Search Results (40)

Throughout human history, wild plant resources have played an invaluable role, serving as critical sources of food, medicine, and industrial materials. This study examined the callus cultures of Cistanche deserticola Y.C. Ma, a medicinal desert plant, by subjecting them to abiotic stress under controlled in vitro conditions. The secondary metabolite profiles were then analyzed using GC-MS and qTOF-UHPLC-MS. The GC-MS analysis revealed several bioactive compounds of pharmaceutical interest, such as γ-sitosterol and homovanillyl alcohol. PhGs, including echinacoside and salidroside, were quantified for the first time across 16 callus samples exposed to various stress treatments. The application of 0.1% Na₂CO₃ for 50 days resulted in the highest accumulation of echinacoside (13,378.9 µg/mL), and heavy metal stress notably increased salidroside levels to 27.0 µg/mL. There was a clear correlation between callus pigmentation and metabolic activity: orange and white calli produced significantly more PhGs than dark calli. These results suggest that C. deserticola callus cultures could be a sustainable, controllable platform for producing high-value secondary metabolites. This reinforces the importance of wild plant resources in modern science and industry. Full article

Excessive exposure to ultraviolet B (UVB) radiation can lead to skin damage, such as erythema and swelling. Echinacoside is a key effective ingredient of medicinal plant Cistanche deserticola commonly used for therapies and treatments for anti-aging and irradiation-related skin diseases. However, the molecular mechanism underlying the action of echinacoside remains unclear. Here, we report that echinacoside ameliorates UVB-induced skin damage by directly acting on the Ca²⁺-permeable and thermosensitive transient receptor potential vanilloid 3 (TRPV3) channel. Topical application of echinacoside efficaciously suppresses skin lesions induced by UVB radiation in wild-type mice but has no additional benefit in Trpv3 knockout mice. In whole-cell patch clamp recordings, echinacoside selectively inhibits TRPV3 channel currents induced by 2-aminoethoxydiphenyl borate in a concentration-dependent manner with an IC₅₀ value of 21.94 ± 1.28 μM. The single-channel patch clamp results show that echinacoside significantly reduces the open probability and open frequency without significantly altering TRPV3 channel unitary conductance. Molecular docking and site-specific mutagenesis indicate that residue T636 on the p-loop and residue T665 on the S6 segment of TRPV3 are critical for echinacoside binding to TRPV3. Taken together, our findings provide a molecular basis for further studies as use of natural echinacoside in irradiation-related skin care therapy, thus establishing a significant role of the TRPV3 channel in acute skin injury. Full article

The therapeutic potential of natural products has led to the exploitation of phytocomplexes for treating various skin conditions, including wounds. Echinacea angustifolia DC. has traditionally been used for wound healing, burns, and other ailments. In this study, dried roots of E. angustifolia were extracted using a hydroalcoholic solution, and the phytochemical composition was analyzed through HPLC-DAD. The polyphenol and polysaccharide content, along with in vitro antioxidant and anti-tyrosinase properties, were evaluated. The biological effect of E. angustifolia extract was evaluated on the 3T3-L1 cell line. HPLC-DAD analysis confirmed the presence of several polyphenols, particularly caffeic acid derivatives, with echinacoside as the predominant compound, exhibiting strong antioxidant properties. The extract demonstrated no cytotoxic effect on 3T3-L1 cells, and it showed a protective effect by increasing the migration process in an in vitro scratch wound healing test, together with echinacoside and allantoin, which were used as references. Furthermore, the extract reduced the expression of proinflammatory cytokines and promoted that of proteins that accelerate wound closure, such as TGF-β1. The present study demonstrates the potential wound healing properties and the antioxidant and anti-inflammatory activity of E. angustifolia root hydroalcoholic extract, giving a scientific rationale for its traditional use. Full article

Natural plant products have been used for cancer treatment since ancient times and continue to play a vital role in modern anticancer drug development. However, only a small fraction of identified medicinal plants has been thoroughly investigated, particularly for their effects on cellular pathways in lung and colorectal cancers, two under-researched cancers with poor prognostic outcomes (lung cancers). This review focuses on the lung and colorectal cancer signaling pathways modulated by bioactive compounds from eleven traditional medicinal plants: Curcuma longa, Astragalus membranaceus, Glycyrrhiza glabra, Althaea officinalis, Echinacea purpurea, Sanguinaria canadensis, Codonopsis pilosula, Hydrastis canadensis, Lobelia inflata, Scutellaria baicalensis, and Zingiber officinale. These plants were selected based on their documented use in traditional medicine and modern clinical practice. Selection criteria involved cross-referencing herbs identified in a scoping review of traditional cancer treatments and findings from an international survey on herbal medicine currently used for lung and colorectal cancer management by our research group and the availability of existing literature on their anticancer properties. The review identifies several isolated phytoconstituents from these plants that exhibit anticancer properties by modulating key signaling pathways such as PI3K/Akt/mTOR, RAS/RAF/MAPK, Wnt/β-catenin, and TGF-β in vitro. Notable constituents include sanguinarine, berberine, hydrastine, lobeline, curcumin, gingerol, shogaol, caffeic acid, echinacoside, cichoric acid, glycyrrhizin, 18-β-glycyrrhetinic acid, astragaloside IV, lobetyolin, licochalcone A, baicalein, baicalin, wogonin, and glycyrol. Curcumin and baicalin show preclinical effectiveness but face bioavailability challenges, which may be overcome by combining them with piperine or using oral extracts to enhance gut microbiome conversion, integrating traditional knowledge with modern strategies for improved outcomes. Furthermore, herbal extracts from Echinacea, Glycyrrhiza, and Codonopsis, identified in traditional knowledge, are currently in clinical trials. Notably, curcumin and baicalin also modulate miRNA pathways, highlighting a promising intersection of modern science and traditional medicine. Thus, the development of anticancer therapeutics continues to benefit from the synergy of traditional knowledge, scientific innovation, and technological advancements. Full article

Objectives: Kajiichigoside F1 and rosamultin are natural triterpenoid saponins found in the root of Rosa laevigata Michx. These compounds are isomers, making their separation challenging. Nonetheless, they have been reported to exhibit significant anti-inflammatory activity, although their mechanism of action remains unclear. This study aimed to optimize the extraction process of echinacoside and rosamultin from R. laevigata and to elucidate the anti-inflammatory mechanisms of these saponins in an LPS-induced acute lung injury (ALI) model. Methods: The extraction process was optimized using a single-factor experiment and the Box–Behnken response surface methodology, with the content of kajiichigoside F1, rosamultin, and their total content serving as evaluation indices. The acute lung injury model was induced by LPS, and lung tissue damage was assessed through hematoxylin and eosin (HE) staining. The secretion of relevant inflammatory factors was quantified using enzyme-linked immunosorbent assay (ELISA), and the expression levels of associated proteins were analyzed via Western blotting. Results: The optimal extraction conditions were determined to be an ethanol volume fraction of 80.0%, a solid–liquid ratio of 1:25, an extraction duration of 80 min, and three extraction cycles. Kajiichigoside F1 and rosamultin were found to mitigate alveolar inflammation in mice with acute lung injury (ALI) by effectively reducing the expression of the pro-inflammatory cytokines TNF-α and IL-6. Additionally, these compounds down-regulated the expression of phosphorylated NF-κB p65 and NF-κB IκBα proteins, thereby alleviating inflammatory symptoms. Conclusions: Kajiichigoside F1 and rosamultin attenuate the inflammatory response in acute lung injury induced by lipopolysaccharide (LPS) stimulation through modulation of the NF-κB signaling pathway. This study preliminarily elucidates their anti-inflammatory mechanism, suggesting that both compounds possess therapeutic potential for ALI. These findings provide significant guidance for the future development of active components derived from the root of R. laevigata and establish a foundation for enhancing the quality standards of its medicinal materials. Full article

Background: Metabolic dysfunction-associated steatotic liver disease (MASLD) is a chronic liver disease characterized by hepatic lipid accumulation, and echinacoside (ECH) has demonstrated antioxidant and anti-inflammatory effects across multiple conditions, it has demonstrated hepatoprotective effects. Ferroptosis represents a novel mechanism of cell demise, differing from apoptosis and autophagy. Emerging research indicates that ferroptosis in hepatocytes plays a role in the development of alcoholic liver disease. This study aimed to reveal the effect and potential mechanism of ECH on MASLD. Methods: The effect of ECH on the viability, lipid deposition, lipid peroxidation, mitochondrial of OA/PA-treated HepG2 cells were evaluated by Cell Counting Kit-8 assay, JC-1 and immunofluorescence assay. Meanwhile, the mechanism of ECH was assessed using transmission electron microscopy and immunofluorescence analysis. Moreover, db/db mice, a spontaneous type 2 diabetes mode, were intragastrically administered ECH by 300 mg/kg or an equivalent volume of saline. Body weight, lipids, and liver function were measured. liver pathology was performed. The mechanism of ECH in vivo was analyzed using Western blot and immunofluorescence analysis in db/db mice. Results: ECH attenuated lipid deposition, lipid peroxidation and ferroptosis induced by OA/PA in HepG2 cells. Mitochondrial morphology and function in HepG2 cells were also preserved by ECH. In db/db mice model of MASLD, ECH markedly ameliorated liver hepatocellular ballooning, inflammatory cell infiltration in the portal area, and fibrous tissue proliferation. ECH also increased the expression of Nrf2, HMOX-1, SLC7A11, and GPX4, and decreased the expression of ACSL4 in liver tissues. Mechanically, ECH repressed ferroptosis by activating the Nrf2/HO-1 signaling pathway. Conclusions: Our research revealed that ECH has the capability to modulate ferroptosis via the Nrf2-HMOX1pathway, consequently mitigating the progression of MASLD. This suggests that ECH has a potential role in the treatment of MASLD. Full article

Deep eutectic solvents (DESs) are mixtures of organic compounds displaying excellent solvent properties while keeping an ecofriendly character. In this study, DESs have been applied to the extraction of phenylpropanoid glycosides from Pedicularis oederi Vahl, successively separated by means of counter-current chromatography. Firstly, the ultrasonic-assisted extraction conditions were optimized by response surface methodology, and the results showed phenylpropanoid glycosides could be well extracted under the optimized extraction conditions with deep eutectic solvents. Then, the sample was separated by counter-current chromatography using ethyl acetate/aqueous solution of choline chloride and glycerol (6:6, v/v) as the solvent system. In about 360 min, four phenylpropanoid glycosides, including 31.6 mg of echinacoside, 65.3 mg of Jionoside A1, 28.9 mg of Forsythoside B, 74.1 mg of verbascoside, and 21.2 mg of kaempferol-3-O-rutinoside were obtained from about 900 mg of the sample. It revealed deep eutectic solvents could be well employed as a green solvent for the extraction and counter-current separation of natural products. Full article

A randomised open clinical/laboratory study was performed to evaluate the safety and cosmetic efficacy of facial cosmetics for females during the menopausal period. The cosmetics contain active ingredients of meristem cells derived from the medicinal plants Leontopodium alpinum, Buddeleja davidii, Centella asiatica, and Echinacea angustifolia. Recently, the major bioactive molecules of these medicinal plants (leontopodic acid, verbascoside, asiaticoside, and echinacoside, respectively) have been thoroughly evaluated in vitro for molecular pathways and cellular mechanisms and their preventive/curative effects on human skin cells exposed to factors promoting premature skin ageing and cellular senescence. Nevertheless, clinical data on their safety/efficacy to ageing human skin are scarce. This clinical study enrolled 104 Caucasian females in pre-menopause, menopause, or post-menopause periods. They applied cosmetic serums daily for 1 month. Questionnaires and instrumental and biochemical methods were used to assess dermatological/ophthalmological safety and cosmetic efficacy through changes of the skin physiology markers characteristic of ageing/menopause (elasticity, barrier functions, moisture, sebum, ultrasonic properties, and collagen content and structure). Quantitative microbiological tests were carried out for skin microbiota fluctuations. Data showed that the cosmetics were safe, and they shifted the skin physiology parameters to a younger biological age, enhanced collagen synthesis, inhibited lipid peroxidation, and favoured normal microbiota. Full article

The trend towards alternative medicine and naturopathy increases the interest in the use of natural products. This requires larger quantities of qualitative raw material of medicinal plants, including the well-known genus Echinacea. The purpose of this study was to evaluate the quality of E. purpurea and pallida cultivated in Kazanlak, Bulgaria. We developed and validated a rapid, reliable, and inexpensive HPLC method for the quantitative determination of chicoric, caftaric, and caffeic acids, and of cynarin, echinacoside, quercetin, and apigenin. The amount of chicoric and caftaric acids was monitored in different phases of plant development in aerial parts and roots. Maximal concentrations of chicoric acid (3.4%) were reported in roots in the seed-formation phase, and a concentration of 2.8% was reported in aerial parts in the vegetative phase. Caftaric acid was 0.9% in aerial parts in the vegetative and flowering phases and 0.5% in roots in the vegetative and seeding phases. Their amounts significantly exceed the requirements of the European Pharmacopoeia 8.0. Therefore, Kazanlak-grown E. purpurea could be a reliable raw material for the formulation of phytopreparations. In addition, the proposed method was applied to the detection and determination of the above-described substances in phytopreparations containing Echinacea from commercial sources. The amounts of the tested substances were found to vary widely. Full article

For centuries, medicinal plants have been used as sources of remedies and treatments for various disorders and diseases. Recently, there has been renewed interest in these plants due to their potential pharmaceutical properties, offering natural alternatives to synthetic drugs. Echinacea, among the world’s most important medicinal plants, possesses immunological, antibacterial, antifungal, and antiviral properties. Nevertheless, there is a notable lack of thorough information regarding the echinacea species, underscoring the vital need for a comprehensive review paper to consolidate existing knowledge. The current review provides a thorough analysis of the existing knowledge on recent advances in understanding the physiology, secondary metabolites, agronomy, and ecology of echinacea plants, focusing on E. purpurea, E. angustifolia, and E. pallida. Pharmacologically advantageous effects of echinacea species on human health, particularly distinguished for its ability to safeguard the nervous system and combat cancer, are discussed. We also highlight challenges in echinacea research and provide insights into diverse approaches to boost the biosynthesis of secondary metabolites of interest in echinacea plants and optimize their large-scale farming. Various academic databases were employed to carry out an extensive literature review of publications from 2001 to 2024. The medicinal properties of echinacea plants are attributed to diverse classes of compounds, including caffeic acid derivatives (CADs), chicoric acid, echinacoside, chlorogenic acid, cynarine, phenolic and flavonoid compounds, polysaccharides, and alkylamides. Numerous critical issues have emerged, including the identification of active metabolites with limited bioavailability, the elucidation of specific molecular signaling pathways or targets linked to echinacoside effects, and the scarcity of robust clinical trials. This raises the overarching question of whether scientific inquiry can effectively contribute to harnessing the potential of natural compounds. A systematic review and analysis are essential to furnish insights and lay the groundwork for future research endeavors focused on the echinacea natural products. Full article

The present work is the first report on the ingredients of the P. × commixta hybrid, a plant of the genus Phlomis. So far, thirty substances have been isolated by various chromatographic techniques and identified by spectroscopic methods, such as UV/Vis, NMR, GC-MS and LC-MS. The compounds are classified as flavonoids: naringenin, eriodyctiol, eriodyctiol-7-O-β-D-glucoside, luteolin, luteolin-7-O-β-D-glucoside, apigenin, apigenin-7-O-β-D-glucoside, diosmetin-7-O-β-D-glucoside, quercetin, hesperetin and quercetin-3-O-β-D-glucoside; phenylpropanoids: martynoside, verbascoside, forsythoside B, echinacoside and allysonoside; chromene: 5,7-dihydroxychromone; phenolic acids: caffeic acid, p-hydroxybenzoic acid, chlorogenic acid, chlorogenic acid methyl ester, gallic acid, p-coumaric acid and vanillic acid; aliphatic hydrocarbon: docos-1-ene; steroids: brassicasterol and stigmasterol; a glucoside of allylic alcohol, 3-O-β-D-apiofuranosyl-(1→6)-O-β-D-glucopyranosyl-oct-1-ene-3-ol, was fully characterized as a natural product for the first time. Two tyrosol esters were also isolated: tyrosol lignocerate and tyrosol methyl ether palmitate, the latter one being isolated as a natural product for the first time. Moreover, the biological activities of the extracts from the different polarities of the roots, leaves and flowers were estimated for their cytotoxic potency. All root extracts tested showed a high cytotoxic activity against the Hep2c and RD cell lines. Full article

Currently, the treatment for sepsis-induced acute lung injury mainly involves mechanical ventilation with limited use of drugs, highlighting the urgent need for new therapeutic options. As a pivotal aspect of acute lung injury, the pathologic activation and apoptosis of endothelial cells related to oxidative stress play a crucial role in disease progression, with NOX4 and Nrf2 being important targets in regulating ROS production and clearance. Echinacoside, extracted from the traditional Chinese herbal plant Cistanche deserticola, possesses diverse biological activities. However, its role in sepsis-induced acute lung injury remains unexplored. Moreover, although some studies have demonstrated the regulation of NOX4 expression by SIRT1, the specific mechanisms are yet to be elucidated. Therefore, this study aimed to investigate the effects of echinacoside on sepsis-induced acute lung injury and oxidative stress in mice and to explore the intricate regulatory mechanism of SIRT1 on NOX4. We found that echinacoside inhibited sepsis-induced acute lung injury and oxidative stress while preserving endothelial function. In vitro experiments demonstrated that echinacoside activated SIRT1 and promoted its expression. The activated SIRT1 was competitively bound to p22 phox, inhibiting the activation of NOX4 and facilitating the ubiquitination and degradation of NOX4. Additionally, SIRT1 deacetylated Nrf2, promoting the downstream expression of antioxidant enzymes, thus enhancing the NOX4-Nrf2 axis and mitigating oxidative stress-induced endothelial cell pathologic activation and mitochondrial pathway apoptosis. The SIRT1-mediated anti-inflammatory and antioxidant effects of echinacoside were validated in vivo. Consequently, the SIRT1-regulated NOX4-Nrf2 axis may represent a crucial target for echinacoside in the treatment of sepsis-induced acute lung injury. Full article

Health-oriented preferences, a demand for innovative food concepts, and technological advances have greatly influenced changes in the food industry and led to remarkable development of the functional food market. Incorporating herbal extracts as a rich source of bioactive compounds (BC) could be an effective solution to meet the high demand of consumers in terms of expanding the high-quality range of functional foods. The aim of this study is the valorization of the bioactive potential of T. montanum L., an understudied Mediterranean plant species, and the in-depth elucidation of a polyphenolic profile with a UHPLC-HR MS/MS and NMR analysis. The total phenolic content (TPC) and antioxidant capacity (AC) were determined on heat-assisted (HAE), microwave-assisted (MAE) and subcritical water (SWE) extracts. In terms of antioxidant capacity, SWE extracts showed the most notable potential (ABTS: 0.402–0.547 mmol eq Trolox g⁻¹ dw, DPPH: 0.336–0.427 mmol eq Trolox g⁻¹ dw). 12 phenolic compounds were identified in the samples of T. montanum from six microlocations in Croatia, including nine phenylethanoid glycosides (PGs) with total yields of 30.36–68.06 mg g⁻¹ dw and 25.88–58.88 mg g⁻¹ dw in HAE and MAE extracts, respectively. Echinacoside, teupolioside, stachysoside A, and poliumoside were the most abundant compounds HAE and MAE extracts, making T. montanum an emerging source of PGs. Full article

This paper presents raw plant materials and their characteristic compounds which may affect the immune system. Plant-derived agents in specific doses affect the body’s non-specific, antigen-independent defense system. They have immunostimulatory effects on the entire immune regulatory system. They can enhance the immune response through various factors such as macrophages, leukocytes, and granulocytes, as well as through mediators released by the cellular immune system. This paper was inspired by the threats caused by the COVID-19 pandemic. The proper functioning of the immune system is important in limiting the effects of viral infection and restoring the normal functioning of the body. This paper also emphasizes the importance of the skillful use of plant immunostimulants by potential patients, but also by those who prescribe drugs. It is important not only to choose the right plant drug but above all to choose the correct dose and duration of treatment. Full article

Diabetes mellitus (DM) is a chronic metabolic disorder and is associated with impaired wound healing. Non-healing leg and foot ulcers are a frequent significant consequence of diabetes and are caused by a combination of inadequate tissue perfusion, suppression of re-epithelialization, and poor collagen production. Receptor for Advanced Glycation End Products (RAGE) is a multiligand cell surface molecule that belongs to the immunoglobulin superfamily and is crucial in the pathophysiology of poor wound healing in diabetics. By inhibiting RAGE, a chronic non-healing wound is more likely to undergo angiogenesis, enhance blood supply to hypoxic areas of the wound, and decrease the pro-inflammatory reaction and pro-apoptotic signaling. Phenylethanoid glycosides (PhGs) are a class of natural glycosides that possess anti-diabetic, wound-healing, antimicrobial, anti-inflammatory, and antioxidant properties. Echinacoside, a phenylethanoid glycoside, has a promising role in wound healing by enhancing angiogenesis, promoting keratinocyte migration and proliferation, and enhancing neutrophil and macrophage activity. Consequently, molecular docking was performed to assess the interaction between Echinacoside and the RAGE receptor (PDB ID: 6VXG). The ligand and receptor had a strong binding interaction, as indicated by the lowest binding energy, which was found to be −6.1 kcal/mol. To further assess the activity of Echinacoside in diabetic wound healing, in vitro and in vivo studies are needed. Full article