Structure–efficiency relationships of cyclodextrin scavengers in the hydrolytic degradation of organophosphorus compounds

• Sophie Letort,
• Michaël Bosco,
• Benedetta Cornelio,
• Frédérique Brégier,
• Sébastien Daulon,
• Géraldine Gouhier and
• François Estour

Beilstein J. Org. Chem. 2017, 13, 417–427, doi:10.3762/bjoc.13.45

• , France 10.3762/bjoc.13.45 Abstract New derivatives of cyclodextrins were prepared in order to determine the relative importance of the structural key elements involved in the degradation of organophosphorus nerve agents. To avoid a competitive inclusion between the organophosphorus substrate and the

• of the agents. The degradation efficiency was found to be dependent on the relative position of the heterocycle towards the reactive group as well as on the nature of the organophosphorus derivative. Keywords: cyclodextrin; decontamination; enzyme mimic; nerve agents; organophosphorus pesticides

• current geopolitical situation and the increasing number of terrorist attacks worldwide, more efficient means against nerve agents are required [12]. Four steps have to be considered to reach this objective: detection, individual and collective protection, decontamination, and medical countermeasures

Interactions of cyclodextrins and their derivatives with toxic organophosphorus compounds

• Sophie Letort,
• Sébastien Balieu,
• William Erb,
• Géraldine Gouhier and
• François Estour

Beilstein J. Org. Chem. 2016, 12, 204–228, doi:10.3762/bjoc.12.23

• on the current use of cyclodextrins against organophosphorus compound intoxications. Organophosphorus pesticides and nerve agents play a determinant role in the inhibition of cholinesterases. The cyclic structure of cyclodextrins and their toroidal shape are perfectly suitable to design new chemical

• scavengers able to trap and hydrolyze the organophosphorus compounds before they reach their biological target. Keywords: cyclodextrin; enzyme mimic; nerve agents; organophosphorus compounds; pesticides; Introduction Due to their biological activities, organophosphorus compounds have had considerable

• against the pests or in the military. While the administration of organophosphorus drugs is carefully controlled, improper use of pesticides and chemical warfare agents, the so called “nerve agents”, can cause fatal poisonings through cholinesterase inhibition in tissues and brain [20]. Neurotoxic

Conformational equilibrium in supramolecular chemistry: Dibutyltriuret case

• Karina Mroczyńska,
• Małgorzata Kaczorowska,
• Erkki Kolehmainen,
• Ireneusz Grubecki,
• Marek Pietrzak and
• Borys Ośmiałowski

Beilstein J. Org. Chem. 2015, 11, 2105–2116, doi:10.3762/bjoc.11.227

• studied by MS [44] while its interaction preferences with anions in solution are not known. On the other hand the tris-urea derivatives with a spacer between NHCONH groups were used in several supramolecular complexes including those with encapsulated anions [45][46], sensing nerve agents [47] or in self

Highly efficient cyclosarin degradation mediated by a β-cyclodextrin derivative containing an oxime-derived substituent

• Michael Zengerle,
• Florian Brandhuber,
• Christian Schneider,
• Franz Worek,
• Georg Reiter and
• Stefan Kubik

Beilstein J. Org. Chem. 2011, 7, 1543–1554, doi:10.3762/bjoc.7.182

• substituents represents a promising approach for the development of scavengers able to detoxify highly toxic nerve agents. Keywords: acetylcholinesterase; cyclodextrins; cyclosarin; neurotoxic organophosphonates; oximes; Introduction Cyclodextrins, cyclic oligosaccharides composed of α-1,4-linked D-glucose