Search Results (442)

Background: Cucurbitacin E (CuE), a natural tetracyclic triterpenoid compound extracted from the melon stems of Cucurbitaceae plants, has been reported to exhibit anti-inflammatory and anti-cancer properties, along with the ability to enhance cellular immunity. However, its role and molecular mechanism in regulating lipid metabolism and adipogenesis remain unclear. This study aims to investigate the potential anti-adipogenic and anti-obesity effects of CuE in 3T3-L1 adipocytes. Materials and Methods: 3T3-L1 preadipocytes were cultured and induced to differentiate using a standard adipogenic cocktail containing dexamethasone, 3-isobutyl-1-methylxanthine (IBMX), and insulin (DMI). CuE was administered during the differentiation process at various concentrations. Lipid accumulation was assessed using Oil Red O staining, and cell viability was evaluated via the MTT assay. To determine whether CuE induced apoptosis or necrosis, flow cytometry was performed using annexin V/PI staining. Additional molecular analyses, such as Western blotting and RT-PCR, were used to examine the expression of key adipogenic markers. Results: Treatment with CuE significantly reduced lipid droplet formation in DMI-induced 3T3-L1 adipocytes in a dose-dependent manner, as shown by decreased Oil Red O staining. Importantly, CuE did not induce apoptosis or necrosis in 3T3-L1 cells at effective concentrations, indicating its safety toward normal adipocytes. Moreover, CuE treatment downregulated the expression of adipogenic markers such as PPARγ and C/EBPα at both mRNA and protein levels. Discussion: Our findings suggest that CuE exerts a non-cytotoxic inhibitory effect on adipocyte differentiation and lipid accumulation. This anti-adipogenic effect is likely mediated through the suppression of key transcription factors involved in adipogenesis. The absence of cytotoxicity supports the potential application of CuE as a safe bioactive compound for obesity management. Further investigation is warranted to elucidate the upstream signaling pathways and in vivo efficacy of CuE. Conclusions: Cucurbitacin E effectively inhibits adipogenesis in 3T3-L1 adipocytes without inducing cytotoxic effects, making it a promising candidate for the development of functional foods or therapeutic agents aimed at preventing or treating obesity. This study provides new insights into the molecular basis of CuE’s anti-obesity action and highlights its potential as a natural lipogenesis inhibitor. Full article

Medicinal plants have been used in traditional medicines all over the world to treat human diseases throughout human history. Many of the medicinal plants have frequently become food and nutrition plants. A more sophisticated investigation resulted in discovering numbers of biologically important secondary metabolites of plants. Pentacyclic triterpenoids represent an important group of the plant secondary metabolites that have emerged as having top biological importance. While the most widespread plant triterpenoids and a majority of their semisynthetic derivatives have been reviewed quite often, other plant pentacyclic triterpenoids and their derivatives have so far been less frequently studied. Therefore, attention has been focused on selected pentacyclic triterpenoids, namely on arjunolic acid, asiatic acid, α- and β-boswellic acids, corosolic acid, maslinic acid, morolic acid, moronic acid, and the friedelane triterpenoids, and on different derivatives of the selected triterpenoids in this review article. A literature search was made in the Web of Science for the given keywords, covering the required area of secondary plant metabolites and their semisynthetic derivatives starting in 2023 and ending in February 2025. The most recently published findings on the biological activity of the selected triterpenoids, and on the structures and the biological activity of their relevant derivatives have been summarized therein. Even if cytotoxicity of the compounds has mainly been reviewed, other biological effects are mentioned if they appeared in the original articles in connection with the selected triterpenoids and their derivatives, listed above. A comparison of the effects of the parent plant products and their derivatives has also been made. Full article

Lupeol, a naturally occurring pentacyclic triterpenoid widely distributed in various medicinal plants, has attracted significant attention due to its diverse pharmacological properties. In this study, we report the synthesis and structural modification of 14 lupeol derivatives through selective functionalizations at C3 and C30 positions of the lupane skeleton, via the sequential chemoselective introduction of carbonyl moieties and the addition of organometallics. Emphasis has been given to the stereoselective alkylation at C3 using a range of carbanions, including organolithiums, organomagnesiums and organoindiums. The C30 position was modified through oxidative pathways to introduce several functionalities. Full article

Sanguisorba tenuifolia is a wild plant of the genus Sanguisorba officinalis. This study aimed to investigate the regulatory effect of the dichloromethane fraction of Sanguisorba tenuifolia on LPS-induced inflammatory responses in RAW264.7 cells, thereby providing a new scientific basis for the medicinal development of Sanguisorba tenuifolia. Initially, we used 75% ethanol to crudely extract the roots of Sanguisorba tenuifolia, followed by fractional extraction using dichloromethane (CH₂Cl₂), ethyl acetate (EtOAc), butanol (BuOH), and distilled water (DW) as solvents. By measuring the inhibitory effects of each fractionated extract on NO production, we determined that the SCE (Dichloromethane fraction of Sanguisorba tenuifolia) exhibited the most potent anti-inflammatory activity, leading to its progression to the next experimental stage. Subsequently, we evaluated the effects of SCE on cell viability and LPS-induced inflammatory cytokine secretion in RAW264.7 cells. A rat model of reflux esophagitis was also used to validate the in vivo anti-inflammatory effects of SCE. Additionally, we utilized UPLC/MS-MS to identify and analyze the active components of SCE. The results indicated that SCE could effectively inhibit LPS-induced cellular inflammation by modulating the p38/ERK/MAPK and NF-κB signaling pathways, and also reduced the damage of the esophageal mucosa in rats with reflux esophagitis. UPLC/MS-MS analysis of SCE identified 423 compounds, including 12 active ingredients such as triterpenoids, phenols, and steroids. This discovery not only provides scientific support for the potential of Sanguisorba tenuifolia as an anti-inflammatory agent but also lays the groundwork for the development of new therapeutics for the treatment of inflammatory diseases. Full article

Plant triterpenoids are structurally diverse specialized metabolites with significant ecological, medicinal, and agricultural importance. Oxidosqualene cyclases (OSCs) catalyze the crucial cyclization step in triterpenoid biosynthesis, generating the fundamental carbon skeletons that determine their structural diversity and biological functions. Genome-wide identification of OSC genes was performed using bioinformatics tools, including HMMER and BLASTP, followed by phylogenetic analysis, gene structure analysis, conserved domain and motifs identification, cis-regulatory element prediction, protein–protein interaction analysis, and expression profiling using publicly available transcriptome data from UV-B treated A. annua six-week-old seedlings. We identified 24 AaOSC genes, classified into CAS, LAS, LUS, and unknown subfamilies. Phylogenetic analysis revealed evolutionary relationships with OSCs from other plant species. Gene structure analysis showed variations in exon–intron organization. Promoter analysis identified cis-regulatory elements related to light responsiveness, plant growth and development, hormone signaling, and stress response. Expression profiling revealed differential expression patterns of AaOSC genes under UV-B irradiation. This genome-wide characterization provides insights into the evolution and functional diversification of the OSC gene family in A. annua. The identified AaOSC genes and their regulatory elements lay the foundation for future studies aimed at manipulating triterpenoid biosynthesis for medicinal and biotechnological applications, particularly focusing on enhancing stress tolerance and artemisinin production. Full article

The growing demand for sustainable phytosanitary products has renewed interest in botanical insecticides as viable pest control tools. Amid rising demand for sustainable crop protection, this study screens Cerrado plants traditionally used in medicine to pinpoint bioactive compounds that could replace synthetic pesticides. These products have complex chemical compositions, with compounds acting synergistically through multiple mechanisms, including oral (ingestion of allelochemicals) and topical (contact of allelochemicals on epidermis) toxicity. This study evaluated the oral and topical toxicity of aqueous leaf extracts from Anemopaegma arvense (AEAa), Coussarea hydrangeifolia (AECh), Tapirira guianensis (AETg), and Duguetia furfuracea (AEDf) on Plutella xylostella. In the oral toxicity test, first-instar larvae were fed treated diets until pupation, with biological parameters monitored until adulthood. The extracts caused an average of 45% larval mortality, reduced pupal duration, and lowered egg production. In the topical toxicity test, only the extract from T. guianensis showed significant effect (p = 0.0171), causing 30% mortality in third-instar larvae. The other extracts showed no significant topical toxicity, and AECh showed no lethal or sublethal effects at all. Phytochemical screening was assessed by quantitative spectrophotometric assays, and semi-quantitative classical colorimetric tests. Major compound classes identified were tannins, flavonoids, triterpenoids, coumarins, and alkaloids. These findings highlight the potential of the evaluated plant extracts for pest control, particularly via ingestion, while also underscoring the need for further studies to better understand their efficacy and mechanisms of action. Full article

The medicinal plant Siraitia grosvenorii produces sweet-tasting cucurbitane-type mogrosides from the atypical triterpenoid precursor 2,3,22,23-dioxidosqualene (SDO), rather than the conventional 2,3-oxidosqualene (SQO). However, SDO formation in mogroside biosynthesis remains unclear. Here, we systematically characterized two squalene epoxidases (SgSQE1/2) through phylogenetic analysis, heterologous expression, subcellular localization, qRT-PCR, and alanine scanning studies. Both SgSQE1 and SgSQE2 exhibited squalene epoxidase activity, with SgSQE2 catalyzing SDO formation in yeast. We identified two critical catalytic residues governing epoxidation efficiency through mutagenesis. Both SgSQEs were localized in the ER, while expression profiling revealed a similar trend between SgSQE2 expression and mogroside accumulation in fruits. In our study, we developed a genomically engineered strategy for heterologous SQE characterization. These results lay the foundation for the SQE catalytic reaction involved in mogroside biosynthesis, and provide gene resources and a feasible approach for triterpene metabolic engineering. Full article

Structural characterization of natural products in complex herbal extracts remains a major challenge in phytochemical analysis. In this study, we present a novel post-acquisition data-processing strategy—key ion diagnostics–neutral loss filtering (KID-NLF)—combined with ultra-high-performance liquid chromatography–quadrupole time-of-flight mass spectrometry (UPLC-Q/TOF-MS) for systematic profiling of the medicinal plant Terminalia chebula. The strategy consists of four main steps. First, untargeted data are acquired in negative electrospray ionization (ESI⁻) mode. Second, a genus-specific diagnostic ion database is constructed by leveraging characteristic fragment ions (e.g., gallic acid, chebuloyl, and HHDP groups) and conserved substructures. Third, MS/MS data are high-resolution filtered using key ion diagnostics and neutral loss patterns (302 Da for HHDP; 320 Da for chebuloyl). Finally, structures are elucidated via detailed spectral analysis. The methanol extract of T. chebula was separated on a C18 column using a gradient of acetonitrile and 0.1% aqueous formic acid within 33 min. This separation enabled detection of 164 compounds, of which 47 were reported for the first time. Based on fragmentation pathways and diagnostic ions (e.g., m/z 169 for gallic acid, m/z 301 for ellagic acid, and neutral losses of 152, 302, and 320 Da), the compounds were classified into three major groups: gallic acid derivatives, ellagitannins (containing HHDP, chebuloyl, or neochebuloyl moieties), and triterpenoid glycosides. KID-NLF overcomes key limitations of conventional workflows—namely, isomer discrimination and detection of low-abundance compounds—by exploiting genus-specific structural signatures. This strategy demonstrates high efficiency in resolving complex polyphenolic and triterpenoid profiles and enables rapid annotation of both known and novel metabolites. This study highlights KID-NLF as a robust framework for phytochemical analysis in species with high chemical complexity. It also paves the way for applications in quality control, drug discovery, and mechanistic studies of medicinal plants. Full article

Bluehead gilia or bluefield gilia (Gilia capitata Sims, Polemoniaceae) is an annual herbaceous plant widely distributed in the western regions of North America but cultivated as an ornamental flower in various regions to support pollinators. The comprehensive chemical composition of this plant has not been previously reported. Essential oils (EOs) were obtained by hydrodistillation from different parts of the gilia plants. The yield of EOs ranged from 0.42 to 1.97 mL/kg, with the largest yields being obtained from the seeds; smaller yields obtained from the flowers, fruits, and leaves; and the lowest quantity obtained from the stems, roots, and shells. Using the GC-MS method, we identified 116 compounds. Hexahydrofarnesyl acetone was dominant in most parts of the G. capitata. The EO of flowers was dominated by hexahydrofarnesyl acetone (19.1%), fruits by hexahydrofarnesyl acetone (18.2%), seeds by hexahydrofarnesyl acetone (15.2%), fruit by (+)-epi-bicyclosesquiphellandrene (15.4%), leaves by phytol (23.3%), stems by isomanool (8.3%), and roots by (-)-myrtenol (25.7%). Triterpenoid saponins were identified, and 21 compounds were quantified (by HPLC). Saponin levels were high in aerial parts (excluding stems) and the lowest in plant roots. Based on the contents of EO and saponins, the aerial parts of G. capitata may have pharmaceutical properties, but saponins might be the main value of G. capitata. Full article

The genus Clinopodium L. (Lamiaceae) comprises perennial herbaceous plants known for their diverse pharmacological properties. Clinically, these plants are mainly used for the treatment of various hemorrhagic disorders. This review systematically summarizes the research progress on the chemical composition, pharmacological activity, quality control, toxicity, and pharmacokinetics of the genus Clinopodium by searching Google Scholar, Scopus-Elsevier, Wiley, Springer, Taylor & Francis, Medline, Web of Science, CNKI, Weipu, Wanfang, and other academic databases over the last decade (March 2015–February 2025). To date, more than one hundred and thirty structurally diverse secondary metabolites have been isolated and identified from this genus, including flavonoids, triterpenoid saponins, diterpenoid glycosides, lignans, and phenylpropanoids. In addition, numerous volatile oil constituents have been identified in over forty species of the genus Clinopodium. Crude extracts and purified compounds exhibit a variety of pharmacological activities, including hemostatic, anti-myocardial cell injury, cardiovascular protective, anti-inflammatory, antimicrobial, antitumor, hypoglycemic, and insecticidal properties. However, current quality assessment protocols in the genus Clinopodium are limited to flavonoid- and saponin-based evaluations in C. chinense (Benth.) O. Kuntze and C. gracile (Benth.) O. Matsum. Further research is needed to elucidate the pharmacological mechanisms, toxicity, and possible interactions with other drugs. Therefore, the genus Clinopodium has a wide range of biologically active compounds with potential applications in drug development for hemostasis and cardiovascular protection. Nevertheless, there is also an urgent need to establish standardized methodologies to address uncertainties concerning the safety and efficacy of injectable extracts or compounds. Full article

Plant-derived foods have gained recognition for their health-promoting values, which are largely attributed to bioactive compounds such as phytosterols and triterpenoids. This study aimed to analyze the content of these compounds in the fruit of black elder (elderberry) Sambucus nigra L. and in commercially available food products, including jam, juice, syrup and wine. An additional objective was to compare the phytosterol and triterpenoid profiles of fruits and fruit cuticular waxes from wild and cultivated elderberry (cultivar Haschberg), ornamental elderberry (S. nigra f. porphyrophylla cultivar Black lace “Eva”), and red elderberry (S. racemosa). Qualitative and quantitative determinations were performed using gas chromatography coupled with mass spectrometry (GC-MS). This study provides a detailed characterization of triterpenoids in black and red elderberries, revealing a complex composition of oleanane-, 18-oleanane-, ursane-, lupane- and taraxastane-type compounds. Elderberry fruits were found to be rich sources of phytosterols (ranging from 0.54 mg/g d.w. in cultivated elderberry cv. Haschberg to 0.96 mg/g in ornamental elderberry) and triterpenoids (from 1.41 mg/g d.w. in S. racemosa to 13.81 mg/g in ornamental elderberry). Among the processed products, jam contained the highest concentration of these compounds (a total of 340 µg/g) and wine contained the lowest (0.87 µg/mL). Furthermore, the results suggest that certain features of the triterpenoid profile in S. nigra and S. racemosa may hold chemotaxonomic significance for the Sambucus genus. Full article

Melanoma is one of the most aggressive forms of skin cancer, characterized by high metastatic potential and resistance to conventional therapies. Natural compounds, particularly terpenoids, have gained attention for their chemopreventive potential and anticancer properties. These plant-derived compounds exhibit diverse biological activities, e.g., cell viability and proliferation inhibition, apoptosis induction, cell cycle regulation, and immune system modulation. The review evaluates the current state of the art on the chemopreventive and anticancer activity of lupane- (betulinic acid), oleanane- (oleanolic acid, β-amyrin, escin, hederagenin, glycyrrhetinic acid), and ursane-type (ursolic acid, asiatic acid, madecassic acid, α-amyrin) triterpenoids in melanoma, highlighting their mechanisms of action, therapeutic potential, and challenges in clinical application. Full article

Phytochemical investigation and bioactivity evaluation of terpenoids from the Croton species were conducted. The chemical composition of C. sylvaticus was explored using chemical phytochemical screening techniques and dereplication of ¹³C NMR data using MixONat software (v. 1.0.1). Natural products with diverse structural features were identified in the dichloromethane extract of trunk bark. These include monoterpenoids, sesquiterpenoids, diterpenoids, triterpenoids, along with other minor metabolites, such as steroids, saponins, and fatty acids. Further purification of this extract led to the isolation of three major secondary metabolites, acetyl aleuritolic acid, caryophyllene oxide, and phytol. These secondary metabolites were reported for the first time in C. sylvaticus. The isolated compounds were structurally compared to known anticancer terpenoids previously identified in two other Congolese Croton species. Through molecular docking studies, the predicted binding affinities of the identified compounds were assessed, and possible structure–activity relationships (SAR) were proposed. Two structurally characterized receptors—the human androgen receptor (HAR, PDB ID: 1E3G) and hypoxia-inducible factor 1-alpha (HIF-1α, PDB ID: 3KCX), known for their involvement in cancer-related pathways, were used for molecular docking investigations. Among the tested compounds, 1, 2, 3, and 12 were identified as having strong-to-moderate predicted binding affinities to both protein targets, along with favorable drug-like properties according to the ADMET analysis. This investigation could justify the use of Croton plants in traditional medicine. In addition, our study highlights the potential of the Congolese Croton species as sources of bioactive secondary metabolites. Full article

Background: Celastrol, a pentacyclic triterpenoid active component isolated from the root bark of the traditional medicinal plant Tripterygium wilfordii, displays significant anti-inflammatory, antioxidant, and immunomodulatory properties. However, its clinical application remains limited due to inadequate bioavailability. Methods: Regarding these issues, we innovatively developed a novel peanut cultivar (cel-peanut) enriched with celastrol through distant hybridization combined with metabolomics screening. Guided by the research concept of “natural anti-inflammatory diets for metabolic disease management”, we established a high-fat diet-induced ApoE^−/− atherosclerotic mouse model to systematically evaluate the anti-atherosclerosis effects and mechanisms of cel-peanut. Results: Our results revealed that cel-peanut significantly reduced serum levels of triglycerides (TGs) and increased high-density lipoprotein cholesterol (HDL-C). Concurrently, cel-peanut markedly decreased the atherosclerotic lesion area and enhanced collagen content within plaques. Mechanistic investigations demonstrated that cel-peanut reduced serum malondialdehyde (MDA) levels and suppressed the concentration of pro-inflammatory cytokine IL-6 in atherosclerotic lesions. Furthermore, cel-peanut promoted intestinal health by modulating the composition and functionality of gut microbiota, thereby attenuating atherosclerosis progression. Conclusions: Overall, these findings indicate that cel-peanut exerts therapeutic effects against atherosclerosis through its anti-inflammatory, antioxidant, and gut microbiota-modulating properties. This study proposes a novel nutritional intervention strategy for atherosclerosis and provides a promising adjuvant strategy for clinical atherosclerosis treatment. Full article

Cornus officinalis, as a medicinal plant, is rich in biologically active components, including polysaccharides, flavonoids, triterpenoids, and organic acids, which offer a variety of health benefits and significant potential for development in the food and pharmaceutical industries. Cornus officinalis polysaccharides (COPs) are considered among the primarily functional ingredients of the plant and are abundant in bioactivities. The present paper reviews the research conducted on the extraction, purification, structural properties, and biological activities of COPs. It also provides an overview of future development prospects, with a view to offering reference material for further development and research on COPs. In addition, the paper makes recommendations regarding theoretical preparations for the exploration of the application potential of COPs in the food industry and various other industrial fields. Full article