 4a ). 15,12a This is a convenient method that cannot always be employed because of issues with oxidation of sensitive amino acids (Met/Trp) or undesired cleavage from the popular TGT and CTC resins. 16 On-resin oxidation of free thiols can be conducted using N -chlorosuccinimide 17 or acidic DMSO ( 4b , HX= HCl or HOAc).…”

Section: Introductionmentioning

confidence: 99%

“…16 On-resin oxidation of free thiols can be conducted using N -chlorosuccinimide 17 or acidic DMSO ( 4b , HX= HCl or HOAc). 12b A variety of protecting groups ( 4c ) can be cleaved by Tl(tfa) 3 to directly yield the disulfide containing product. This approach is not orthogonal to other cysteine protecting groups or acid-labile side chain protecting groups, and it will also induce cleavage from TGT and CTC resins.…”

Section: Introductionmentioning

confidence: 99%

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Direct palladium-mediated on-resin disulfide formation from Allocam protected peptides

et al. 2017

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The synthesis of disulfide-containing polypeptides represents a long-standing challenge in peptide chemistry, and broadly applicable methods for the construction of disulfides are in constant demand. Few strategies exist for on-resin formation of disulfides directly from their protected counterparts. We present herein a novel strategy for the on-resin construction of disulfides directly from Allocam-protected cysteines. Our palladium-mediated approach is mild and uses readily available reagents, requiring no special equipment. No reduced peptide intermediates or S-allylated products are observed, and no residual palladium can be detected in the final products. The utility of this method is demonstrated through the synthesis of the C-carboxy analog of oxytocin.

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Disulfide Formation Strategies in Peptide Synthesis

Cited by 94 publications

References 93 publications

Characterization of low‐abundance species in the active pharmaceutical ingredient of CIGB‐300: A clinical‐grade anticancer synthetic peptide

Characterization of low‐abundance species in the active pharmaceutical ingredient of CIGB‐300: A clinical‐grade anticancer synthetic peptide

Trends to Acid-Labile Cys Protecting Groups: Thp as an Efficient and Non-Aromatic Cys Protecting Group for Fmoc Chemistry

Direct palladium-mediated on-resin disulfide formation from Allocam protected peptides

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