The synthesis and hepatoprotective activity of esters of the lupane group triterpenoids

Hemisuccinates, hemiphthalates, acetylsalicylates, cinnamates, andp-methoxycinnamates of lupeol, betulin, and 3-O-acetylbetulin were synthesized via interaction with corresponding acid anhydrides or acid chlorides. A number of betulin esters in position 3 and 28 were shown to exhibit a pronounced hepatoprotective effect similar to that of betulin and silibor. These experimental data were in a good agreement with the computer prediction of their biological activity. Betulin 3,28-bishemiphthalate was more effective than carsil in models of experimental hepatitis caused by carbon tetrachloride, tetracycline, and ethanol.     

Biotransformation optimization of betulin into betulinic acid production catalysed by cultured Armillaria luteo‐virens Sacc ZJUQH100‐6 cells

Aims: Betulinic acid has attracted attention in terms of its important biological and pharmacological characteristics. The main objective of this work was to optimize the variables of biotransformation process in order to enhance betulinic acid production from betulin catalysed by fungus Armillaria luteo‐virens Sacc ZJUQH100‐6. Methods and Results: Fractional factorial design and response surface methodology were applied to optimize the main parameters that affect betulinic acid production in the growing‐cells system. Results indicated that the addition of Tween 80 and substrate concentration were identified as the significant factors on betulinic acid formation, and the central composite experimental design was then adopted to derive a statistical model for optimizing biotransformation conditions. The optimum conditions were observed at pH 6·0, 0·57% Tween 80, 15 mg l^?1 betulin and at 3 days of stage of inoculation. Conclusions: Under the optimized conditions, the highest productivity of betulinic acid predicted was 9·32%, which increased by 74·53% in comparison with that of the nonoptimized. The verified experiment revealed that the model can well simulate betulin biotransformation. Moreover, the bioconversion of betulin and betulin‐28‐monooxygenase activities was compared between the optimized and the nonoptimized conditions. Significance and Impact of the Study: Current data imply that betulinic acid production from betulin can be effectively enhanced through biotransformation optimization strategy.     

黄龙山白桦桦木醇与桦木酸含量研究

为了阐明黄龙山白桦不同生境、不同径级、不同器官桦木醇与桦木酸含量,系统采集了陕北黄土高原黄龙山林场阳坡、阴坡、林缘、孤立木4种生境下的白桦不同径级植株的树皮、树枝和树叶样品,采用超声波辅助提取法提取样品,用高效液相色谱法测定了不同生境、不同径级白桦各器官桦木醇、桦木酸含量。结果表明：（1）不同生境下白桦各器官桦木醇、桦木酸含量均存在显著差异（P＜0.05）,白桦树皮中桦木醇与桦木酸含量、白桦树枝中桦木酸含量在4种生境下均表现为阴坡＞孤立木＞林缘＞阳坡,白桦树叶中桦木醇与桦木酸含量及树枝中桦木醇含量均表现为阴坡＞林缘＞孤立木＞阳坡,总体来看阴坡生境下白桦各器官桦木醇与桦木酸含量都是最高的。（2）在白桦各器官中,桦木醇、桦木酸含量均表现为树皮＞树枝＞树叶。（3）不同生境下白桦各器官桦木醇、桦木酸含量随着胸径的增大均先增大后减小,均在第Ⅱ径级即胸径10.1~20 cm达到最大。研究认为,阴坡生境有利于白桦各器官积累桦木醇、桦木酸;白桦各器官中桦木醇含量较高,桦木酸含量比较低,而以桦木酸为原料的生物制剂已进入临床应用阶段,因此,以桦木醇为原料制取桦木酸是解决桦木酸在天然植物中含量低、提取困难的有效途径;对白桦各器官的采收应注意把握时机,于白桦生长到胸径10.1~20 cm时为最佳采收期。     

Effect of nitrogen-containing derivatives of the plant triterpenes betulin and glycyrrhetic acid on the growth of MT-4, MOLT-4, CEM, and Hep G2 tumor cells

Derivatives of the available plant triterpenes glycyrrhetic acid and betulin (betulin succinates and amides of betulonic and 18beta-glycyrrhetic acids containing fragments of long-chain amino acids and a peptide) were synthesized. The inhibitory action of these compounds on the growth of MT-4, MOLT-4, CEM. and Hep G2 tumor cells and their effect on the apoptosis of these cells were studied. It was shown that betulonic acid amides are more effective inhibitors of the tumor cell growth than the corresponding amides of glycyrrhetic acid. It was also found that betulonic acid amides containing fragments of caprylic, pelargonic, and undecanoic acids are more effective inhibitors of tumor cell growth than betulinic acid. The 17-dipeptide derivative of betulonic acid N-{N-[3-oxo-20(29)-lupen-28-oyl]-9-aminononanoyl}-3-amino-3-phenylpropionic acid exhibited the maximum inhibitory activity toward the tumor cells studied. Data on the induction of apoptosis in tumor cells by betulin derivatives at a concentration of 10 microg/ml were obtained by flow cytometry. The amides of betulonic acid proved to be the most effective inducers of apoptosis.     

Synthesis and structure-activity relationship study of cytotoxic germanicane- and lupane-type 3beta-O-monodesmosidic saponins starting from betulin

Germanicane-type triterpenes allobetulin (3) and 28-oxoallobetulin (4) can be obtained by the Wagner-Meerwein rearrangement of the more available lupane-type triterpenes betulin (1) and betulinic acid (2), respectively. The medical uses of betulinic acid (2) and its derivatives are limited because of their poor hydrosolubility and pharmacokinetics properties. In order to overcome this major problem, we synthesized and studied the in vitro anticancer activity of a series of 3beta-O-monodesmosidic saponins derived from betulin (14-16), betulinic acid (20-22), allobetulin (23-28) and 28-oxoallobetulin (29-34) based on six different natural sugar residues (d-glucose, l-rhamnose, d-arabinose, d-galactose, d-mannose and d-xylose). This structure-activity relationship study confirmed that betulinic acid saponins are generally better in vitro anticancer agents than those derived from betulin with the exception of betulin 3beta-O-alpha-d-mannopyranoside (15) which exerted a potent cytotoxic activity against lung carcinoma (A-549) and colorectal adenocarcinoma (DLD-1) human cell lines with IC(50) ranging from 7.3 to 10.1mumol/L. Furthermore, although the synthesis of novel germanicane-type saponins was carried out with success, the bioactivity measured for these glycosides was not as high as we anticipated since only the 3beta-O-beta-d-glucopyranoside and 3beta-O-beta-d-galactopyranoside of allobetulin (23,24) showed moderate anticancer activity (IC(50) 30-40 micromol/L).     

Effect of nitrogen-containing derivatives of the plant triterpenes betulin and glycyrrhetic acid on the growth of MT-4, MOLT-4, CEM,and Hep G2 tumor cells

Derivatives of the available plant triterpenes glycyrrhetic acid and betulin (betulin succinates and amides of betulonic and 18β-glycyrrhetic acids containing fragments of long-chain amino acids and a peptide) were synthesized. The inhibitory action of these compounds on the growth of MT-4, MOLT-4, CEM, and Hep G2 tumor cells and their effect on the apoptosis of these cells were studied. It was shown that betulonic acid amides are more effective inhibitors of the tumor cell growth than the corresponding amides of glycyrrhetic acid. It was also found that betulonic acid amides containing fragments of caprylic, pelargonic, and undecanoic acids are more effective inhibitors of tumor cell growth than betulinic acid. The 17-dipeptide derivative of betulonic acid N-{N-[3-oxo-20(29)-lupen-28-oyl]-9-aminononanoyl}-3-amino-3-phenylpropionic acid exhibited the maximum inhibitory activity toward the tumor cells studied. Data on the induction of apoptosis in tumor cells by betulin derivatives at a concentration of 10 μg/ml were obtained by flow cytometry. The amides of betulonic acid proved to be the most effective inducers of apoptosis.     

Betulin binds to melanocortin receptors and antagonizes alpha-melanocyte stimulating hormone induced cAMP generation in mouse melanoma cells

Betulin is a principal component of birch bark and is known to possess a broad range of biological activities, including antiinflammatory, antiviral and anticancer actions. The present study was carried out in vitro to clarify the influence of betulin on melanocortin (MC) receptor-ergic signalling by using COS-7 cells transfected with corresponding human MC receptor DNA. The results showed that betulin binds to the human melanocortin MC1, three to five receptors with selectivity to the MC1 subtype (K(i) value 1.022 +/- 0.115 microM). Betulin binds to the MC receptors with the following potency order-MC > MC3 > MC5 > MC4. Betulin itself does not stimulate cAMP generation, however, it slightly antagonizes alpha-melanocyte-stimulating hormone (alpha-MSH)-induced cAMP accumulation in the mouse melanoma cell line B16-F1. As a water-insoluble substance, betulin was dissolved in DMSO therefore DMSO competition with the labelled ligand NDP-MSH for the binding to the MC receptors was tested in the identical experimental set-up. We found that DMSO competes for binding to all the MC receptor subtypes, at 20% concentration and above. Selectivity for one or another receptor subtype was not observed. We have demonstrated for the first time, the ability of the plant compound betulin to bind to the MC receptors. One may suggest MC receptor MC1 subtype as the essential target for the antimelanoma action of betulin and its structurally close molecules such as betulinic acid. Moreover, we have found a new non-peptide small molecule MC mimetic, that is betulin. Thus, we report a new chemical motif for the binding to the MC receptors that could be used as a template for the search of more selective MC mimetics.     

Synthesis and antitumor activity of cyclopropane derivatives of betulinic and betulonic acids

New cyclopropane derivatives of betulin were synthesized by attachment of dichlorocarbenes or dibromocarbenes to the double bond of betulin diacetate, followed by the deprotection of hydroxyl groups. The betulin cyclopropane derivative was obtained from 20,29-dihydro-20,29-dichloromethylenebetulin by treatment with lithium in tert-butanol. These compounds were converted into the corresponding derivatives of betulonic acid by oxidation with chromium trioxide. The reduction of oxo group with sodium borohydride led to the corresponding derivatives of betulinic acid. 20,29-Dihydro-20,29-dichloromethylenebetulinic acid proved to be the most cytotoxic toward human melanoma of the Colo 38 and Bro lines and human ovarian carcinoma of the CaOv line (IC50 10 microM). 20,29-Dihydro-20,29-dibromomethylenebetulinic acid inhibited the growth of the Bro melanoma cell line and the CaOv carcinoma cell line practically by 50% at a concentration of 10 microM. The other derivatives of betulinic and betulonic acids were active toward all of the three cancer cell lines at concentrations higher than 10 microM. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2005, vol. 31, no. 3; see also http://www.maik.ru.     

Synthesis and Antitumor Activity of Cyclopropane Derivatives of Betulinic and Betulonic Acids

New cyclopropane derivatives of betulin were synthesized by attachment of dichlorocarbenes or dibromocarbenes to the double bond of betulin diacetate, followed by the deprotection of hydroxyl groups. The betulin cyclopropane derivative was obtained from 20,29-dihydro-20,29-dichloromethylenebetulin by treatment with lithium in tert-butanol. These compounds were converted into the corresponding derivatives of betulonic acid by oxidation with chromium trioxide. The reduction of oxo group with sodium borohydride led to the corresponding derivatives of betulinic acid. 20,29-Dihydro-20,29-dichloromethylenebetulinic acid proved to be the most cytotoxic toward human melanoma of the Colo 38 and Bro lines and human ovarian carcinoma of the CaOv line (IC₅₀ 10 μM). 20,29-Dihydro-20,29-dibromomethylenebetulinic acid inhibited the growth of the Bro melanoma cell line and the CaOv carcinoma cell line practically by 50% at a concentration of 10 μM. The other derivatives of betulinic and betulonic acids were active toward all of the three cancer cell lines at concentrations higher than 10 μM.__________Translated from Bioorganicheskaya Khimiya, Vol. 31, No. 3, 2005, pp. 320–325.Original Russian Text Copyright © 2005 by Symon, Veselova, Kaplun, Vlasenkova, Fedorova, Lyutik, Gerasimova, Shvets.     

The betulinic acid production from betulin through biotransformation by fungi

Betulinic acid, a triterpenoid found in many plant species, has attracted attention due to its important physiological and pharmacological properties. In order to obtain betulinic acid, betulin was submitted to transformation with the selected microorganisms. Betulin biotransformation was carried out with the filamentous fungi Armillaria luteo-virens Sacc QH (ALVS), Aspergillus foetidus ZU-G1 (AF) and Aspergillus oryzae (AO) under seven kinds of transformation condition. As a result of transformation of betulin, A. luteo-virens Sacc QH was the best biocatalyst to produce betulinic acid under the designed conditions. Transformation caused by pre-cultured fungal mycelia, a process designated as G2, was favorable condition for betulin biotransformation as the productivity of betulinic acid was evaluated (>20%). M1 and M2 systems, where the betulin substrate was micro-emulsified in mixtures of Tween 80 and organic solvents, were potential substitutes for G2. The possible pathway of betulin transformation is postulated in this work. The use of fungi and transformation mode described in current work are viable procedures for producing betulinic acid, which is of most importance to replace chemical synthesis ways.     

Synthesis of phthalates of betulinic acid and betulin with cytotoxic activity

Synthesis of 3beta-O-phthalic esters from betulinic acid and its esters and synthesis of phthalic esters from betulin and its monoacetates using classical acylation procedure with phthalic anhydride. The evaluation of cytotoxicity of the prepared compounds was using numbers of tumor cell lines in MTT test. It was discovered that hemiphthalic esters had better cytotoxicity than starting compounds as betulinic acid or quite inactive betulin.     

Synthesis of the betulin dipropionate from the upper birch bark

A one-step synthesis of the betulin dipropionate directly from the birch bark without a separate stage of the betulin preparation is described in this paper. Extracts with different content of the betulin dipropionate were shown to form depending on the conditions of acylation of the upper birch bark with propionic acid. The product with the maximum content of the betulin dipropionate was prepared from the starting fraction of 2?C5 mm of the upper birch bark and the fraction of 10?C20 mm that was preliminarily activated with superheated water vapor. The upper bark extract was analyzed by gas chromatography. The structure of betulin dipropionate was confirmed by element analysis, ¹H NMR, ¹³C NMR, and FTIR spectroscopy.     

Cell adaptations of Rhodococcus rhodochrous IEGM 66 to betulin biotransformation

The findings of a comprehensive study on R. rhodochrous IEGM 66 and triterpenoid betulin interactions during its biotransformation were reported. In the presence of betulin, rhodococci were shown to form heterogeneous cell aggregates. The enhanced size of the aggregates from 12–15 μm to 25– 35 μm was consistent with the increase in betulin concentration from 0.5 to 3.0 g/L. The confocal laser scanning microscopy indicated a high (80.0%) level of rhodococcal viability during betulin biotransformation regardless of the betulin concentration. Experiments employing the combined confocal laser scanning and atomic force microscopy system confirmed that interactions between actinobacterial cells and betulin occur by direct contact. Transforming activities of the crude cell extracts from R. rhodochrous IEGM 66 were compared, and localization of enzymes catalyzing betulin oxidation to betulone was determined. Additionally the effects of betulin on fatty acid composition of rhodococci and their morphometric and morphofunctional characteristics during biotransformation were studied. Our findings could be used to develop approaches for enhanced betulin bioavailability, thus leading to improved biotransformation efficiency.     

Sulfation of betulin with chlorosulfonic acid in dimethylformamide and dioxane

The reaction of sulfation of betulin with chlorosulfonic acid in dioxane or dimethylformamide was found to proceed in homogeneous medium at 40–60°C. It was shown that the esterification of betulin to betulin 3,28-disulfate was completed for 4–5 hours. Betulin disulfate was isolated in the form of the sodium salt.     

Synthesis of a molecularly imprinted polymer for the solid‐phase extraction of betulin and betulinic acid from plane bark

Introduction – Plant extracts are usually complex mixtures of various polarity compounds and their study often includes a purification step, such as solid‐phase extraction (SPE), to isolate interest compounds prior analytical investigations. Molecularly imprinted polymers (MIPs) are a new promising type of SPE material which offer tailor‐made selectivity for the extraction of trace active components in complex matrices. Numerous specific cavities that are sterically and chemically complementary of the target molecules, are formed in imprinted polymers. A molecularly imprinted polymer (MIP) was synthesised in order to trap a specific class of triterpene, including betulin and betulinic acid from a methanolic extract of plane bark. Methodology – Imprinted polymers were synthesised by thermal polymerisation of betulin as template, methacrylic acid (MAA) or acrylamide (AA) as functional monomer, ethylene glycol dimethacrylate as crosslinking agent and chloroform as porogen. Afterwards, MAA‐ and AA‐MIPs were compared with their non‐imprinted polymers (NIPs) in order to assess the selectivity vs betulin and its derivatives. Recovered triterpenes were analysed by HPLC during MIP‐SPE protocol. Results – After SPE optimisation, the MAA‐imprinted polymer exhibited highest selectivity and recovery (better than 70%) for betulin and best affinity for its structural analogues. Thus, a selective washing step (chloroform, acetonitrile) removed unwanted matrix compounds (fatty acids) from the SPE cartridge. The elution solvent was methanol. Finally, the MAA‐MIP was applied to fractionate a plane bark methanolic extract containing betulin and betulinic acid. Conclusion – This study demonstrated the possibility of direct extraction of betulin and its structural analogues from plant extracts by MIP technology. Copyright © 2009 John Wiley & Sons, Ltd.     

Study of the betulin molecule in a water environment; ab initio and molecular simulation calculations

Ab initio and molecular simulation methods were used in calculations of the neutral individual betulin molecule, and molecular simulations were used to optimize the betulin molecule immersed in various amounts of water. Individual betulin was optimized in different force fields to find the one exhibiting best agreement with ab initio calculations obtained in the Gaussian03 program. Dihedral torsions of active groups of betulin were determined for both procedures, and related calculated structures were compared successfully. The selected force field was used for subsequent optimization of betulin in a water environment, and a conformational search was performed using quench molecular dynamics. The total energies of betulin and its interactions in water bulk were calculated, and the influence of water on betulin structure was investigated.     

Glycosidation of lupane-type triterpenoids as potent in vitro cytotoxic agents

The weak hydrosolubility of betulinic acid (3) hampers the clinical development of this natural anticancer agent. In order to circumvent this problem and to enhance the pharmacological properties of betulinic acid (3) and the lupane-type triterpenes lupeol (1), betulin (2), and methyl betulinate (7), glycosides (beta-D-glucosides, alpha-L-rhamnosides, and alpha-D-arabinosides) were synthesized and in vitro tested for cytotoxicity against three cancerous (A-549, DLD-1, and B16-F1) and one healthy (WS1) cell lines. The addition of a sugar moiety at the C-3 or C-28 position of betulin (2) resulted in a loss of cytotoxicity. In contrast, the 3-O-beta-D-glucosidation of lupeol (1) improved the activity by 7- to 12-fold (IC50 14-15.0 microM). Moreover, the results showed that cancer cell lines are 8- to 12-fold more sensitive to the 3-O-alpha-L-rhamnopyranoside derivative of betulinic acid (IC50 2.6-3.9 microM, 22) than the healthy cells (IC50 31 microM). Thus, this study indicates that 3-O-glycosides of lupane-type triterpenoids represent an interesting class of potent in vitro cytotoxic agents.     

New antibacterial pentacyclic triterpenes from Myricaria elegans Royle. (tamariscineae)

Two new pentacyclic triterpenes eleganene-A (1) and eleganene-B (2), along with four known pentacyclic triterpenes betulin (3), ursolic acid (4), erythrodiol (5) and corosolic acid (6) were isolated from the aerial parts of Myricaria elegans. These compounds exhibited significant antibacterial activity. The structure of compounds 1 and 2 were deduced on the basis of their spectral analysis.     

Synthesis of triterpenoid triazine derivatives from allobetulone and betulonic acid with biological activities

The synthetic transformation and modification of natural products with the aim to improve the biological properties is an area of current interest. The triterpenoids betulin and betulinic acid are very abundant in nature and now are commercially available. In our study, starting from betulin and betulinic acid, we obtained allobetulone and betulonic acid in a few synthetic steps. The ketone function at the A-ring was used as the starting point for the synthesis of a series of 1,2,4-triazine-fused triterpenoids. The alkylation and Liebeskind–Srogl coupling were used for further substitution of 1,2,4-triazines, and the intramolecular hetero Diels–Alder reaction leads to interesting fused thienopyridine derivatives. All new compounds were tested for their cytostatic activities against murine leukemia L1210, human cervix carcinoma HeLa and human lymphoblast CEM tumor cells. The results show that some triterpenoid triazine betulonic acid derivatives have a promising cytostatic activity in vitro and could be used as potential leads for the development of new type of anti-cancer agents. Several compounds were also endowed with anti-HCMV activity in the low micromolar range.