Search Results (61)

Previous studies have demonstrated that Helianthus tuberosus L. polysaccharide (HTLP) exhibits potent immunomodulating activity. The aim of this study was to investigate the molecular mechanisms underlying this activity and explore its potential applications in various anti-inflammatory models. We examined the anti-inflammatory potential of HTLP using in vitro and in vivo models. In vitro, we assessed the impact of HTLP on the expression of key inflammatory genes (TNFA, IL1B, IL6, IL12B, IL23, CD40, CD80, CD274, CSF1, and NAMPT) in lipopolysaccharide (LPS)-stimulated THP-1 cells. In vivo, we employed rat pocket granuloma and formalin- and carrageenan-induced oedema models. HTLP significantly reduced oedema volume in the in vivo models. In the carrageenan-induced oedema model, HTLP exhibited efficacy significantly higher than that of ibuprofen, reducing oedema by 76% at 8 h (p < 0.01). In the air pouch granuloma model, HTLP showed comparable anti-inflammatory activity to ibuprofen. In the formalin-induced oedema model, HTLP reduced oedema, demonstrating less efficacy than ibuprofen, with a reduction of 58% versus ibuprofen’s 65% (p < 0.001). The anti-inflammatory mechanism of HTLP involves not only the suppression of pro-inflammatory cytokine expression (TNFA, IL1B, IL6, IL12B, IL23, CD40, CD80, CD274, and CSF1) but also the activation of cell survival and cellular defence mechanisms (NAMPT) and the upregulation of the anti-inflammatory cytokine (IL10). The observed biological activity of HTLP suggests its potential as a valuable therapeutic agent for inflammatory conditions. The combination of functional and molecular evidence demonstrates HTLP’s potent anti-inflammatory properties across multiple models, with efficacy approaching or exceeding that of ibuprofen in certain models. However, further studies are necessary to fully elucidate its mechanism of action and to evaluate its long-term efficacy and safety. Full article

Jerusalem artichoke (Helianthus tuberosus L.) is a valuable source of inulin and fructooligosaccharides—compounds with well-documented prebiotic and functional food properties. However, its high moisture content significantly limits storage stability. This study aimed to assess the effects of drying method and process temperature on the drying kinetics and selected physicochemical properties of Jerusalem artichoke. Convective drying (AD) and combined convective–microwave drying (AMD), using a microwave power of 100 W, were employed. Drying was conducted at air temperatures of 40 °C, 60 °C, and 80 °C. Among the mathematical models evaluated, the Page model provided the best fit to the experimental drying data for both methods. Samples dried at 80 °C using the AMD technique exhibited the most pronounced changes in color, significant polyphenol losses, and a substantial reduction in antioxidant capacity compared to the fresh material. The lowest polyphenol degradation and the highest retention were observed in products dried at 40 °C using both AD and AMD methods. Notably, the AMD method significantly reduced drying time and improved the grindability of the dried Jerusalem artichoke samples. Although AMD contributed to certain quality deterioration, it also promoted a higher degree of particle size reduction. However, this increased degree of particle size reduction had only a limited effect on the extraction efficiency of fructooligosaccharides and inulin. The results of the present study suggest that AMD may serve as a competitive alternative to AD for drying Jerusalem artichoke, particularly when processing time and grindability are critical considerations. Full article

Invasive alien plant species, while ecologically and economically problematic, represent an underutilized source of bioactive phytochemicals with promising phytopharmaceutical applications. This study investigates the LC-DAD-MS phenolic profiles of 70% ethanol and 80% methanol leaf and flower extracts of Ailanthus altissima (Mill.) Swingle and Helianthus tuberosus L., collected in the Istria region of Croatia, alongside their antioxidant capacities using ABTS, DPPH, and FRAP assays. Both species exhibited high levels of flavonoids and phenolic acids, with consistently higher concentrations in leaf versus flower tissues and in ethanolic versus methanolic extracts. Strong correlations (r > 0.9) between total phenolics and antioxidant activity confirmed the functional significance of these compounds. With a targeted metabolomics approach, in A. altissima, 51 phenolics were identified in leaves and 47 in flowers, with ellagitannins predominating; vescalagin isomers reached 94 mg/g DW in leaves and 82 mg/g DW in flowers. H. tuberosus extracts contained 34 phenolics in leaves and 33 in flowers, with hydroxycinnamic acids and flavonols dominating; 5-caffeoylquinic acid was the principal compound (25 mg/g DW in leaves, 2 mg/g DW in flowers). The identified phytochemicals are known for their potent antioxidant, anti-inflammatory, anticancer, antimicrobial, and metabolic-regulating properties. Additionally, four leaf-specific compounds were identified in each species, indicating potential for targeted extraction. These findings advance the phytochemical characterization of invasive taxa and highlight their potential as sources of natural antioxidants for functional food and pharmaceutical development. Full article

This study investigates the impact of sewage sludge-based composts on the quality of sod-podzolic soils (Fluvisols, WRB), which are naturally acidic and low in fertility. A field experiment with eight variants was conducted, applying different doses of sewage sludge and composts mixed with organic materials to enhance soil properties. Energy crops, including Salix viminalis L., Miscanthus × giganteus, and Panicum virgatum L., along with Helianthus tuberosus, were cultivated in three replications to ensure research reliability. The study assessed changes in physicochemical soil properties, nutrient availability, and heavy metal accumulation within the soil-plant-ash continuum. Results indicated that compost application improved soil fertility, increased biomass yields, and influenced heavy metal dynamics, with variations depending on the applied compost type and dosage. The findings highlight the potential of sewage sludge composts to enhance soil productivity while maintaining environmental safety. Full article

Root-knot nematodes Meloidogyne spp. are sedentary endoparasites that infest a wide range of plant species; they are also widely distributed, making them one of the most economically significant pests. Similarly, damage caused by Aphelenchoides fragariae can lead to substantial reductions in both crop yield and quality. This research focused on the rhizosphere of Helianthus tuberosus L. (variety Albik), grown in a Polish plantation. The experiment was conducted at the National Institute of Horticultural Research in Skierniewice, using concrete rings filled with medium sandy soil amended with 10% peat. The treatments included the following: control (no amendments), silver solution (Ag+) (120 mg/L soil), and vermicompost (Ve) (20 L of Eisenia fetida vermicompost). Each treatment was replicated four times. Compared with control, (Ve) significantly decreased the numbers of Aphelenchoides fragariae and Meloidogyne hapla, by about 48% and 31%. The application of (Ag+) led to the most significant reduction in population density in both nematode species, with A. fragariae decreasing by over 67% and M. hapla by approximately 75%. Full article

Desertification is acknowledged as a significant global ecological challenge. In the current context of advancing ecological governance and sustainable development, it is imperative to explore optimal solutions that reconcile economic and ecological interests. This study examined the economically viable crop Jerusalem artichoke (Helianthus tuberosus L.) by selecting four varieties (Qingyu Nos. 1 to 4) for cultivation in the semi-arid sandy region of the Qinghai Plateau. This research analyzes and discusses the growth and development as well as the ecological adaptability of the various varieties, evaluating their feasibility for ecological restoration in high-altitude, semi-arid, sandy environments. The findings suggest that, under high-altitude and semi-arid conditions, these varieties demonstrate a spectrum of physiological and ecological adaptations, including alterations in organ allocation, limited vegetative growth, and modifications in root distribution. Notably, Qingyu Nos. 1 and 2 are more adept at thriving under cold and dry conditions, whereas Qingyu Nos. 3 and 4 are more suitable for cultivation in warmer and humid environments. This study offers valuable insights into crop cultivation in high-altitude, semi-arid, desert regions and proposes innovative strategies for the advancement of the local sand industry. The ecological restoration approach that employs these crops for sand stabilization enhances the transformation of ecological benefits. Full article

Leishmaniasis is a neglected tropical disease caused by protozoan parasites of the genus Leishmania. An estimated 700,000 to 1 million new cases occur annually. Current therapies are limited by high toxicity, cost, prolonged treatment period, and rising resistance in endemic regions. The Asteraceae family has emerged as a promising source of bioactive compounds with proven leishmanicidal activity. In this study, the assessment of the antileishmanial activity of Helianthus tuberosus and Vernonanthura squamulosa extracts, the isolation of the sesquiterpene lactones heliangin and glaucolide A, respectively, and the evaluation of the activity of the compounds were conducted. Dichloromethane extracts of H. tuberosus and V. squamulosa were active on Leishmania amazonensis promastigotes, inhibiting the replication of the parasites in 97.2 ± 3.1% and 89.1 ± 1.1%, respectively, at 100 μg/mL. Heliangin was active against promastigotes of L. amazonensis (IC₅₀ = 9.3 μM) and intracellular amastigotes (IC₅₀ = 0.8 μM), while glaucolide A exhibited moderate activity against promastigotes (IC₅₀ = 46.7 μM) and did not show activity against intracellular amastigotes. Based on these results, heliangin was further evaluated in an animal model of cutaneous leishmaniasis using BALB/c mice infected with L. amazonensis. Heliangin (8 mg/Kg), when administered in combination with Glucantime, significantly reduced lesion progression and parasite load compared to the vehicle-treated group (p < 0.001). These findings show that heliangin is a potential candidate for leishmaniasis treatment, especially in combination with therapeutic drugs. Full article

Jerusalem artichoke (Helianthus tuberosus L.) reproduces asexually through tubers, which are rich in fructan-type carbohydrates and serve as the primary processing organ. Plant hormones may regulate the sprouting process of tubers, but the changes in fructans and their regulatory mechanisms in relation to hormones remain unclear. This study utilized two varieties of Jerusalem artichoke, “Qingyu No.1” and “Qingyu No.3”, to analyze the changes in the proportion of carbohydrates (especially fructans) in total sugars during the sprouting process. Metabolomic and transcriptomic analyses were conducted at three selected sprouting stages. The results indicated that during tuber sprouting, carbohydrates such as fructans play a regulatory role through conversion activities. Multi-omics analysis revealed that jasmonic acid and salicylic acid promote Jerusalem artichoke sprouting through metabolism and are involved in the plant hormone signal transduction process. Differentially expressed genes related to hormone signaling were screened and divided into three groups based on expression levels. It was found that the proportion of carbohydrates is highly correlated with the expression of hormone-related genes in the sprouts, suggesting that plant hormones may regulate carbohydrate metabolism during the sprouting of Jerusalem artichoke tubers. In conclusion, these results preliminarily elucidate the regulatory mechanisms of plant hormones in Jerusalem artichoke tuber sprouting, aiming to provide a theoretical basis for the production and processing of Jerusalem artichoke. Full article

Functional ingredients from Jerusalem artichoke (JA) were produced using a 2² experimental design with two factors: “pretreatment” (W: water immersion; P: pressing with citric acid dip) and “drying method” (A: air-drying; F: freeze-drying). Four powders (JAPWA, JAPPA, JAPWF, and JAPPF) were analyzed for technological properties, inulin, phenolic, and flavonoid content, in vitro prebiotic activity score (PAS), and antioxidant capacity. Pretreatment influenced inulin content. JAPPF exhibited the highest PAS value (1.12 ± 0.08), whereas JAPWA presented the lowest (0.58 ± 0.04). These differences could be attributed to the influence of polyphenol content, as the freeze-dried powders retained more than twice the concentration due to the effect of low process temperatures, which usually protect phenolic compounds. Using a more cost-effective alternative, JAPPA exhibited better technological properties as well as higher inulin content and PAS than JAPWA. Full article

Helianthus tuberosus L. (Jerusalem artichoke) tubers and aerial parts possess both nutritional and therapeutic properties. The Jerusalem artichoke has been utilized for various applications, including its use as a functional food source, a reservoir of bioactive compounds, and a raw material to produce biofuels. Moreover, the Jerusalem artichoke is a rich source of an indigestible polysaccharide called inulin, which serves as a prebiotic that improves gastrointestinal health. This plant has been used globally throughout history as a dietary supplement, for pain treatment, to reduce swelling, and to boost the immune system, as well as to treat skin wounds in folk medicine. It is an abundant source of bioactive compounds, such as phenolic acids, coumarins, and flavonoids, which are known to exert pharmacological activities, including antioxidant, antimicrobial, and anti-inflammatory properties. The literature on its potential as an antidiabetic, anticancer, anti-fungistatic, antiviral, and anti-obesity agent, among others, is scanty. This review aims to provide a comprehensive overview of Helianthus tuberosus L.’s traditional uses, nutritional properties, secondary bioactive compounds, and pharmacological properties to further explore its health benefits. Full article

Jerusalem artichoke (Helianthus tuberosus L.) is a plant with considerable potential for energy generation due to its rapid growth, high biomass yield, and resistance to environmental stresses. The aim of this study was to determine the influence of the nitrogen fertilization strategy on the yield and energy balance in the production technology of Jerusalem artichoke (JA) in a perennial cropping system. The article presents the results of a three-year experiment which was conducted in Poland to determine the effect of different N rates (0, 50, 75, and 100 kg ha⁻¹) supplied with mineral fertilizers and liquid digestate on the energy balance in the production of JA aerial biomass. The experiment had a randomized block design with three replications. The demand for energy in JA cultivation reached 16.2–26.3 (year 1) and 2.9–14.6 GJ ha⁻¹ (years 2 and 3). Energy inputs in the cultivation technology were reduced by 17–19% (year 1) and 35–47% (years 2 and 3) when mineral fertilizers were replaced with digestate. Jerusalem artichoke yields were lowest in the technology without fertilization (12.5 Mg ha⁻¹ DM). Dry matter yield increased significantly (by 43–55%) after the application of 75 kg N ha⁻¹, regardless of fertilizer type. The energy output of biomass peaked (230.1 GJ ha⁻¹) in response to a mineral fertilizer rate of 75 kg N ha⁻¹. In turn, the highest energy gain (218.5 GJ ha⁻¹) was noted after the application of digestate at a rate equivalent to 75 kg N ha^–1. The energy efficiency ratio was highest in the technology without fertilization (20.1) and after the application of digestate at a rate equivalent to 75 kg N ha⁻¹ (19.7). Regardless of the factors that limit agricultural production, the energy balance of JA biomass production was most favorable when JA was fertilized with digestate at a rate equivalent to 75 kg N ha⁻¹. The results of this study may pave the way for future research on novel agronomic strategies for sustainable bioenergy production, including nutrient recycling. Full article

Jerusalem artichoke juice is valued for its nutritional content and health benefits. Spontaneous fermentation enhances its flavor, quality, and functional components through microbial metabolic activities. This study used high-throughput sequencing to analyze microbial community changes, and LC–MS and GC–MS to detect secondary metabolites and flavor compounds during fermentation. During natural fermentation, beneficial bacteria like Lactobacillus and Pediococcus increased, promoting lactic acid production and inhibiting harmful bacteria, while environmental bacteria decreased. Similarly, fungi shifted from environmental types like Geosmithia and Alternaria to fermentation-associated Pichia and Penicillium. A total of 1666 secondary metabolites were identified, with 595 upregulated and 497 downregulated. Key metabolic pathways included phenylpropanoid biosynthesis, with significant increases in phenylalanine, tryptophan, and related metabolites. Lipid and nucleotide metabolism also showed significant changes. Flavor compounds, including 134 identified alcohols, esters, acids, and ketones, mostly increased in content after fermentation. Notable increases were seen in Phenylethyl Alcohol, Ethyl Benzenepropanoate, 3-Methylbutyl Butanoate, Ethyl 4-Methylpentanoate, 5-Ethyl-3-Hydroxy-4-Methyl-2(5H)-Furanone, Ethyl Decanoate, Hexanoic Acid, and 1-Octanol. γ-aminobutyric acid (GABA) and other functional components enhanced the health value of the juice. This study provides insights into microbial and metabolic changes during fermentation, aiding in optimizing processes and improving the quality of fermented Jerusalem artichoke juice for functional food development. Full article

The utilization of biomass ash in sustainable agriculture and increasing its fertilizing efficiency by biological agents, potentially sequestering CO₂, have become important issues for the global economy. The aim of this paper was to investigate the effects of ash from sorghum (Sorghum bicolor L. Moench) and Jerusalem artichoke (Helianthus tuberosus L.) biomass, a biogas plant digestate, and a Spirodela polyrhiza extract, acting alone or synergistically, on soil fertility and the development, health and physiological properties of sorghum plants. The results show novel information concerning differences in the composition and impact of ash, depending on its origin, soil properties and sorghum plant development. Sorghum ash was more effective than that from Jerusalem artichoke. Ash used alone and preferably acting synergistically with the digestate and Spirodela polyrhiza extract greatly increased soil fertility and the growth, biomass yield and health of sorghum plants. These improvements were associated with an increased chlorophyll content in leaves, better gas exchange (photosynthesis, transpiration, stomatal conductance), greater enzyme activity (acid and alkaline phosphatase, RNase, and total dehydrogenase), and a higher biomass energy value. The developed treatments improved environmental conditions by replacing synthetic fertilizers, increasing the sequestration of CO₂, solving the ash storage problem, reducing the need for pesticides, and enabling a closed circulation of nutrients between plant and soil, maintaining high soil fertility. Full article

Jerusalem artichoke (JA) (Helianthus tuberosus L., family Asteraceae) is an important feedstock for biofuel production due to its high biomass yield per unit area and the low costs associated with plantation establishment and cultivation technology. The chemical composition of the aerial biomass of JA grown in a perennial cycle and harvested once or twice during the growing season was determined, to assess the potential of JA for energy production. The experiment was conducted in 2018–2020 in north-eastern Poland. The study demonstrated that the crude ash (CA) content of the biomass was significantly (by 24.1%) higher when JA was harvested twice rather than once during the growing season, making it less suitable for energy purposes. However, double cutting induced an increase in the content of crude fiber (CFR), cellulose, and hemicellulose (by 87%, 41%, and 52%, respectively) in JA biomass compared with single cutting. In addition, twice-harvested JA biomass was also characterized by higher concentrations of neutral detergent fiber (NDF), acid detergent fiber (ADF), and acid detergent lignin (ADL) (by 40.7%, 38.9%, and 30.3%, respectively), and a lower (by 29.3%) concentration of water-soluble carbohydrates (WSC). These results indicate that the chemical composition of a JA biomass can be modified by selecting the appropriate harvest strategy, which is an important consideration for end users. Full article

This article presents the results of a three-year experiment (2018–2020) conducted at the Agricultural Experiment Station in Bałcyny (north-eastern Poland) with the aim of determining Jerusalem artichoke (JA) yields and the energy balance of biomass production in (i) a perennial cropping system (only aerial biomass was harvested each year) and (ii) an annual cropping system (both aerial biomass and tubers were harvested each year). When JA was grown as a perennial crop, the demand for energy reached 25.2 GJ ha⁻¹ in the year of plantation establishment and 12.3–13.4 GJ ha⁻¹ in the second and third year of production. The energy inputs associated with the annual cropping system were determined in the range of 31.4–37.1 GJ ha⁻¹. Biomass yields were twice as high in the annual than in the perennial cropping system (20.98 vs. 10.30 Mg DM ha⁻¹). Tuber yield accounted for 46% of the total yield. The energy output of JA biomass was 1.8 times higher in the annual than in the perennial cropping system (275.4 vs. 157.3 GJ ha⁻¹). The average energy gain in JA cultivation ranged from 140 (perennial crop) to 241 GJ ha⁻¹ (annual crop). The energy efficiency ratio of JA biomass production reached 7.7–13.3 in the perennial cropping system, and it was 20% lower in the annual cropping system. These results imply that when JA was grown as an annual crop, an increase in energy inputs associated with plantation establishment (tillage and planting) and the harvest and transport of tubers was not fully compensated by the energy output of tubers. Full article