Abstract
The regioselective functionalisation of the cyclodextrin matrix provides the possibility of purposefully altering the ability of cyclodextrins to form inclusion compounds, as well as to ensure their solubility, thus expanding the scope of their practical application [1, 2]. The most significant and promising trend in the selective modification of β-cyclodextrins consists in the preparation of tosyl derivatives, given that the substitution of such nucleophilic reagents as iodide, azide, thioacetate, hydroxylamine, alkylamide or polyalkylamide for the tosyl group results in the corresponding monosubstituted derivatives. In this study, we impl emented a method for the synthesis of mono-6-O-(p-toluenesulphonyl)-β-cyclodextrin, which was improved by β-cyclodextrin reacting with tosyl chloride in an aqueous medium in the presence of a base. The reaction of β-cyclodextrin with tosyl chloride in an aqueous alkaline medium produced a 58% yield of mono -6- O-(p-toluenesulphonyl)-β-cyclodextrin not requiring additional purification. The optimal concentrations of β-cyclodextrin and tosyl chloride were found to be 0.0032 mol/l and 0.0015 mol/l, respectively. It was shown that a decrease in the rate of filtering the unreacted tosyl chloride out of the reaction mixture is acc ompanied by an increase in the proportion of ditosyl derivatives and mono(3,6-anhydro)-β-cyclodextrin resulting from the intramolecular cyclisation of mono-6-O-(p-toluenesulphonyl)-β-cyclodextrin at room temperature under alkaline conditions. The structure of the obtained mono-6-O-(p-toluenesulphonyl)-β-cyclodextrin was confirmed using Proton NMR Spectroscopy. The proton NMR spectrum of the product resulting from the reaction of β-cyclodextrin with tosyl chloride contains signals corresponding to a tosyl radical: a singlet (2.42 ppm) and two doublets (7.41–7.43 ppm) produced by hydrogens of the benzene ring having radicals in the para position. Monosubstitution was confirmed by comparing the integrated intensities of signals produced by the protons of the cyclodextrin skeleton and the protons from the aromatic part of the reaction product. Their ratio indicated that only one of the seven primary hydroxyl groups of β-cyclodextrin was substituted.
Highlights
Cyclodextrins are cyclic oligosaccharides built from D-glucopyranose units joined by α-1,4 glycosidic bonds
According to the basic procedure, the synthesis of mono-6-O-(p-toluenesulphonyl)-β-cyclodextrin is achieved by 10 g of β-CD (8 mmol) reacting with 7 g of tosyl chloride (37 mmol, 4.5 equiv.) in the presence of 1.6 g NaOH (40 mmol) in 100 ml of water at a temperature no higher than 0–2 °С for 30 min and the subsequent prompt filtering out of the unreacted p-toluenesulphonyl chloride
It should be noted that the obtained mono-6-O(p-toluenesulphonyl)-β-cyclodextrin is characterised by high purity, so it can be used without additional purification
Summary
Cyclodextrins are cyclic oligosaccharides built from D-glucopyranose units joined by α-1,4 glycosidic bonds. The reaction of β-CD with tosyl chloride under aqueous alkaline conditions produces an 11–43% yield of mono-6-O-(p-toluenesulphonyl)-β-cyclodextrin [15,16,17]. While an indisputable advantage of this method consists in the regioselectivity of tosylation (functionalisation of only primary hydroxyl groups), its main disadvantages include excessive use of p-toluenesulphonyl chloride (up to 8 equiv), the necessity of freezing a large volume of the aqueous phase in order to isolate the target product and the problem of managing copper-containing waste. After completing a similar procedure, the total mono-6-deoxy(p-toluenesulphonyl)]-β-cyclodextrin amounted to 1.66 g (a yield of 15%) The characteristics of this NMR spectrum are completely identical to those mentioned above. Following the completion of a similar procedure, the total mono-6-O-(p-toluenesulphonyl)-β-cyclodextrin amounted to 5.98 g (a yield of 58%) The characteristics of this NMR spectrum are completely identical to the ones mentioned above
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