From the commercial extract of the leaves of Stevia rebaudiana Bertoni, a new minor ent -kaurane diterpene glycoside having five β-D-glucopyranosyl units has been isolated. The chemical structur e of the new compound was characterized as 13-[(2-O-β-D-glu copyranosy l-β-D- glucopyranosyl) oxy] ent -kaur-16-en-19-oic acid-(2-O-β-D- glucopyranosyl-6-O-β-D-glucopyranosyl-β-D -glucopyranosyl) ester (1) on the basis of extensive 1D ( 1 H & 13 C) and 2D NMR (TOCSY, HMQC, and HMBC), and High Resolution (HR) mass spectroscopic data as well as hydrolysis studies.
Stevia rebaudiana (Bertoni) Bertoni is a perennial shrub of the Asteraceae (Compositae) family native to Paraguay and Brazil; often referred to as “the sweet herb of Paraguay” [
As a part of our research to discover natural sweeteners and their potential usage into food and beverage industry; we have collected commercial extracts of S. rebaudiana from various suppliers all over the world and in the process of isolating minor novel diterpene glycosides. Apart from isolating novel compounds from S. rebaudiana and utilizing them as possible natural sweeteners or sweetness enhancers, we are also engaged in developing analytical methods for separation of steviol glycosides present in trace quantities in the original S. rebaudiana extract [
An Agilent (Wilmington, DE) 1100 HPLC System, including a quaternary pump, a temperature controlled column compartment with an additional 6 port switching valve, an auto sampler and VWD absorbance detector was used for analysis. The detector was set-up at UV 210 nm and the data acquisition was done using a Chemastation A 10.02 software. The column used for HPLC analysis was a reversed-phase C18 (2) 100 A Phenomenex (Torrance CA) (250 × 4.6 mm, 5 µm); pH was measured using meter Metler Toledo seven compact pH/ion S220 (Switzerland); Branson Ultrasonic Cleaner Model 2510 (Maplewood, NJ) was used for degassing HPLC solvents. NMR spectra were acquired on BrukerAvance DRX 500 MHz or Varian INOVA 600 MHz instrument instruments using standard pulse sequences. High Resolution Mass Spectral (HRMS) data were generated with a LTQ Orbitrap Discovery instrument with its resolution set to 30 k. The needle voltage was set to 4 kV; the other source conditions were sheath gas = 25, aux gas = 0, sweep gas = 5 (all gas flows in arbitrary units), capillary voltage = 30 V, capillary temperature = 300˚C, and tube lens voltage = 75. Sample was diluted with 2:2:1 CH3CN:MeOH:water (same as infusion eluent) and injected 50 microliters. TLC was performed on Baker Si- C18F plates with mobile phase H2O-MeOH (80:20). Identification of the spots on the TLC plate was carried out by spraying 10% H2SO4 in EtOH and heating the plate at about 80C.
The commercial sample of Stevia extract from the leaves of S. rebaudiana which is a mixture of diterpene glycosides was obtained from Sinochem Qingdao Co Ltd, China with Lot No: 20140611. The authenticity of the commercial extract was confirmed by performing its retention time (tR) comparison with the internal standard compounds of known JECFA steviol glycosides isolated from S. rebaudiana using the HPLC method as reported earlier [
2.3. Isolation and Purification of 13-[(2-O-β-D-glucopyranosyl-β-D-glucopyranosyl)oxy] ent-kaur-16-en-19-oic acid-(2-O-β-D-glucopyranosyl-6-O-β-D-glucopyranosyl-β-D-gluco- pyranosyl) ester (1)
Compound 1 was purified from the commercial Stevia extract obtained from Sinochem Qingdao Co. Ltd., China using an Agilent 1100 HPLC system with Phenomenex column (250 × 4.6 mm, 5 µm) by RP-HPLC in 3 stages. The first stage utilized an isocratic elution method using the mobile phase acetonitrile/phosphate buffer (20:80); flow rate: 2 mL/min; injection volume: 50 µL; detection: 210 nm. The eluent collected between tR 8.0 and 9.5 min has been combined over several runs; dried the corresponding solution under nitrogen yielded a mixture (12.4 mg), which on second stage of purification with an isocratic mobile phase acetonitrile/phosphate buffer (25:75); flow rate: 1 mL/min; injection volume: 10 µL; detection: 210 nm.. The eluent collected between tR 12.0 and 14.0 min has been combined over several runs; dried the corresponding solution under nitrogen yielded a mixture (8.4 mg), which on final stage of purification with an isocratic mobile phase acetonitrile/phosphate buffer (32:68); flow rate: 0.5 mL/min; injection volume: 10 µL; detection: 210 nm. The peak eluting at tR 16.24 min has been collected over multiple runs; dried the corresponding solution under nitrogen yielded 1 (2.4 mg).
Identification and spectroscopic data of Compound 1. White powder; 1H NMR (600 MHz, C5D5N, δ ppm) and 13C NMR (150 MHz, C5D5N, δ ppm) spectroscopic data see
Position | 1H NMR | 13C NMR |
---|---|---|
1 | 0.75 t (12.4), 1.72 m | 41.4 |
2 | 1.46 m, 2.21 m | 20.3 |
3 | 1.02 m, 2.40 d (12.3) | 38.6 |
4 | --- | 45.0 |
5 | 1.00 d (10.8) | 58.0 |
6 | 1.87 m, 2.10 m | 22.6 |
7 | 1.26 m, 134 m | 42.2 |
8 | --- | 43.2 |
9 | 0.86 d (7.2) | 54.7 |
10 | --- | 40.1 |
11 | 1.68 m | 21.2 |
12 | 1.96 m, 2.24 m | 37.9 |
13 | --- | 87.0 |
14 | 1.78 d (10.8), 2.67 d (11.3) | 44.7 |
15 | 1.34 m, 2.06 m | 48.4 |
16 | --- | 154.8 |
17 | 5.05 s, 5.66 s | 105.2 |
18 | 1.40 s | 28.8 |
19 | --- | 176.4 |
20 | 1.12 s | 17.1 |
1′ | 6.32 d (7.8) | 94.0 |
2′ | 4.34 m | 81.4 |
3′ | 4.18 m | 78.7 |
---|---|---|
4′ | 4.26 m | 72.2 |
5′ | 4.08 m | 78.6 |
6′ | 4.42 m, 4.62 m | 70.2 |
1′′ | 5.14 d (7.4) | 98.4 |
2′′ | 4.18 m | 84.6 |
3′′ | 4.32 m | 78.8 |
4′′ | 4.24 m | 71.8 |
5′′ | 3.80 m | 78.9 |
6′′ | 4.26 m, 4.41 m | 63.0 |
1′′′ | 5.22 d (7.8) | 107.0 |
2′′′ | 4.14 t (8.4) | 77.6 |
3′′′ | 4.25 m | 78.7 |
4′′′ | 4.34 m | 72.4 |
5′′′ | 3.94 m | 79.1 |
6′′′ | 4.29 m, 4.45 m | 63.3 |
1′′′′ | 5.48 d (7.5) | 106.0 |
2′′′′ | 4.07 m | 77.2 |
3′′′′ | 4.18 m | 79.1 |
4′′′′ | 4.32 m | 71.5 |
5′′′′ | 3.96 m | 79.3 |
6′′′′ | 4.16 m, 4.38 m | 63.6 |
1′′′′′ | 5.06 d (7.5) | 106.4 |
2′′′′′ | 4.04 m | 77.2 |
3′′′′′ | 4.18 m | 78.8 |
4′′′′′ | 4.28 m | 72.0 |
5′′′′′ | 4.02 m | 79.2 |
6′′′′′ | 4.32 m, 4.43 m | 63.4 |
aAssignments made on the basis of TOCSY, HMQC and HMBC correlations; bChemical shift values are in δ (ppm); cCoupling constants are in Hz.
Acid Hydrolysis of 1. Compound 1 (500 μg) is dissolved in MeOH (3 ml) and added 5% H2SO4 (10 mL). The mixture was refluxed for 16 hours and then neutralized with saturated sodium carbonate after cooling to room temperature. The aqueous phase was extracted with ethyl acetate (EtOAc, 2 ´ 15 ml) to separate an EtOAc fraction containing the aglycone part. The aqueous layer was concentrated and compared with standard sugars using the TLC system EtOAc/n-butanol/water (2:7:1) and CH2Cl2/MeOH/water (10:6:1) [
Enzymatic hydrolysis of 1. Compound 1 (500 μg) was dissolved in 5.0 mL of 0.1 M sodium acetate buffer (pH 4.5) and crude pectinase from Aspergillusniger (250 µL, Sigma-Aldrich, P2736) was added. The mixture was stirred at 50˚C for 48 hr. The product precipitated out during the reaction was filtered and then purified using reversed-phase preparative TLC using water:MeOH (70:30) yielded a pure compound, which was identified as steviol by comparison with co-TLC and 1H-NMR of an authentic sample as well as from the spectral data from the literature [
The molecular formula of compound 1 has been deduced as C50H80O28 on the basis of its positive high resolution (HR) mass spectrum which showed an ion corresponding to [M + Na]+ at m/z 1151.4717; this composition was supported by the 13C NMR spectral data. The 1H NMR spectral data of 1 showed the presence of two methyl singlets at δ 1.12 and 1.40, two olefinic protons as singlets at δ 5.05 and 5.66 of an exocyclic double bond, nine sp3 methylene and two sp3 methine protons between δ 0.75 - 2.67, characteristic for the ent-kaurane diterpenoids isolated earlier from the genus Stevia [
Enzymatic hydrolysis of 1 furnished an aglycone which was identified as steviol by comparison of 1H-NMR and co-TLC with standard compound [
D-glucosyl unit. The downfield shift for both the 1H and 13C chemical shifts at 6-position of sugar I of the β-D- glucosyl moiety in 1 suggested that the additional β-D-glucosyl unit has been attached at this position, which was supported by the comparison of the 1H and 13C NMR values of rebaudioside M2 [
Based on the results of NMR and mass spectral data as well as hydrolysis studies, the structure of 1 was deduced as 13-[(2-O-β-D-glucopyranosyl-β-D-glucopyranosyl)oxy] ent-kaur-16-en-19-oic acid-(2-O-β-D-glucopyranosyl- 6-O-β-D-glucopyranosyl-β-D-glucopyranosyl) ester.
A new diterpenoid glycoside, 13-[(2-O-β-D-glucopyranosyl-β-D-glucopyranosyl)oxy] ent-kaur-16-en-19-oic acid-(2-O-β-D-glucopyranosyl-6-O-β-D-glucopyranosyl-β-D-glucopyranosyl) ester (1) has been isolated from the commercial extract of the leaves of S. rebaudiana obtained from Sinochem Qingdao Co. Ltd. (China). The new compound was identified and characterized based on the basis of NMR and HR mass spectral data as well as hydrolysis studies. This is the first report of the isolation of this new diterpene glycoside in nature, which is an important addition in expanding our understanding of the diversity of the diterpenoid glycosides present in the leaves of S. rebaudiana and their structure-activity relationship.
Thanks to James May, Chief Executive Officer and Carol May, President of Wisdom Natural Brands for their support. Also, thanks to Department of Chemistry, Emory University, Atlanta, GA and Novatia LLC, Newtown, PA for providing selected NMR and HRMS spectral data respectively.