RU2559367C2 - Method of producing (1,5,3-dithiazepan-3-yl)-alkanediols - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a method of producing (1,5,3-dithiazepan-3-yl)-alkanediols. The method includes reacting bis(methoxymethyl)aminoalkanediol (bis(methoxymethyl)-2-aminopropane-1,3-diol; bis(methoxymethyl)-2-amino-2-methylpropane-1,3-diol; bis(methoxymethyl)-3-aminopropane-1,2-diol) with 1,2-ethanedithiol in the presence of a SmCl₃·6H₂O catalyst in the medium of methanol-chloroform solvents at room temperature for 2.5-3.5 hours. Output of (1,5,3-dithiazepan-3-yl)-alkanediols (1) is 50-63%.

EFFECT: compounds can be used as antimicrobial, antifungal and anti-inflammatory agents, as well selective complexing agents and biocides.

1 tbl, 1 ex

Description

The present invention relates to the field of organic chemistry, in particular to a method for producing (1,5,3-dithiazepan-3-yl) -alkanediols of the general formula (1):

,

,

;

;

where R =

;

;

S, N-containing heterocycles are known as antimicrobials (Bialy Serry A.A., Abdelal A.M., El-Shorbagi A., Kheira Samy M.M. Archiv der Pharmazie, 2005, 338, 1, 38-43), antifungal agents (Akhmetova VR, Niatshina ZT, Burakaeva AD, Galimzyanova NF, Kunakova RV Russian Journal of Applied Chemistry, 2011, 84, 3, 416-419) and anti-inflammatory agents (Akhmetova VR, Khairullina RR, Parfenova TI, Sufiyarova R.Sh. , Bashkatov SA, Kunakova RV Pharmaceutical Chemistry Journal, 2011, 44, 10, 534-535). They find application as selective complexing agents (Akhmetova VR, Rakhimova E.V., Vagapov RA, Minnebaev AB, Korylova EV, Buslaeva TM, Kunakova RV Trends in Heterocyclic Chemistry, 2011, Vol.15, No. 9, P.33- 41; Galves-Ruiz JC, Noth H., Flores-Parra A. Organometallic aluminum compounds derived from 2- (1,3,5-dithiazinan-5-yl) ethanol ligands. Inorg. Chem., 2003, 42, 7569- 7578) and biocides (Dzhemilev U.M., Aleev R.S., Dalnova Yu.S., Kunakova R.V., Khafizova S.R. Means for inhibiting the growth of sulfate-reducing bacteria. Pat. RF No. 2206726, 2003).

A known method (E.B. Rakhimova, I.V. Vasiliev, L.M. Khalilov, A.G. Ibragimov, U.M. Dzhemilev. CGS. 2012, 7, 1132) to obtain 2- and 4- (1, 5,3-dithiazepan-3-yl) phenols (2) by catalytic transamination of N-tert-butyl-1,5,3-dithiazepane or by recycling 1-oxa-3,6-dithiacycloheptane with o- and n-aminophenols under the action of Sm (NO ₃ ) ₃ · 6H ₂ O:

(1,5,3-Dithiazepan-3-yl) -alkanediols of the general formula (1) cannot be obtained in a known manner.

A known method (NN Makhmudiyarova, K.I. Prokofiev, L.V. Mudarisova, A.G. Ibragimov, U.M. 3-dithiazepanes (3) by reaction of N, N-bis (methoxymethyl) hetarylamines with 1,2-ethanedithiol under the influence of a CuCl ₂ catalyst:

(1,5,3-Dithiazepan-3-yl) -alkanediols of the general formula (1) cannot be obtained in a known manner.

Thus, in the literature there is no information on the production of (1,5,3-dithiazepan-3-yl) -alkanediols of the general formula (1).

A new method is proposed for the preparation of (1,5,3-dithiazepan-3-yl) alkanediols of the general formula (1).

The essence of the method consists in the interaction of bis (methoxymethyl) aminoalkanediols (bis (methoxymethyl) aminoalkanediols obtained in situ by a known method (RF Borch, AI Hassid, J. Org. Chem., 1972, 37, 1673)) (bis (methoxymethyl) -2 -aminopropane-1,3-diol; bis (methoxymethyl) -2-amino-2-methylpropane-1,3-diol; bis (methoxymethyl) -3-aminopropane-1,2-diol) with 1,2-ethanedithiol in the presence of a SmCl ₃ · 6H ₂ O catalyst, taken in a molar ratio of bis (methoxymethyl) aminoalkanediol: 1,2-ethanedithiol: SmCl ₃ · 6H ₂ O = 1: 1: (0.03-0.07), preferably 1: 1: 0.05, at room temperature (~ 20 ° C) and atmospheric pressure in the medium astvoriteley methanol-chloroform (1: 1, volume ratio). for 2.5-3.5 h Yield (1,5,3-ditiazepan-3-yl) -alkandiolov (1) is 50-63%. The reaction proceeds according to the scheme:

(1,5,3-Dithiazepan-3-yl) -alkanediols of the general formula (1) are formed only with the participation of bis (methoxymethyl) aminoalkanediols and 1,2-ethanedithiol, taken in stoichiometric amounts. With a different ratio of the starting reagents, the selectivity of the reaction decreases. Without the SmCl ₃ · 6H ₂ O catalyst, the reaction proceeds with a yield not exceeding 10%. The reaction in the presence of a catalyst SmCl ₃ · 6H ₂ O more than 7 mol. % with respect to bis (methoxymethyl) aminoalkanediol does not lead to a significant increase in the yield of the target product (1). Use in the reaction of the catalyst SmCl ₃ · 6H ₂ O less than 3 mol. % reduces the yield (1), which is associated with a decrease in catalytically active centers in the reaction mass. Reactions were carried out at room temperature ~ 20 ° C. At a higher temperature (for example, 60 ° C), energy consumption increases, at a lower temperature (for example, 0 ° C), the reaction rate decreases. The experiments were carried out in a solvent medium of methanol-chloroform (1: 1, volume ratio), because the starting reagents and target products dissolve well in them.

Significant differences of the proposed method

In the known method, the reaction proceeds with the participation of bis (methoxymethyl) hetarylamines as starting reagents under the influence of a CuCl ₂ catalyst with the formation of 3-hetaryl-1,5,3-dithiazepanes (3). The known method does not allow to obtain (1,5,3-dithiazepan-3-yl) -alkanediols of the General formula (1).

In the proposed method, bis (methoxymethyl) aminoalkanediols (bis (methoxymethyl) -2-aminopropane-1,3-diol; bis (methoxymethyl) -2-amino-2-methylpropane-1,3-diol; bis ( methoxymethyl) -3-aminopropane-1,2-diol), the reaction proceeds under the influence of a catalyst SmCl ₃ · 6H ₂ O.

The proposed method has the following advantages.

The method allows to obtain with high selectivity individual (1,5,3-dithiazepan-3-yl) -alkanediols of the general formula (1), the synthesis of which is not described in the literature.

The method is illustrated by the following examples.

EXAMPLE 1. In a Schlenk vessel mounted on a magnetic stirrer, 1 mmol of bis (methoxymethyl) -2-aminopropane-1,3-diol in 5 ml of MeOH and 18 mg (0.05 mmol) of SmCl ₃ · 6H ₂ O are placed, then 0.085 is added ml (1 mmol) of 1,2-ethanedithiol in 5 ml of CHCl ₃ . The reaction mixture was stirred at ~ 20 ° C for 3 h, 2- (1,5,3-dithiazepan-3-yl) propan-1,3-diol was isolated by column chromatography on SiO ₂ in 58% yield.

Other examples confirming the method are shown in table 1.

All experiments were carried out at room temperature (~ 20 ° C) in a solvent medium of methanol-chloroform (1: 1, volume ratio), because they dissolve the source and target products.

Spectral characteristics of 2- (1,5,3-dithiazepan-3-yl) -2-methylpropan-1,3-diol (The reaction was monitored by TLC on Sorbfil plates (PTCX-AF-B), showed I ₂ pairs. silica gel KSK (100-200 μm) was used in column chromatography. 1D NMR spectra ( ¹ H, ¹³ C) and 2D (COZY, HSQC, NMVC) were recorded on a Bruker Avance 400 spectrometer (100.62 MHz for ¹³ C and 400.13 MHz for ¹ H) according to standard Bruker methods, internal standard Me ₄ Si, solvent — CDCl _3. Mass spectra were obtained on a MALDI TOF / TOF AUTOFLEX III instrument from Bruker.)

Mp 59-60 ° C. Eluent toluene: ethyl acetate: acetone (1: 1: 1), R _f 0.3. ¹ H NMR spectrum, δ, ppm: 2.79 (br s, 2H, OH); 3.09 (br s, 5H, CH ₂ (6, 7), CH (8)); 3.71 (br s, 4H, CH ₂ (9, 9 ′)); 4.39 (br s, 4H, CH ₂ (2, 4)). ¹³ C NMR spectrum, δ, ppm: 36.61 (С-6, С-7), 57.00 (С-2, С-4), 60.57 (С-9, С-9 ′), 64.60 (С- 8). MALDI TOF, m / z: 208.235 [MH] ⁺ (C ₇ H ₁₄ NO ₂ S ₂ ).

Spectral characteristics of 2- (1,5,3-dithiazepan-3-yl) -2-methylpropan-1,3-diol

Eluent toluene: ethyl acetate: acetone (1: 1: 1), R _f 0.35. ¹ H NMR spectrum, δ, ppm: 1.33 (br s, 3H, CH ₃ (10)); 3.11 (br s, 4H, CH ₂ (6, 7)); 4.45 (br s, 4H, CH ₂ (2, 4)); 4.49 (br s, 4H, CH ₂ (9, 9 ′)). ¹³ C NMR spectrum, δ, ppm: 22.37 (С-10), 36.44 (С-6, С-7), 54.43 (С-2, С-4), 66.40 (С-8), 88.44 ( C-9, C-9 ′). MALDI TOF, m / z: 222.245 [MH] ⁺ (C ⁸ H ₁₆ NO ₂ S ₂ ).

Spectral characteristics of 3- (1,5,3-dithiazepan-3-yl) propan-1,2-diol

Eluent toluene: ethyl acetate: acetone (1: 1: 1), R _f 0.3. ¹ H NMR spectrum, δ, ppm: 2.60 (dd, J ₁ = 4, J ₂ = 13.2, 1H, CH ₂ (8)); 2.89 (dd, J ₁ = 9.6, J ₂ = 13.2, 1H, CH ₂ (8)); 3.02 (br s, 4H, CH ₂ (6, 7)); 3.38 (br s, 2H, OH); 3.48 (dd, J ₁ = 5.6, J ₂ = 11.6, 1H, CH ₂ (10)); 3.68 (dd, J ₁ = 8.4, J ₂ = 11.6, 1H, CH ₂ (10)); 3.76-3.80 (m, 1H, CH (9)); 4.18 (dd, J ₁ = 4, J ₂ = 18.2, 4H, CH ₂ (2, 4)). ¹³ C NMR spectrum, δ, ppm: 35.9 (С-6, С-7), 53.8 (С-8), 59.7 (С-2, С-4), 64.6 (С-10), 68.3 ( C-9). MALDI TOF, m / z: 208.272 (C ₇ H ₁₄ NO ₂ S ₂ ).

Claims (1)

The method of obtaining (1,5,3-dithiazepan-3-yl) -alkanediols of the general formula (1):

,
where R =

;

;

characterized in that bis (methoxymethyl) aminoalkanediol (bis (methoxymethyl) -2-aminopropane-1,3-diol; bis (methoxymethyl) -2-amino-2-methylpropane-1,3-diol; bis (methoxymethyl) -3 -aminopropane-1,2-diol) is reacted with 1,2-ethanedithiol in the presence of a SmCl ₃ · 6H ₂ O catalyst at a molar ratio of bis (methoxymethyl) aminoalkanediol: 1,2-ethanedithiol: SmCl ₃ · 6H ₂ O = 1: 1: (0.03-0.07) at room temperature (~ 20 ° C) in a solvent medium methanol-chloroform (1: 1, volume ratio) for 2.5-3.5 hours.