Ursane-type Triterpenoids Research Articles

Antineuroinflammatory Potential of Uvaol Transformation Products by Three Fungal Species.

The prevalence of neurodegenerative diseases has increased in recent decades. Its exact pathogenesis is not yet fully understood, and only a few drugs can be used clinically to alleviate disease symptoms. Increasing evidence highlights plant-derived compounds are becoming a promising resource for mitigating the onset and progression of neurodegenerative diseases. Uvaol (1) is an ursane-type triterpenoid commonly found in olive leaves, fruits, and virgin olive oil. It is one of the rare compounds in olive oil that can penetrate the blood-brain barrier. Despite its potential neuroprotective activity, research on its structural variations and antineuroinflammatory properties remains sparse. This study explored the biotransformation of uvaol using three fungal species: Actinomucor elegans, Aspergillus flavus, and Circinella muscae. This process yielded 15 new compounds along with seven known ones. Their structures were determined through comprehensive spectroscopic analysis. Furthermore, the antineuroinflammatory activities of compounds were evaluated by using MTT and Griess assays. Notably, compound 9 was found to markedly suppress the transcriptional levels of inflammation-associated elements such as TNF-α, IL-1β, IL-6, iNOS, and COX-2 in BV-2 cells stimulated by lipopolysaccharides (LPS). Moreover, compound 9 also facilitated autophagy by upregulating ULK1 mRNA expression and downregulating the p62 protein. These results suggested that biotransformation was an effective approach for rapidly diversifying uvaol and providing a basal material for the discovery of candidates in treating neurodegenerative diseases.

Fruits from Rosa roxburghii: A Valuable Bioresource of Potent Radical Scavengers and Novel Ursane-Type Triterpenoids.

Four new ursane-type triterpenoids named rosaroxine A-D and 21 known compounds were identified from Rosa roxburghii fruits. The structures of all compounds were established by 1D and 2D NMR spectroscopy and mass spectrometry. The phenolics catechin (EC50 13.4 μM), quercetin (13.1 μM), gallic acid (10.0 μM), and protocatechuic acid (15.2 μM) were identified as powerful in vitro antioxidants with EC50 values lower than ascorbic acid (31.3 μM). The triterpenoids rosaroxine C (EC50 37.4; 40.3 μM) and 2-oxo-pomolic acid (16.6; 28.2) and the phenolics catechin (53.3; 29.0), quercetin (18.8; 33.1), and gallic acid (26.3; 40.0) exerted partly higher activities in the cyclo-oxygenase (COX 1/2) assay than the positive control acetaminophen (EC50 45.0; >100 μM). The triterpenoids rosaroxine C and 2-oxo-pomolic acid also performed well in the anti-aging assay using HaCaT cells. Quantification of the bioactive compounds by LC-MS revealed concentrations of 3.08 mg kg-1 rosaroxine C, 17.40 mg kg-1 2-oxo-pomolic acid, 76.29 mg kg-1 catechin, and 5.58 mg kg-1 protocatechuic acid in the dried fruits. Overall, this work provides detailed phytochemical information, and the results from the accomplished bioassay point toward health promoting properties of these fruits.

Structural elucidation of two new ursane-type triterpenoids from Syzygium handelii by spectroscopic analyses and calculations

Two new ursane-type triterpenoids with a rare caffeoyl group at C-27, 3β-acetoxy-27-trans-caffeoyloxyurs-12-en-28-oic acid-methyl ester (1) and 3β-acetoxy-27-cis-caffeoyloxyurs-12-en-28-oic acid-methyl ester (2), together with three known triterpenoids (3–5), were isolated from the leaves and twigs of Syzygium handelii. Their structures were elucidated by detailed NMR, MS spectroscopic data interpretation, calculated NMR, and DP4+ methods. Anti-microbial and cytotoxic activities of new compounds were evaluated. Compounds 1 and 2 showed weak cytotoxicity against HepG2 cells with IC50 value of 81.3 and 72.1 μM, respectively. The optimal molecule docking results showed that compounds 1 and 2 could bind stably to COX-2 protein.

Six undescribed 23-norursane triterpenoids from the biotransformation of ilexgenin a by endophytic fungi and their vascular protective activity

Biotransformation of ursane-type triterpenoid ilexgenin A by endophytic fungi Lasiodiplodia sp. MQD-4 and Pestalotiopsis sp. ZZ-1, isolated from Ilex pubescences and Callicarpa kwangtungensis respectively, was investigated for the first time. Six previously undescribed metabolites (1–6) with 23-norursane triterpenoids skeleton were isolated and their structures were unambiguously established by the analysis of spectroscopic data and single-crystal X-ray crystallographic experiments. Decarboxylation, oxidation, and hydroxylation reactions were observed on the triterpenoid skeleton. Especially, the decarboxylation of C-23 provided definite evidence to understand the biogenetic process of 23-norursane triterpenoids. Moreover, the qualitative analysis of the extract of I. pubescences showed metabolites 1, 3, 4, and 6 could be detected in the originated plant, indicating biotransformation by endophytic fungi is a practical strategy for the isolation of novel natural products. Finally, all isolates were evaluated for the protective activities against H2O2-induced HUVECs dysfunction in vitro. Compound 5 could improve the viability of endothelial cells and decrease the level of intracellular ROS.

Pentacyclic triterpenoids as potential ACL inhibitors from the rare medicinal plant Semiliquidambar cathayensis

An extensive phytochemical investigation on the rare medicinal plant Semiliquidambar cathayensis (family: Hamamelidaceae) led to the isolation of four new (1–4, named semiliquidacids A–D, respectively) and 25 related known pentacyclic triterpenoids. The new structures with absolute configurations were elucidated by spectroscopic methods, electronic circular dichroism (ECD) calculations, and single-crystal X-ray diffraction analysis. Compound 1 represents the first naturally occurring ursane-type triterpenoid featuring an uncommon C-25 formyl group. Compound 4 and oleanolic acid (13) exhibited remarkable inhibitory effects against the ATP-citrate lyase (ACL, an emerging drug target for hyperlipidemia and related metabolic disorders) with IC50 values of 6.5 and 11.9 μM, respectively. The molecular interaction and binding mode between the bioactive triterpenoids and ACL were elaborated by conducting a molecular docking study. Meanwhile, the chemotaxonomic significance of the isolated triterpenoids has been briefly discussed.

Synthesis and cytotoxicity evaluation of d- and l-sugar-containing mono- and bidesmosidic ursane-type saponins

Ursolic acid and uvaol are naturally occurring triterpenoids that exhibit a broad spectrum of pharmacological activities, including cytotoxicity. However, a primary challenge in the development of ursane-type pentacyclic triterpenoids for pharmacological use is their poor aqueous solubility, which can impede their effectiveness as therapeutics agents. In this study, we present the facile synthesis of ursolic acid monodesmosides and uvaol bidesmosides, incorporating naturally occurring and water-soluble pentoses and deoxyhexose sugar moieties of opposite d- and l-configurations at the C3 or C3/C28 positions of the ursane core. The twenty synthetic saponins were evaluated in vitro for their cytotoxicity against lung carcinoma (A549) and colorectal adenocarcinoma (DLD-1) cell lines. Notably, all the bidesmosidic uvaol saponins were shown to be cytotoxic as compared to their non-cytotoxic parent triterpenoid. For each series of ursane-type saponins, the most active compounds were 3-O-α-l-arabinopyranosyl ursolic acid (3h) and 3,28-di-O-α-l-rhamnopyranosyl uvaol (4f), showing IC50 values in the low micromolar range against A549 and DLD-1 cancer lines.

Minor Hydroxylated Triterpenoids Produced in Engineered Yeast by the Enzymes OSC and CYP716s from the Plant Enkianthus chinensis and Their Anti-Inflammatory and Hepatoprotective Activities.

Triterpenoids are a type of specialized metabolites that exhibit a wide range of biological activities. However, the availability of some minor triterpenoids in nature is limited, which has hindered our understanding of their pharmacological potential. To overcome this limitation, heterologous biosynthesis of triterpenoids in yeast has emerged as a promising and time-efficient production platform for obtaining these minor compounds. In this study, we analyzed the transcriptomic data of Enkianthus chinensis to identify one oxidosqualene cyclase (EcOSC) gene and four CYP716s. Through heterologous expression of these genes in yeast, nine natural pentacyclic triterpenoids, including three skeleton products (1-3) produced by one multifunctional OSC and six minor oxidation products (4-9) catalyzed by CYP716s, were obtained. Of note, we discovered that CYP716E60 could oxidize ursane-type and oleanane-type triterpenoids to produce 6β-OH derivatives, marking the first confirmed C-6β hydroxylation in an ursuane-type triterpenoid. Compound 9 showed moderate inhibitory activity against NO production and dose-dependently reduced IL-1β and IL-6 production at the transcriptional and protein levels. Compounds 1, 2, 8, and 9 exhibited moderate hepatoprotective activity with the survival rates of HepG2 cells from 61% to 68% at 10 μM.

Triterpenoids and triterpenoid saponins from Vitex negundo and their anti-inflammatory activities

Seven undescribed polyoxygenated ursane-type triterpenoids (vitnegundins A−G), three undescribed triterpenoid saponins (vitnegundins H−J), and 17 known ones were isolated from an EtOH extract of the aerial parts of Vitex negundo L. The structures of the undescribed compounds were established by extensive spectroscopic analysis. The absolute configurations of vitnegundins A, B, and E were determined by single-crystal X-ray diffraction data. Vitnegundins B−D are pentacyclic triterpenoids possessing rare cis-fused C/D rings and vitnegundins C–H represent undescribed ursane-type triterpenoids with 12,19-epoxy moiety. In the biological activity assay, vitnegundin A, vitnegundin E, and swinhoeic acid displayed inhibitory effects against LPS-induced NO release in BV-2 microglial cells, with IC50 values of 11.8, 44.2, and 19.6 μM, respectively.

PgDDS Changes the Plant Growth of Transgenic Aralia elata and Improves the Production of Re and Rg3 in Its Leaves.

Aralia elata (Miq.) Seem is a medicinal plant that shares a common pathway for the biosynthesis of triterpenoid saponins with Panax ginseng. Here, we transferred the dammarenediol-II synthase gene from P. ginseng (PgDDS; GenBank: AB122080.1) to A. elata. The growth of 2-year-old transgenic plants (L27; 9.63 cm) was significantly decreased compared with wild-type plants (WT; 74.97 cm), and the leaflet shapes and sizes of the transgenic plants differed from those of the WT plants. Based on a terpene metabolome analysis of leaf extracts from WT, L13, and L27 plants, a new structural skeleton for ursane-type triterpenoid saponins was identified. Six upregulated differentially accumulated metabolites (DAMs) were detected, and the average levels of Rg3 and Re in the leaves of the L27 plants were 42.64 and 386.81 μg/g, respectively, increased significantly compared with the WT plants (15.48 and 316.96 μg/g, respectively). Thus, the expression of PgDDS in A. elata improved its medicinal value.

Triterpenoids in Sorbus pohuashanensis suspension cell treated with yeast extract

This study induced biological stress in Sorbus pohuashanensis suspension cell(SPSC) with yeast extract(YE) as a bio-tic elicitor and isolated and identified secondary metabolites of triterpenoids produced under stress conditions. Twenty-six triterpenoids, including fifteen ursane-type triterpenoids(1-15), two 18,19-seco-ursane-type triterpenoids(16-17), four lupine-type triterpenoids(18-21), two cycloartane-type triterpenoids(22-23), and three squalene-type triterpenoids(24-26), were isolated and purified from the methanol extract of SPSC by chromatography on silica gel, MCI, Sephadex LH-20, and MPLC. Their structures were elucidated by spectroscopic analyses. All triterpenoids were isolated from SPSC for the first time and 22-O-acetyltripterygic acid A(1) was identified as a new compound. Selected compounds were evaluated for antifungal, antitumor, and anti-inflammatory activities, and compound 1 showed an inhibitory effect on NO production in LPS-induced RAW264.7 cells.

New triterpenoids from the aerial parts of the Uygur medicine Salvia deserta

Phytochemical investigation on the aerial parts of Salvia deserta led to the isolation of eight new pentacyclic triterpenoids including three oleanane- (1 − 3) and five ursane-type (4 − 8) triterpenoids, whose structures were elucidated based on extensive spectroscopic analysis and quantum chemical calculation. Weak immunosuppressive potency was observed for compounds 1, 2, and 4 − 8 via inhibiting the secretion of cytokines TNF-α and IL-6 in LPS-induced macrophages RAW264.7 at 20 μM. In addition, compounds 1, 2, and 4 − 6 exhibited moderate protective activity on t-BHP-induced oxidative injury in HepG2 cells.

Targeted isolation of ursane-type triterpenoids from Tragopogon porrifolius based on Feature-Based Molecular Networking

Targeted isolation of ursane-type triterpenoids from Tragopogon porrifolius based on Feature-Based Molecular Networking

Ilexchinene, a new seco-ursane triterpenoid from the leaves of Ilex chinensis with therapeutic effect on neuroinflammation by attenuating the MAPK/NF-κB signaling pathway

BackgroundNeuroinflammation is a vital factor participating in the whole pathogenetic process of diverse neurodegenerative disorders, but accessible clinical drugs are still insufficient due to their inefficacy and side effects. Triterpenoids are reported to possess potential anti-neuroinflammatory activities, and the leaves of Ilex chinensis are a commonly used herbal medicine containing many ursane-type and oleanane-type triterpenoids. However, the novel triterpenoids from I. chinensis and their underlying mechanisms are still elusive. PurposeTo isolate novel seco-ursane triterpenoids with anti-neuroinflammatory effects from the leaves of I. chinensis and reveal their underlying mechanisms. Study design and methodsThe novel compound was purified by column chromatography and identified by comprehensive spectroscopic experiments. The LPS-induced BV-2 cell model and LPS-induced acute murine brain inflammation model were used to assess the anti-neuroinflammatory effect of the structure and further understand its underlying mechanisms by cell viability, ELISA, Western blot analysis, qRT‒PCR analysis, behavior analysis, H&E staining, and immunofluorescence staining experiments. ResultsIlexchinene is a novel ursane-type triterpenoid with a rare 18,19-seco-ring skeleton that was first isolated and identified from I. chinensis. Ilexchinene evidently reduced the overexpression of inflammatory substances in vitro. A mechanistic study suggested that ilexchinene could decrease NF-κB activation to prevent the formation of the NLRP3 inflammasome in the early neuroinflammatory response; in addition, it could prevent the phosphorylation of ERK and JNK. In vivo, ilexchinene remarkably improved LPS-induced mouse behavioral deficits and diminished the number of overactivated microglial cells. Furthermore, ilexchinene evidently diminished the overexpression of inflammatory substances in mouse brains. A mechanistic study confirmed that ilexchinene markedly suppressed the MAPK/NF-κB pathway to relieve the neuroinflammatory response. ConclusionWe identified a novel 18,19-seco-ursane triterpenoid from the leaves of I. chinensis and revealed its underlying mechanism of neuroinflammation for the first time. These findings suggest that ilexchinene might possess promising therapeutic effects in neuroinflammation.

Triterpenoids from the roots of Sanguisorba officinalis and their Nrf2 stimulation activity

Thirteen undescribed ursane-type triterpenoids, named as sangosides A–M (1–13), including two nor-ursanes, one split ring-ursane and ten ursanes, along with thirty-six known triterpenoids (14–49) were isolated and identified from the roots of Sanguisorba officinalis (Rosaceae). Their structures and absolute configurations were elucidated through spectroscopic data, single-crystal X-ray crystallography and electronic circular dichroism analysis. Their Nrf2 activation activity was evaluated in 293 T cells in vitro. Compounds 2, 5–7, 9–13, 19, 25, 26, 28–39, 41 and 46 showed significant Nrf2 agonistic effects compared with the control group at 25 μM, their cytotoxicity and dose-effect relationship were further studied in a dose-dependent manner. Their structure–activity relationships analysis suggested that the pentacyclic triterpenoids (10, 11, 30–34 and 41) contains two pairs of double bonds on the C & E rings and the ursane-type triterpenoids (25 and 26) with a carbonyl to C-2 and a hydroxyl group at C-3 all showed a considerably Nrf2 activation activity. These results suggested that S. officinalis was worthy of further investigation to find small molecule Nrf2 activators and facilitate their utilization as natural antioxidants.

Sensory-directed isolation and identification of an intense salicin-like bitter compound in infected teas with bird’s eye spot disease

Teas infected with bird’s eye spot disease generally exhibited a lingering and long-lasting, salicin-like bitter taste, which was unpalatable to consumers. Sensory-directed isolation processes have been performed in this study to investigate the salicin-like bitter compounds in infected teas. Results showed that infected teas were extracted using a 70% methanol aqueous solution to produce methanol extract, which was then further separated by sequential solvent extraction (SSE) to obtain dichloromethane extract, which contained the salicin-like bitter compounds. The dichloromethane extract was then isolated by flash chromatography to produce two salicin-like bitter fractions, eluted using 60% and 65% methanol aqueous solution. Finally, these two salicin-like bitter fractions were analyzed by RP-HPLC using 60–68% and 70–75% methanol aqueous solution, respectively, affording the location of the salicin-like bitter compounds in RP-HPLC chromatograms. Moreover, a new ursane-type triterpenoid, camellisin A methyl ester, was identified from infected teas. This study has provided preliminary isolation methods of salicin-like bitter compounds from the infected teas, which were essential to designing targeted debittering strategies for infected teas and improving the quality of the finished tea and the effective utilization of fresh tea leaves.

Pentacyclic triterpenoids from Rubus pirifolius Smith and their chemotaxonomic significance

Sixteen pentacyclic triterpenoids were isolated from Rubus pirifolius Smith by phytochemical methods and subdivided into one new ursane-type triterpenoid, 23-O-galloyltormentic acid (1), and fifteen known pentacyclic triterpenoids (2–16). Their structures were determined by spectroscopic techniques. All these compounds were isolated from R. pirifolius for the first time. The chemophenetic significance of triterpenoids for the genus Rubus is also discussed here briefly.

Bioassay-guided isolation of BACE1 inhibitors from Crataegus pinnatifida

BackgroundCrataegus pinnatifida, functional food has been used in traditional Chinese medicine due to its significant pharmacological effects on various metabolic disorders, neurodegenerative diseases, as well as anti-cancer and anti-viral properties. Despite numerous studies reporting its anti-Alzheimer's disease (AD) activity, there is currently no research on the potential of its extract or constituents to inhibit β-site amyloid precursor protein cleaving enzyme 1 (BACE1). MethodsThe study aimed to evaluate the inhibitory effects of the methanolic extract of C. pinnatifida and its solvent-soluble fractions on cholinesterase and β-site amyloid precursor protein cleaving enzyme 1 (BACE1). Following a bioassay-guided isolation, we identified several compounds, including two triterpenoids [corosolic acid (1), euscaphic acid (2)], β-sitosterol glucoside (3), three flavonoids [astragalin (4), hyperoside (5), isovitexin (6)], and four phenolic acid derivatives [gentisic acid (7), protocatechuic acid (8), p-hydroxybenzoic acid (9), p-coumaric acid (10)] from EtOAc fraction. Additionally, two triterpenoids (3-epicorosolic acid (11) and ursolic acid (12)) and β-sitosterol (13) were isolated from the CH2Cl2 fraction, while isoorientin (14) and hymenoside X (15) were isolated from n-BuOH fraction. Notably, compounds 2, 7, 10, and 14 were reported for the first time from the fruit of C. pinnatifida. ResultsWe observed that 3-epicorosolic acid (11) exhibited promising inhibitory activity against BACE1 with IC50 values of 40.12 ± 1.72 µM. Hyperoside (5) showed moderate activity with IC50 values of 98.50 ± 4.20 µM, while corosolic acid (1) and astragalin (4) displayed mild BACE1 inhibitory activity, with IC50 values of 179.55 ± 1.57 and 192.30 ± 5.14 µM, respectively. We also investigated the structure activity relationship of ursane-type triterpenoids based on in vitro and in silico results, which revealed that the hydroxyl groups position of the triterpenes have a significant impact on their potency. Our findings suggest that α‑hydroxyl group at the C-2 and C-3 positions and the absence of α‑hydroxyl group at the C-19 position are essential for BACE1 inhibitory activity. ConclusionsThis study highlights the significance of the configuration and position of hydroxyl groups and their impact on BACE1 inhibitory activity. The findings of this study could be leveraged to develop novel therapeutic approaches for Alzheimer's disease.

OeBAS and CYP716C67 catalyze the biosynthesis of health-beneficial triterpenoids in olive (Olea europaea) fruits.

The bioactive properties of olive (Olea europaea) fruits and olive oil are largely attributed to terpenoid compounds, including diverse triterpenoids such as oleanolic, maslinic and ursolic acids, erythrodiol, and uvaol. They have applications in the agri-food, cosmetics, and pharmaceutical industries. Some key steps involved in the biosynthesis of these compounds are still unknown. Genome mining, biochemical analysis, and trait association studies have been used to identify major gene candidates controlling triterpenoid content of olive fruits. Here, we identify and functionally characterize an oxidosqualene cyclase (OeBAS) required for the production of the major triterpene scaffold β-amyrin, the precursor of erythrodiol, oleanolic and maslinic acids, and a cytochrome P450 (CYP716C67) that mediates 2α oxidation of the oleanane- and ursane-type triterpene scaffolds to produce maslinic and corosolic acids, respectively. To confirm the enzymatic functions of the entire pathway, we have reconstituted the olive biosynthetic pathway for oleanane- and ursane-type triterpenoids in the heterologous host, Nicotiana benthamiana. Finally, we have identified genetic markers associated with oleanolic and maslinic acid fruit content on the chromosomes carrying the OeBAS and CYP716C67 genes. Our results shed light on the biosynthesis of olive triterpenoids and provide new gene targets for germplasm screening and breeding for high triterpenoid content.

Chemical constituents from the root bark of Morus alba and their chemotaxonomic significance

Research of detailed chemical constituents from the root bark of Morus alba resulted in the isolation of thirteen compounds, including a new triterpenoid (1), three lupane-type triterpenoids (2-4), two tirucallane-type triterpenoids (5, 6), three ursane-type triterpenoids (7–9), one incompletely cyclized triterpene alcohol (10), and three steroids (11–13). In this study, compound 1 was identified as a new triterpenoid. Among these known compounds, compounds 10 and 12 were firstly obtained from the Moraceae family, compound 5 was mentioned from the Morus genus for the first time, and this was the first report of compounds 6 and 13 in Morus alba species. Furthermore, chemotaxonomic significance of these isolates was also discussed in this paper.

In vitro and in silico cytotoxic activities of triterpenoids from the leaves of Aralia dasyphylla Miq. and the assessment of their ADMET properties

From the methanol extract of the leaves of Aralia dasyphylla Miq. (Araliaceae), ten triterpenoids including five ursane-type triterpenoids, ursolic acid (1), 3-O-α-l-arabinopyranosyl ursolic acid (2), ursolic acid 28-O-β-D-glucopyranosyl ester (3), 3-O-[β-D-glucopyranosyl (l→3)]-α-L-arabinopyranosyl ursolic acid (4), and matesaponin 1 (5), and five oleanane-type triterpenoids, elatoside E (6), elatoside F (7), 3-O-[β-D-glucopyranosyl (l→3)]-α-L-arabinopyranosyl oleanolic acid (8), 3-O-α-L-arabinopyranosyl oleanolic acid (9) and oleanolic acid 28-O-β-D-glucopyranosyl ester (10) were isolated. Their structures were elucidated based on 1D-, 2D-NMR and ESI-MS spectra as well as by comparison with those reported in the literature. All isolated compounds were evaluated in vitro for their cytotoxic activities against three human cancer cell lines (HepG2, LU-1 and RD) and in silico by molecular docking studies on human glucose transporter 1 (hGLUT1) protein. The triterpenoids 2, 4, 6, 8 and 9 exhibited good growth inhibition of HepG2 and LU-1 cancer cell lines with IC50 values in the range 1.76 − 7.21 (μM). The oleanane type triterpenoid 8 was the highest cytotoxic compound to inhibit all the tested cancer cell lines with IC50 values of 2.73 ± 0.12, 1.76 ± 0.11, 2.63 ± 0.10 μM, respectively. The in silico molecular docking study results showed that compounds 4 and 6 had the highest binding affinity. Compounds 1–10 were evaluated for their in silico ADMET of absorption, distribution, metabolism, excretion and oral toxicity parameters. Compounds 6, 8, 9 and 10 from A. dasyphylla are potential hGLUT1 inhibitors and worth of further investigation for the prevention or treatment of diabetes and cancer. Communicated by Ramaswamy H. Sarma