Acid-catalyzed carboxylic acid esterification and ester hydrolysis mechanism: acylium ion as a sharing active intermediate via a spontaneous trimolecular reaction based on density functional theory calculation and supported by electrospray ionization-mass spectrometry

Shi, Hongchang; Wang, Yilei; Hua, Ruimao

doi:10.1039/c5cp02914g

Cited by 47 publications

(25 citation statements)

References 27 publications

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“…Although incorporating acetyl groups is likely to improve the pharmacokinetic properties of the lead compounds, these groups are chemically labile, which makes their synthesis challenging. Acetyl groups are easily hydrolysed in both acidic and basic conditions 57 , 58 , and therefore standard peptide synthesis procedures needed to be modified in order to minimise acetyl hydrolysis during the synthesis of these molecules. During the synthesis of the LB51(Ac) 2 , the asparagine side chain was unprotected, which was also the case during the synthesis of LB63(Ac) 2 .…”

Section: Resultsmentioning

confidence: 99%

Delivering bioactive cyclic peptides that target Hsp90 as prodrugs

Huo

Buckton

Bennett

et al. 2019

Journal of Enzyme Inhibition and Medicinal Chemistry

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The most challenging issue facing peptide drug development is producing a molecule with optimal physical properties while maintaining target binding affinity. Masking peptides with protecting groups that can be removed inside the cell, produces a cell-permeable peptide, which theoretically can maintain its biological activity. Described are series of prodrugs masked using: (a) O -alkyl, (b) N -alkyl, and (c) acetyl groups, and their binding affinity for Hsp90. Alkyl moieties increased compound permeability, P app, from 3.3 to 5.6, however alkyls could not be removed by liver microsomes or in-vivo and their presence decreased target binding affinity (IC 50 of ≥10 µM). Thus, unlike small molecules, peptide masking groups cannot be predictably removed; their removal is related to the 3-D conformation. O-acetyl groups were cleaved but are labile, increasing challenges during synthesis. Utilising acetyl groups coupled with mono-methylated amines may decrease the polarity of a peptide, while maintaining binding affinity.

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Section: Resultsmentioning

confidence: 99%

Delivering bioactive cyclic peptides that target Hsp90 as prodrugs

Huo

Buckton

Bennett

et al. 2019

Journal of Enzyme Inhibition and Medicinal Chemistry

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“…They are favored at low desolvation voltage. The main bimolecular “in‐source” reactions encountered are addition‐elimination type reactions such as carboxylic acid esterification or ester hydrolysis, alkyl group exchanges allowing for instance amine alkylation, [2 + 2] and [2 + 4] cycloadditions, S N , S N Ar, or S E Ar reactions (as discussed above in the case of covalent adduct formation) as well as oxidation and reduction. For the latter cases, even though, H 2 and O 2 are not formal neutral gain or loss, they may be considered as such to simplify the resulting ion annotation because the mechanistic processes underlying the redox reactions are scarcely documented …”

Section: Illustrative Examples and Discussionmentioning

confidence: 99%

Proposal for a chemically consistent way to annotate ions arising from the analysis of reference compounds under ESI conditions: A prerequisite to proper mass spectral database constitution in metabolomics

et al. 2019

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Nowadays, high‐resolution mass spectrometry is widely used for metabolomic studies. Thanks to its high sensitivity, it enables the detection of a large range of metabolites. In metabolomics, the continuous quest for a metabolite identification as complete and accurate as possible has led during the last decade to an ever increasing development of public MS databases (including LC‐MS data) concomitantly with bioinformatic tool expansion. To facilitate the annotation process of MS profiles obtained from biological samples, but also to ease data sharing, exchange, and exploitation, the standardization and harmonization of the way to describe and annotate mass spectra seemed crucial to us. Indeed, under electrospray (ESI) conditions, a single metabolite does not produce a unique ion corresponding to its protonated or deprotonated form but could lead to a complex mixture of signals. These MS signals result from the existence of different natural isotopologues of the same compound and also to the potential formation of adduct ions, homomultimeric and heteromultimeric ions, fragment ions resulting from “prompt” in‐source dissociations. As a joint reflection process within the French Infrastructure for Metabolomics and Fluxomics (MetaboHUB) and with the purpose of developing a robust and exchangeable annotated MS database made from pure reference compounds (chemical standards) analysis, it appeared to us that giving the metabolomics community some clues to standardize and unambiguously annotate each MS feature was a prerequisite to data entry and further efficient querying of the mass spectral database. The use of a harmonized notation is also mandatory for interlaboratory MS data exchange. Additionally, thorough description of the variety of MS signals arising from the analysis of a unique metabolite might provide greater confidence on its annotation.

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“…The esterification reaction is characterized by the condensation of an alcohol with an acid in the presence of acid catalysts 1 or coupling reagents to produce the corresponding ester and water 2–5 . This reaction is widely used in manufacturing cosmetics, processed herbs and spices, paints, dyes, soaps, fragrances, and synthetic rubber.…”

Section: Figurementioning

confidence: 99%

Synthesis of Idebenonyl Ester Prodrugs and Their Evaluation of Cancer Cells In Vitro

Bae

Choi

Won

et al. 2021

Bulletin Korean Chem Soc

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Esterification of idebenone with commercially available straight‐chain aliphatic acids, branched‐chain aliphatic acids, aromatic acids, or nonsteroidal anti‐inflammatory drugs afforded their corresponding idebenonyl esters (5a–k) in good yield. The values of cell viability for RC‐58T cell at 50 μM were 86.3% for 5a, 75.9% for 5b, 23.4% for 5d, 61.2% for 5f, 67.9% for 5h, 70.6% for 5i, and 49.0% for 5j.

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Acid-catalyzed carboxylic acid esterification and ester hydrolysis mechanism: acylium ion as a sharing active intermediate via a spontaneous trimolecular reaction based on density functional theory calculation and supported by electrospray ionization-mass spectrometry

Cited by 47 publications

References 27 publications

Delivering bioactive cyclic peptides that target Hsp90 as prodrugs

Delivering bioactive cyclic peptides that target Hsp90 as prodrugs

Proposal for a chemically consistent way to annotate ions arising from the analysis of reference compounds under ESI conditions: A prerequisite to proper mass spectral database constitution in metabolomics

Synthesis of Idebenonyl Ester Prodrugs and Their Evaluation of Cancer Cells In Vitro

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