Search Results (49)

Qualitative liquid chromatography–mass spectrometry (UHPLC–MS) and NMR analysis of the diethyl ether extract of the aerial part of Eryngium dichotomum plant belonging to the Apiaceae family led to the putative identification of phenolic acids, flavonoid glycosides, triterpenoid saponins, fatty acids, and oxylipins. The tentative identification of several secondary metabolites by UHPLC–MS analysis was further confirmed by compound isolation and comprehensive spectroscopic characterization using 2D NMR and mass spectrometry, leading to the elucidation of seven compounds, a mixture of two hydroxy fatty acids, namely (Z,E)-13-hydroxyoctadeca-9,11-dienoic acid (1) and (E)-13-hydroxyoctadec-11-enoic acid (2); two C17 polyacetylenes, (E)-heptadeca-1,10-dien-4,6-diyne-3,8,9-triol (3), and falcarinol ((Z)-1,9-heptadeca-1,9-dien-4,6-diyn-3-ol) (4); glycerol monopalmitate (5) and two flavonoid glycosides, kaempferol 3-O-β-D-glucopyranosyl-(1 → 6)-O-β-D-galactopyranoside (6), and quercetin 3-O-β-D-glucopyranosyl-(1 → 6)-O-β-D-galactopyranoside (7). Furthermore, the antioxidant activity of the n-butanol and the diethyl ether extracts of the species were evaluated using the DPPH, FRAP, and ABTS assays. In addition, the anticancer activity of the major falcarinol-type polyacetylene was assessed against A375 human melanoma cells. Full article

Background: Medicinal plants used in traditional Mexican medicine represent a valuable source of bioactive compounds with potential anticancer activity. Beyond cytotoxic potency, selectivity toward cancer cells over normal cells is a critical toxicological parameter for identifying safer therapeutic candidates. This study aimed to evaluate the selective cytotoxic and antiproliferative effects of extracts from four Mexican medicinal plants across human cancerous and non-cancerous cell lines. Methods: Hexane, acetone, and methanolic extracts from Semialarium mexicanum, Eryngium heterophyllum, Piper auritum, and Cochlospermum vitifolium were evaluated in a panel of human cancer cell lines and non-tumoral models, including primary human uterine fibroblasts (HUFs). Cytotoxicity was assessed after 48 h of treatment using increasing extract concentrations, and selectivity indices were calculated. Cell cycle distribution and nuclear morphology analyses were performed to explore antiproliferative effects. Additionally, GC–MS-based chemical profiling was conducted on selected extracts to obtain a tentative characterization of major bioactive constituents. Results: The extracts exhibited differential cytotoxic profiles depending on plant species and solvent polarity. The hexane extract of Semialarium mexicanum showed the highest cytotoxic potency and selectivity toward cervical cancer cells, with half-maximal inhibitory concentration (IC₅₀); values of 15.9 ± 1.8 µg/mL and 17.2 ± 2.8 µg/mL in HeLa and SiHa cells, respectively, and selectivity index (SI) values > 5 when compared with primary human uterine fibroblasts (HUF). Extracts of Eryngium heterophyllum displayed moderate cytotoxic activity (IC₅₀ = 20–30 µg/mL in HeLa cells) with intermediate selectivity, whereas Cochlospermum vitifolium showed solvent-dependent effects and Piper auritum exhibited limited cytotoxicity. Cell cycle analysis revealed an increased sub-G1 population, and nuclear morphology assays demonstrated chromatin condensation and fragmentation in cancer cells, supporting an antiproliferative mechanism. GC–MS analysis of the hexane extract of Semialarium mexicanum suggested the presence of triterpenoid-related and other lipophilic compounds potentially associated with its selective anticancer activity. Conclusions: These findings provide in vitro evidence of selective anticancer activity of Mexican medicinal plant extracts and establish a basis for future mechanistic studies medicinal plant extracts and lay the groundwork for future mechanistic investigations. Full article

The genus Eryngium (Apiaceae Lindley) includes over 250 species distributed worldwide. In Michoacán, Mexico, 22 species have been recorded, among them E. beecheyanum (EB), E. heterophyllum (EH), and E. mexiae (EM), which are commonly used in traditional medicine. However, our understanding of their biology and chemical composition remains limited. This study evaluated the phytochemical profile, as well as the antioxidant and hypoglycemic activities of leaves and roots from these three wild species. Flavonoids, phenolic compounds, and sterols were analyzed using high-performance thin-layer chromatography (HPTLC). Antioxidant activity was assessed in vitro using ABTS·+ and DPPH· assays, while antihyperglycemic activity was determined by α-glucosidase inhibition. Six metabolites were detected across all species, with organ-dependent variation. In the leaves, EB showed a high rutin content (241.3 µg/mL), EM contained catechin (137.3 µg/mL), and EH exhibited β sitosterol (315.9 µg/mL). Both leaves and roots of all species showed notable antioxidant activity. EB leaves exhibited inhibition rates of 69.5% and 85.5% in ABTS•+ and DPPH• assays, respectively (IC₅₀ = 22 and 23.47 µg/mL). EH roots showed higher activity, reaching 89.4% and 78.2% inhibition (IC₅₀ = 21.8 and 20.72 µg/mL). Conversely, EM organs exhibited relatively lower radical scavenging capacities; however, EM leaves showed the highest α-glucosidase inhibition (49.1%). Overall, these results suggest that roots generally possess stronger antioxidant potential than leaves, whereas EM leaves stand out for their enzymatic inhibitory activity. These findings highlight the diverse phytochemical and bioactive profiles of E. beecheyanum, E. heterophyllum, and E. mexiae. Full article

Background/Objectives: Ethnopharmacological studies indicates that plant-based infusions are usually consumed by some people in advanced stages of diabetes, that is, when poor pancreatic dysfunction coexists with insulin resistance (IR). Current treatments aim to prevent β-cell deterioration by promoting improved insulin function and/or enhancing pancreatic function to avoid the development of hyperglycemia. Therefore, Croton guatemalensis (Cg) and Eryngium cymosum (Ec), two medicinal plants with potential insulin-sensitizing effects described in previous studies, were assessed on parameters related to IR and on the architecture of pancreatic islets in rats exposed to a syrup containing 8.8% glucose and 5.2% fructose in drinking water. Methods: After an 8-week exposure to syrup, plant extracts were orally administered for four weeks at traditional doses (Cg: 30 mg/kg body weight; Ec: 470 mg/kg body weight). Body weight, food intake, and drinking water consumption were monitored. At the end of the study, IR surrogate indices were calculated, metabolic assays were performed, and white adipose tissues, liver, gastrocnemius muscle, and pancreas were extracted in fasting and postprandial state for lipid quantification (liver), measurement of Akt phosphorylation status by western blot (liver and muscle), and determination of insulin content by immunohistochemistry (pancreatic islets). Results: Both species decreased hepatic lipid content without promoting significant changes in visceral adiposity. Although they did not improve surrogate markers of fasting IR, both ameliorated insulin function, glucose tolerance, and restored the glucose-stimulated insulin secretory response in metabolic tests. Cg restored the insulin signaling response in liver and muscle, whereas Ec only did so in muscle. Moreover, both appeared to enhance insulin pancreatic content or restore pancreatic islet population. Conclusions: Cg and Ec can reverse the IR phenotype in a tissue-specific manner and improve pancreatic function. Full article

Eryngium foetidum L. belongs to the Apiaceae family and is a perennial herb. The entire plant is rich in essential oils, which have a distinctive aroma similar to cilantro. This plant exhibits significant biological activity and possesses characteristics such as disease resistance and antimicrobial properties, showing great potential in medical and food applications. Additionally, its essential oil has substantial commercial value. Mitochondria play a crucial role as organelles within plant cells; however, the mitochondrial genome of E. foetidum remains underexplored. To fill this research gap, we conducted sequencing and assembly of the mitochondrial genome of E. foetidum, aiming to uncover its genetic mechanisms and evolutionary trajectories. Our investigation reveals that the mitochondrial genome of E. foetidum is a circular structure, similar to that of other species, with a length of 241,660 bp and a GC content of 45.35%, which is within the range observed in other organisms. This genome encodes 59 genes, comprising 37 protein-coding sequences, 18 tRNA genes, and 4 rRNA genes. Comparative analysis highlighted 16 homologous regions between the mitochondrial and chloroplast genomes, with the longest segment spanning 992 bp. By analyzing 37 protein-coding genes (PCGs), we identified 479 potential RNA editing sites, which induce the formation of stop codons in the nad3 and atp6 genes, as well as start codons in the ccmFC, atp8, nad4L, cox2, cox1, and nad7 genes. Meanwhile, the genome shows a preference for A/T bases and A/T-ending codons, with 32 codons having a relative synonymous codon usage (RSCU) value greater than 1. The codon usage bias is relatively weak and mainly influenced by natural selection. Most PCGs are under purifying selection (Ka/Ks < 1), while only a few genes, such as rps7 and matR, may be under positive selection. Phylogenetic analysis of mitochondrial PCGs from 21 species showed E. foetidum at the basal node of Apiaceae, consistent with the latest APG angiosperm classification and chloroplast genome-based phylogenetic relationships. In summary, our comprehensive characterization of the E. foetidum mitochondrial genome not only provides novel insights into its evolutionary history and genetic regulation but also establishes a critical genomic resource for future molecular breeding efforts targeting mitochondrial-associated traits in this economically important species. Full article

Skin disorders are common and often chronic conditions with significant therapeutic challenges. Limitations of conventional treatments, such as adverse effects and antimicrobial resistance, have increased interest in plant-based alternatives. This article presents the phytochemical composition and pharmacological potential of several medicinal plants traditionally used in the treatment of skin diseases, including Rubus vulgaris, Plantago major, Artemisia terrae-albae, and Eryngium planum. Based on an analysis of scientific literature, the presence of bioactive compounds—including flavonoids, anthocyanins, phenolic acids, tannins, and sesquiterpenes—is summarized, along with their antioxidant, anti-inflammatory, and antimicrobial effects. Emphasis is placed on the correlation between traditional ethnomedicinal applications and pharmacological mechanisms. The findings support the potential of these species as sources for dermatological phytotherapeutics. Further research is needed to standardize active constituents, assess safety, and conduct clinical validation. Full article

The sustainable production of plant bioactive compounds is increasingly important as natural habitats decline. This study investigates whether in vitro cell cultures of Eryngium planum, Lychnis flos-cuculi, and Kickxia elatine can serve as alternative sources of biologically active biomass with antimicrobial and anti-Acanthamoeba properties. Callus cultures were established under optimized and controlled conditions, and metabolomic profiling was completed using UPLC-HRMS/MS. In silico analysis, using a molecular docking approach, was applied to understand the interaction between target compounds and Acanthamoeba profilin and identify possible targets for antimicrobial properties. Untargeted metabolomic analysis confirmed the presence of valuable compounds in the callus cultures of the studied species. Biological activity was assessed through anti-Acanthamoeba and antimicrobial assays. Lychnis flos-cuculi and Kickxia elatine callus extracts showed significant inhibitory effects on Acanthamoeba trophozoites, with 87.5% and 80.1% inhibition at 10 mg/mL, respectively. In contrast, E. planum extract stimulated amoebic growth. The anti-Acanthamoeba activity correlated with the presence of ferulic acid and p-coumaric acid in L. flos-cuculi extract, and acteoside in K. elatine extract. Antibacterial testing revealed moderate activity of E. planum and K. elatine extracts against Staphylococcus spp., while Gram-negative bacteria and fungi were largely resistant. These findings highlight the potential of in vitro cultures—particularly those from L. flos-cuculi and K. elatine—as promising, sustainable sources of anti-Acanthamoeba and antimicrobial agents, warranting further investigation into their pharmacologically active constituents. Full article

The potato tuber moth Phthorimaea operculella is a serious boring pest of potato. An integrated ecological approach to sustainable pest management is necessary for the control of this species. This study investigated the effects of minced leaves and plant extracts of Eryngium foetidum on the oviposition behavior of PTM females. The behavioral regulatory components of PTM females in response to the extracts were determined using chemical analyses and electrophysiological tests. Individual electroantennographic detection (EAD)-active compounds and mixtures were evaluated using oviposition choice bioassays. The results indicate that minced leaves had a deterrent effect on oviposition. The extracts at low dosages had an attraction effect, while high dosages had a repellent effect on the oviposition of PTM adult females. The dominant compounds of the extracts were trans-2-dodecenal and trans-2-tridecenal and showed EAD activity. trans-2-dodecenal, trans-2-tridecenal and their mixtures showed significant oviposition-repellent effects toward the PTM. The oviposition stimulation indices (OSIs) of trans-2-dodecenal and trans-2-tridecenal were −100% and −94.03% at 10 mg/mL, respectively. The OSIs of mixtures at natural ratios of 10 mg/mL and 5 mg/mL were −95.11% and −90.96%, respectively. The results can be used for the further development of ecological control strategies for this pest species. Full article

Species of the genus Eryngium L. of the Apiaceae family are successfully used in folk medicine in various countries worldwide, but they are hardly implemented in official medicinal and pharmaceutical practices. Therefore, it is advisable to conduct phytochemical and pharmacological research in E. planum L. herb extracts to develop and implement new phytomedicines based on this raw material. Purified water, and 40% and 70% ethanol were used for obtaining soft extracts. A total of seven hydroxycinnamic acids, six flavonoids, and three tannin metabolites were identified and quantified in the E. planum extracts by HPLC. These extracts were characterized as practically non-toxic medicines (V toxicity class, LD₅₀ > 5000 mg/kg). The hepatoprotective activity of the E. planum extracts has been established. They were affected to reduce serum thiobarbituric acid (TBA) levels by 29.3%, 31.5%, and 32.4%, respectively, compared to untreated animals and in liver homogenate by 59.5%, 65.4%, and 66.8%, respectively. The alanine transaminase (ALT) activity decreased by 26.9%, 30.8%, and 33.8%, respectively. The aspartate transaminase (AST) activity decreased by 23.9%, 25.7%, and 30.5%, respectively. The sedative activity of E. planum extracts was studied for the first time. The 70% ethanol extract has the most pronounced sedative effect due to a significant decrease in motor activity (by 2.4 times compared to the control group) in the «Open Field test» and reduction in concern in the «Cube tests», «Raised Cross Maze», and “Black and White Camera”. This extract also demonstrates a moderate antibacterial effect against gram-positive microorganisms (8–10 mm), including staphylococci, streptococci, and bacilli. These results provide a foundation for further preclinical and clinical studies of the dry extract of E. planum herb (extractant: 70% ethanol) to integrate it into modern medical practice and develop new supplements. Full article

Eryngium foetidum is a promising crop for diversifying agriculture and supporting sustainable development through nutrient-rich unconventional foods. However, limited knowledge about its seed viability and post-harvest management hinders its commercial scalability. This study explored the effects of post-harvest resting treatments on seed quality and vigor, assessing seeds from whole plants, aerial parts, floral spikes, and umbels after 7 and 14 days of resting. Key metrics included seed yield, purity, moisture content, germination, and vigor were assessed. Results showed that seeds retained on whole plants achieved the highest physical purity (72.2%). Seeds that rested for 7 days exhibited higher germination rates (59%), faster germination (mean germination time of 17 days), and improved seedling establishment (70% emergence) compared to seeds that rested for longer durations. These outcomes highlight the importance of specific post-harvest conditions for optimizing assimilate redistribution enhancing seed quality and seedling performance. This research bridges a critical gap in post-harvest management knowledge for E. foetidum, offering practical insights to improve cultivation practices and promote its adoption as a strategic crop. The findings align with global efforts to advance sustainable and innovative agroecosystems. Further studies under diverse environmental conditions and harvest times are recommended to validate these results and support large-scale implementation. Full article

This study aimed to investigate the nutritional value and potential for herbal tea production of two species Eryngium. The analysis includes the quantification of lipids, proteins, organic acids (HPLC-MS), sugars (HPLC-MS), phenolic compounds (HPLC-MS-MS), volatile compounds (GC-MS), fatty acids (GC-MS), amino acids (HPLC-MS-MS), some minerals (ICP-MS), total phenolic content, and antioxidant activities of Eryngium billardieri flowers (EBF) and thorns (EBT), as well as Eryngium planum flowers (EPF) and thorns (EPT). The results indicate that EPF and EPT exhibit elevated levels of protein (11.2%) and sugars (224.2 mg/gdw), respectively. Whereas, EBF demonstrates a higher concentration of amino acids (7.13 mg/100 gdw) and total phenolic content (19.25 mg GAE/gdw), which correlates with pronounced antioxidant properties. Oleic acid was notable in E. billardieri, while linoleic and α-linolenic acids were predominant in E. planum. Furthermore, essential minerals such as Fe, Mn, Zn, Mg, K, Ca, and P were also determined. Sensory evaluations by panelists confirmed that tea derived from the studied species possesses favorable taste and flavor profiles, attributed to its rich volatile compounds. These findings highlight the nutritional value of Eryngium species as a functional ingredient in the food industry. Additionally, their antioxidant properties suggest promising uses in pharmaceutical applications. Full article

Melanoma is a malignant neoplasm of melanocytes in the skin, and its occurrence is increasing annually. Plant-based products contain active compounds with low toxicity and are accessible alternatives for melanoma cancer treatment. The biotechnology approach for obtaining plant-based products provides continuity and allows the high-yield production of phytochemically uniform biomass. The callus biomass of Eryngium planum L. and Lychnis flos-cuculi L. was induced on Murashige and Skoog (MS) medium supplemented with growth regulators. A combination of 3.0 mg/L of 3,6-dichloro-2-methoxybenzoic acid (dicamba) and 0.3 mg/L of 1-phenyl-3-(1,2,3-thiadiazol-5-yl)urea—(thidiazuron) was used to obtain E. planum callus. Meanwhile, the callus of L. flos-cuculi was cultivated on MS medium with 2.0 mg/L of 2,4-dichlorophenoxyacetic acid (2,4-D). Methanolic extracts (EpME and LFcME), including 40% MeOH fractions (Ep40MF and LFc40MF) and 80% MeOH fractions (Ep80MF and LFc80MF), of E. planum and L. flos-cuculi cell biomass were prepared. Their cytotoxicity activity was assessed in human fibroblast cells (MRC-5) and human melanoma cells (MeWo) by direct cell counting and 3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide (MTT) assay. Qualitative analyses using thin-layer chromatography and UPLC-HRMS/MS chromatograms showed the presence of phenolic acids and saponins within the extracts and fractions of both cell biomasses. LFc80MF and Ep80MF showed the strongest toxicity against the MeWo cell line, with IC₅₀ values of 47 ± 0.5 and 52 ± 4 μg/mL after 72 h of treatment. EpME and LFcME had IC₅₀ values of 103 ± 4 and 147 ± 4 µg/mL, respectively. On the other hand, Ep40MF and LFc40MF were less toxic against the MeWo cell line compared to the extracts and 80% MeOH fractions, with IC₅₀ values of 145 ± 10 and 172 ± 7 µg/mL. This study suggests that the obtained extracts and fractions of E. planum and L. flos-cuculi cell biomass potentially possess significant cytotoxic activity against MeWo cells, which work in a time and dose-dependent manner. Although the extracts and 80% MeOH fractions were more potent, the 40% MeOH was shown to be more selective against the MeWo than the control MRC-5 cells. Full article

Transfer factors (TFs) are widely used tools for assessing the uptake of radionuclides by plants. The literature contains numerous studies on TFs in tropical and temperate climates; however, the existing data on TFs in arid and semi-arid climates are very scarce. Furthermore, the current trend in nuclear energy expansion in countries with this type of climate necessitates knowledge of the mechanisms of radionuclide incorporation by plants as well as the TF values. For this reason, this work investigates the TFs of ²³⁸U and ²²⁶Ra in plants in a study area during the summer period under conditions equivalent to a semi-arid climate. The selected plants were Scolymus hispanicus L., Eryngium campestre L., Chenopodium vulvaria L., and Chenopodium album L., which were collected in the vicinity of a waste dump from an abandoned copper mine. The selected study area has radionuclide levels above the global average, in addition to heavy metals, as it is a waste dump from an abandoned copper mine. The range of transfer factors for ²³⁸U varied between 1.5 × 10⁻⁴ kg⁻¹ kg⁻¹ and 7.8 × 10⁻³ kg⁻¹ kg⁻¹, while for ²²⁶Ra, the range was between 1.8 × 10⁻⁴ kg⁻¹ kg⁻¹ and 4.0 × 10⁻² kg⁻¹ kg⁻¹. The correlations found with PCA were (i) ²³⁸U with Fe and Al, and (ii) ²²⁶Ra with S, Ti, Ca, and Sr. A transfer model of ²³⁸U and ²²⁶Ra was created using multiple linear regression analysis. The model showed how ²³⁸U was related to the presence of Al, while ²²⁶Ra was related to Al, Fe, and Ti. The results obtained have allowed us to propose a model for the incorporation of ²³⁸U and ²²⁶Ra, taking into account the chemical composition of the soil. The results obtained indicate that both Scolymus hispanicus L. and Eryngium campestre L. could be utilized in phytoremediation for soils contaminated by natural radionuclides in semi-arid climates. The TFs, as well as the proposed model, allow us to expand the knowledge of the absorption of natural radionuclides by plants in regions with arid and semi-arid climates, which is necessary for the radiological risk assessment of future nuclear fuel cycle facilities. Full article

The Eryngium L. genus belongs to the Apiaceae family and, with about 250 species, has a cosmopolitan distribution. Only fourteen of the twenty-six species described in Flora Europaea grow in the Iberian Peninsula. One of these is Eryngium galioides Lam., a small annual plant (2–30 cm) that grows in open dry places in the mid-west of the Iberian Peninsula. For this study, the whole plant (aerial parts and roots) of this species was gathered in Guadalajara (Spain). The essential oil of this population was extracted by hydro-distillation and analyzed by gas chromatography (GC) and gas chromatography coupled to mass spectrometry (GC-MS). It is worth noting that this species gave rise to a relatively high essential oil yield (0.48%) in comparison with other species of this genus. E. galioides oil consisted of a complex mixture of more than 70 compounds. The main constituents of this oil were identified as valencene (49.7%) and a phyllocladene isomer (23.7%), both representing more than the 70% of the total oil. Other representative compounds of this oil were found to be β-chamigrene (6.0%), γ-muurolene (3.4%), (E)-caryophyllene (3.0%) and β-elemene (1.6%). As far as we know, this is the first report about the chemical composition of E. galioides essential oils. With this work, we contribute to the knowledge of this genus and provide a chemical and botanical basis to promote the in vitro cultivation of E. galioides as a source of essential oils rich in bio-actives for application in different fields. Full article

The exogenous application of bioregulators, such as salicylic acid (SA), has exhibited promising outcomes in alleviating drought stress. Nevertheless, its impact on culantro (Eryngium foetidum L.) remains unexplored. Thus, the aim of this study was to assess how SA impacts the growth, morphophysiology, and essential oil composition of culantro when subjected to drought. To achieve this, culantro plants were grown under three different watering regimes: well-watered, drought-stressed, and re-watered. Additionally, they were either treated with SA (100 µM) or left untreated, with water serving as the control. SA application did not mitigate the effects of drought in biomass production but increased biomass, leaf number, leaf area, and photosynthetic pigments under well-irrigated and re-watered conditions. After a drought period followed by re-watering, plants recovered membrane integrity independently of SA application. Water stress and the exogenous application of SA also modulated the profile of essential oils. This is the first report about SA and drought affecting growth and essential oil composition in culantro. Full article