Search Results (61)

Background/Objectives: Natural compounds occupy a pharmacologically rich chemical space, characterized by abundant scaffolds, extensive functional group elaboration, and defined stereochemistry. In this context, Helichrysum italicum, a Mediterranean medicinal plant, represents a valuable source of polyphenols with multiple biological and pharmacological activities. Methods: Here, we introduce an inverse molecular docking fingerprint approach to systematically investigate eight major Helichrysum italicum polyphenols, including $\alpha$-pyrones (arzanol, ethylpyrone), flavonols (gnaphaliin, kaempferol, quercetin), and flavanones (naringenin, pinocembrin, hesperetin). More than 40,000 human protein structures from the Protein Data Bank were screened to generate target-based inverse docking score fingerprints for each compound. Results: Hierarchical clustering of these fingerprints revealed shared binding patterns among structurally related polyphenols and enabled hypothesis generation regarding potential synergistic effects. Notably, favorable interactions were identified with PPARG and CARM1, supporting therapeutic relevance in inflammation and cancer, alongside additional targets associated with neurodegeneration and bone metabolism. Conclusions: This study establishes inverse docking fingerprints as a robust, mechanism-oriented method for natural product research and highlights Helichrysum italicum polyphenols as starting points for medicinal chemistry and drug discovery. Full article

Pruning residues from medicinal and aromatic plant cultivations represent an under-exploited biomass rich in bioactive metabolites. In this study, pruning by-products from Lavandula angustifolia Mill. ‘Essence Purple’ and Helichrysum italicum (Roth) G.Don were investigated as sources of essential oils (EOs) within a circular economy perspective. Micromorphological analyses confirmed the presence of secretory glandular trichomes in the residual biomass. EOs were obtained by steam distillation (0.33% and 0.15% yield for lavender and helichrysum, respectively) and chemically characterized by GC-FID and GC-MS. A total of 51 and 55 compounds were identified, accounting for 99.68% and 99.57% of the total composition. The main constituents were τ-cadinol (23.09%) and linalyl acetate (14.07%) in lavender EO and γ-curcumene (15.47%) and eudesm-4(14)-en-11-ol (10.71%) in helichrysum EO. Pruning-derived EOs showed a higher sesquiterpene content than those from conventional plant organs, indicating a compositional shift. Phytotoxic assays on Hordeum vulgare, Raphanus sativus, Lolium multiflorum, and Sinapis alba revealed concentration-dependent effects, with a stronger inhibition of radicle elongation than seed germination. These concentrations should be interpreted as indicative of intrinsic phytotoxic potential under controlled conditions. Ecotoxicological tests showed no significant reduction in viability in Artemia salina, whereas concentration- and time-dependent immobilization was observed in Daphnia magna, highlighting species-specific sensitivity, likely related to differences in the uptake and membrane interactions of lipophilic compounds. These findings highlight pruning residues as a promising biomass for the recovery of bioactive phytocomplexes with potential applications in sustainable weed management, although further studies under agronomically relevant conditions and comprehensive environmental assessments are required to validate their practical applicability. Full article

Helichrysum italicum Mill. (Asteraceae), a perennial evergreen species native to the Mediterranean basin, has been traditionally employed to treat various inflammatory and infectious diseases, as well as respiratory, digestive, gallbladder, and bladder disorders. The plant is valued for its essential oil. It contains phenols and flavonoids, which play a fundamental role in the protective effects associated with the traditional use of extracts of its aerial parts. The goal of the study was to investigate the phytochemical and biological properties of polar extracts, specifically water and hydroalcoholic (50% ethanol) extracts, obtained from the aerial parts of H. italicum. The extracts were evaluated for phenolic composition and concurrently assessed for antioxidant and enzyme-inhibitory activities. Additionally, the biocompatibility of the extracts was investigated using eco-toxicological models, including Artemia salina lethality and Daphnia magna cardiotoxicity assays, as well as allelopathic studies. CCD841CoN colon epithelial cell viability was also assessed in the presence of the extracts. The extracts’ protective effects were examined in an ex vivo inflammatory model using isolated mouse colon and liver tissues exposed to Escherichia coli lipopolysaccharide (LPS). Their influence on cyclooxygenase-2 (COX-2) and interleukin-6 (IL-6) gene expression was investigated, as well. Docking studies were also performed to uncover on the potential mechanisms underpinning the biological effects observed in the study. The phytochemical analysis showed that hydroxycinnamic acids and quercetin derivatives were the primary components in both extracts. In particular, the hydroalcoholic extract showed higher phenol levels and more potent scavenging/reducing and enzyme inhibitory activities against tyrosinase, cholinesterases, glucosidase, and amylase. Using the aforementioned eco-toxicological and in vitro cell models, the extracts’ biocompatibility was determined to be in the range of 200–1000 µg/mL. Within this concentration interval, the extracts effectively mitigated LPS-induced stimulation of COX-2 and IL-6 gene expression. Docking studies suggest that hydroxycinnamic acids (notably chlorogenic acid) and flavonoids (including quercetin, rutin, hyperoside, and isoquercitrin) play a pivotal role in the extracts’ anti-inflammatory activity. In conclusion, this study provides scientific evidence supporting the ethnopharmacological use of H. italicum in managing oxidative stress and inflammatory disorders, especially in the digestive system. Phenolics in the extracts likely enhance their therapeutic potential. These findings warrant further research, including in vivo studies, to assess the extracts’ efficacy and safety profile comprehensively. Full article

Immortelle (Helichrysum italicum (Roth) G. Don, family Asteraceae) essential oils (HiEOs) and hydrosols (HiHYs) are widely used in cosmetic, pharmaceutical, and agricultural formulations. However, their composition and quality vary depending on geographical origin and production practices, while standardized reference values—particularly for hydrosols—are still lacking. The aim of this study was to investigate and compare the physicochemical properties and chemical composition of commercial HiEOs and HiHYs from the Adriatic and continental regions of Croatia. Samples were analysed using standard pharmacopoeial methods and gas chromatography–mass spectrometry (GC–MS). Physicochemical analyses (relative density, acid value, refractive index, pH, turbidity, and essential oil content) showed that all samples were within generally accepted quality ranges, with no significant differences observed between regions using the Mann–Whitney U test. HiEOs were dominated by sesquiterpene hydrocarbons (53.15–55.60%), whereas HiHYs contained predominantly oxygenated monoterpenes (43.54–69.86%). The main compounds identified in both fractions were α-pinene, neryl acetate, γ-curcumene, and β-selinene, which formed a consistent chemical signature and served as practical biomarkers for the quality of H. italicum EO and hydrosol. Principal Component Analysis (PCA) distinguished sample groupings based on physicochemical properties and chemical composition, indicating regional variability without exceeding accepted quality limits. This study presents the first comparative dataset of Croatian commercial HiEOs and HiHYs, and defines practical parameter ranges to support standardized specifications, ensure consistent quality, and enhance the industrial applicability of immortelle-based products. Full article

Helichrysum italicum (Roth) G. Don (Asteraceae) is a valuable medicinal and aromatic plant native to a variety of habitats across the Mediterranean region. However, genetic studies of this morphologically diverse species have been limited by the scarcity of species-specific DNA markers. To address this limitation, we generated the first de novo transcriptome assembly comprising 24,806 transcripts from young shoots containing leaves and flowers, developed EST-SSR markers, and evaluated their utility in population genetic analysis. Seventy-eight primer pairs were designed, of which 23 showed successful amplification, polymorphism, and transferability to Helichrysum litoreum Guss. and Helichrysum arenarium (L.) Moench. A subset of 12 EST-SSRs was used to genotype 270 individuals from 12 natural populations of H. italicum in Corsica (France), along with one outgroup population from Croatia. The polymorphic information content ranged from 0.250 to 0.796, and Shannon’s information index ranged from 0.588 to 1.843, indicating the markers’ suitability for population genetic studies. Analysis of molecular variance revealed that 15% of the total genetic variation was attributable to differences among populations. Discriminant analysis of principal components and Bayesian clustering in STRUCTURE identified distinct population clusters corresponding to geographic locations. Notably, the southernmost coastal populations were clearly differentiated from the others. Full article

The current study focuses on a preliminary evaluation of the use of solid residues produced from the distillation of selected medicinal and aromatic plants (MAP) as fertilizers for alkaline soils. Specifically, the residues of hemp (Cannabis sativa L.), helichrysum (Helichrysum Italicum (Roth) G. Don), lavender (Lavandula angustifolia Mill.), oregano (Origanum vulgare L.), rosemary (Rosmarinus officinalis L.) and sage (Salvia officinalis L.) were added in an alkaline and calcareous soil at the rates of 0 (control), 1, 2, 4 and 8%, in three replications (treatments), and the treated soils were analyzed. The results showed that upon application of the residues, soil electrical conductivity (EC), organic C, total N and the C/N ratio significantly increased, especially at the 4 and 8% rates. The same was found for soil available P, K, B, Cu and Mn. The effects of the residues on soil pH, cation exchange capacity (CEC) and available Zn and Fe were rather inconclusive, whereas soil available N significantly decreased, which was somewhat unexpected. From the different application rates tested, it seems that all residues could improve soil fertility (except N?) when they were applied to soil at rates of 2% and above, without exceeding the 8% rate. The reasons for the latter statement are soil EC and available Mn: the doubling of EC upon application of the residues and the excessive increase in soil available Mn in treatments with 8% residues raise concerns of soil salinization and Mn phytotoxicity risks, respectively. This work provides the first step towards the potential agronomic use of solid residues from MAP distillation in alkaline soils. However, for the establishment of such a perspective, further research is needed in respect to the effect of residues on plant growth and soil properties, by means of at least pot experiments. Based on the results of the current study, the undesirable effect of residues on soil available N should be investigated in depth, since N is the most important essential element for plant growth, and possible risks of micronutrient phytotoxicities should also be studied. In addition, application rates between 2 and 4% should be studied extensively in order to recommend optimum application rates of residues to producers. Full article

Herbs are valued for their antioxidant richness and traditional use in cuisine and medicine. This study analysed wild herbs (e.g., Achillea, Lamium) and cultivated spices (Salvia, Artemisia) for their bioactive compounds. It was found that antioxidant profiles varied notably among species, even within the same family. Helichrysum italicum and Salvia officinalis had the highest polyphenol levels, while Achillea millefolium and Ocimum basilicum had the lowest. Total polyphenols did not always correlate with antioxidant activity. For instance, Petroselinum hortense and Salvia rosmarinus showed high antioxidant activity despite low polyphenol levels, whereas Levisticum officinale and Artemisia dracunculus combined both. Mentha spicata, M. x citrata, Origanum vulgare, and S. officinalis were rich in carotenoids, while H. italicum showed high α-carotene but low levels of other carotenoids. Most Lamiaceae accumulated a high amount of chlorophylls and polyphenols. Cultivated herbs like M. spicata, M. x citrata, and S. officinalis exhibited stronger and more diverse properties than wild species. It can be concluded that taxonomy alone does not predict antioxidant potential. The differences observed may be attributed to species-specific metabolic pathways, ecological adaptations, or environmental factors influencing phytochemical expression. These findings highlight the importance of conducting species-level screenings in the search for plant-derived antioxidants with potential therapeutic applications. Full article

Climate change intensifies water scarcity and soil salinization, threatening agriculture and livestock systems, especially in arid Mediterranean regions. Halophytes and salt-tolerant plants offer sustainable alternatives to support ruminant health and productivity where traditional crops fail, helping mitigate climate impacts. This work evaluated seasonality effects on the biochemical properties, including proximate composition, minerals, antioxidant properties, and the phenolic composition of the aerial organs of halophytes and salt-tolerant species, aiming at their future exploitation in ruminant production as novel nutraceutical or phytotherapeutic products. Target species included four halophytic species according to the eHaloph database (Calystegia soldanella (L.) R. Br. 1810, Medicago marina L. 1753, Plantago coronopus L. 1753, and Limoniastrum monopetalum (L.) Boiss. 1848) and five salt-tolerant plants (Pistacia lentiscus L. 1753, Cladium mariscus (L.) Pohl 1809, Inula crithmoides L. (syn. Limbarda crithmoides Dumort. 1827), Helichrysum italicum subsp. picardii (Boiss. & Reut.) Franco 1984, and Crucianella maritima L. 1753). H. italicum, M. marina, and C. soldanella appear well-suited for nutraceutical applications, while P. lentiscus, L. monopetalum, and C. mariscus hold promise for the development of, for example, phytotherapeutic products. This research underscores the significance of seasonal and species-specific variations in nutrient and phytochemical composition, displaying a range of opportunities for novel, sustainable, and tailored solutions to ruminant production systems in arid environments. Full article

This study compares the antioxidant properties and phytochemical profiles of three pairs of widely used medicinal plant species to their counterparts from Provence, France: Arnica montana with Pentanema montanum (formerly known as Inula montana), Helichrysum italicum with Helichrysum stoechas, and Satureja hortensis with Satureja montana. Phytochemical composition has been investigated using UHPLC-HRMS/MS and molecular networking, revealing chemical profiles dominated by phenylpropanoids and flavonoids, with lignans, sesquiterpene lactones, or polyketides aside. Well-plate DPPH/ABTS assays were used to evaluate the antioxidant activity of extracts, and post-column assays were used to identify antioxidant compounds. The three Provence species demonstrated comparable or superior antioxidant activities to their counterparts, primarily attributed to phenolic compounds such as mono- and di-caffeoylquinic acids, quercetagetin-7-O-glucoside, and myricetin acetylhexoside. These findings show the potential of Provence species to be substituted for some overharvested medicinal plants. This research supports biodiversity conservation while promoting the integration of these local species into pharmaceutical, nutraceutical, cosmetic, and food industries. Full article

Plants provide valuable compounds that positively influence the health of blood vessels, including those in the skin. Numerous plants exhibit anti-inflammatory, antioxidant, and vasodilating effects, which enhance blood circulation and may promote skin regeneration and suppleness. Botanical species like Camellia sinensis, Chrysanthellum indicum, Helichrysum italicum, Glycyrrhiza glabra, Ginkgo biloba, or Artemisia lavandulaefolia may positively influence the health of cutaneous blood vessels in the skin. The beneficial impact in this context is attributed to various secondary metabolites inherent to these plants, including phenolic acids, flavonoids, vitamins, or saponins, which can subsequently enhance microcirculation, diminish swelling, inhibit telangiectasia, occlude blood vessels, and enhance skin appearance. In addition, the high antioxidant activity of plants is also key here, which helps protect vessels from damage caused by oxidative stress. This article provides an overview of specific plants that may positively influence skin blood vessels, along with a discussion of particular active compounds within these plants that exhibit such effects. These herbs not only improve vascular health but also promote a more youthful appearance. By examining their distinct qualities, we can enhance our comprehension of their synergistic effects on skin vitality and resilience. Full article

The extraction processes for medicinal plants, particularly the distillation of aromatic plants, generate significant quantities of by-products, consisting of fibrous biomass and hydrosols. These by-products pose challenges for disposal and recovery. Consequently, it is imperative to make the entire highly energy-intensive process more sustainable by valorizing all derivatives. This study aims to recover polyphenols from the exhausted biomasses of Artemisia dracunculus, Echinacea purpurea, Helichrysum italicum (from the Asteraceae family), and Lavandula angustifolia, Lavandula × intermedia, Melissa officinalis, Salvia officinalis, Salvia sclarea, and Salvia rosmarinus (from the Lamiaceae family) after steam distillation. The residual biomasses were extracted using ethanol (conventional solvent) and different natural deep eutectic solvents (NADES) composed of choline chloride in combination with citric and lactic acids at different molar ratios. The NADES containing choline chloride and lactic acid at the molar ratio 1:1 (CLA11) exhibited the highest recovery of representative phenols of the plants, namely chicoric and rosmarinic acids. The CLA11 solvent demonstrated a stronger extractive capacity compared to ethanol in all the biomasses belonging to the Asteraceae and Lamiaceae families. Specifically, CLA11 extracts showed a higher number of compounds in UHPLC-HRMS and greater concentrations of chicoric and rosmarinic acids determined by HPLC-DAD than ethanol extracts. In conclusion, NADES were demonstrated to be a viable alternative system for the recovery of bioactive compounds that could be used to formulate new products for the food, pharmaceutical, and cosmetic industries. Moreover, the use of NADES can enhance the sustainability of the whole production chain of essential oils being environmentally friendly. Full article

Background: Helichrysum italicum is a Mediterranean plant with well-known anti-inflammatory activity, but our previous whole transcriptome analysis has found that H. italicum infusion (HII) can also affect cytoskeletal rearrangement and tight junctions. The goal of the present study was to determine if HII improves the intestinal barrier (IB) dysfunction and by what mechanism. Methods: Caco-2 cells on Transwell inserts were used as a model of IB permeability. Heat-killed (HKB) or live Salmonella Infantis bacteria were used to induce IB integrity disruption upon three different testing conditions: pre-, co-, and post-treatment with 0.2 v/v% HII. Transepithelial electrical resistance values were used as an indicator of monolayer integrity before and after all treatments, and RT-PCR was used to assess the expression of tight junction proteins (TJPs) and inflammatory cytokines known to regulate intestinal permeability. Results: We found that all three treatments with HII improved the HKB-induced integrity disruption and decreased the down-regulation of TJP1, OCLN, and CLDN1, with the greatest effect observed in the pre-treated cells. Treatment with HII also decreased the up-regulation of CLDN2, TNF-α, IL-1β, and IL-6. In addition, pre-treatment of Caco-2 cells with HII prevented translocation of S. Infantis but did not prevent adhesion and invasion. Conclusion: This study showed that HII can improve inflammation-disrupted IB function by indirect modulation of mRNA expression of TJPs, especially in a preventive manner. Full article

Background: Alarming data revealed that 19% to 34% of adults with diabetes mellitus develop chronic wounds, which are characterized by impaired healing and a higher risk of infections. Inspired by the traditional use of immortelle for wound healing and the lack of scientific evidence regarding how it thoroughly influences tissue regeneration, we aimed to formulate a hydrogel loaded with immortelle essential oil and assess its effectiveness on diabetic excision wounds. Methods: The rheological properties of the hydrogel, an in vivo safety test, as well as wound healing capacity, were determined in rats with induced diabetes and excision wounds. Diabetic rats were divided into four groups: untreated, treated with 1% silver sulfadiazine ointment, treated with a gel base, and treated with the immortelle essential oil-based hydrogel. Results: It was revealed that the hydrogel exerts pseudoplastic behavior and has no potential to act as an irritant, thus highlighting its suitability for skin application. Moreover, analysis of macroscopic, biochemical, and histopathological data revealed that the immortelle essential oil-based hydrogel significantly improves wound repair. Superior re-epithelialization, scar maturation, and increased collagen fiber density were achieved after immortelle essential oil-based gel application. Conclusions: These findings suggest that the immortelle essential oil-based hydrogel could be a natural, safe, and effective wound-healing dressing. Full article

Helichrysum italicum (Roth) G. Don is a Mediterranean medicinal plant with great potential in the cosmetics, culinary and pharmaceutical fields due to its unique bioactive compounds. Its recent introduction into agroecosystems has enhanced the exploitation of genetic diversity in natural populations, although limited molecular markers have made this challenging. In the present study, primers were designed for all 43 SSRs (72.1% mononucleotide, 21% dinucleotide and 6.9% trinucleotide repeats) identified in the chloroplast genome. Populations from Cape Kamenjak (Croatia) and Corsica (France) were analyzed with ten carefully selected cpSSR markers. From the initial set of 16 cpSSRs amplified in all samples, 6 cpSSR markers were removed due to low-length polymorphisms, size homoplasy and nucleotide polymorphisms that could not be detected with allele length. Of the 38 haplotypes detected, 32 were unique to their geographic origin. The highest number of private haplotypes was observed in the Cape Kamenjak population (seven out of nine detected). Based on clustering analyses, the Kamenjak population was the most similar to the Capo Pertusato (south Corsica) population, although only one sub-haplotype was shared. Other Corsican populations were more similar to each other. A cross-species transferability test with Helichrysum litoreum Guss. and Helichrysum arenarium (L.) Moench was successfully conducted and private alleles were identified. Full article

Helichrysum italicum (Roth) G. Don is a typical Mediterranean plant, with limited distribution on the islands of Sardinia, Corsica, and the Iberian Peninsula, as well as the islands of the Adriatic Sea and the Balkan Peninsula. In these regions, H. italicum is mainly collected from spontaneous nature, while in recent years, there has been a pronounced cultivation trend due to increased demand and market requirements for constant quality of raw materials. Bearing in mind that biological activity is linked with chemical composition, this review aimed to collect data from different scientific databases (Scopus, PubMed, Web of Science, and Google Scholar) on the antimicrobial activity of essential oil and its chemical composition. A total of 20 papers investigating the antibacterial, antibiofilm, and antifungal activities of H. italicum essential oil were found. Furthermore, in these samples, several compounds occurred as dominant: neryl acetate, α-pinene, and γ-curcumene. These compounds are known for their antimicrobial properties, which likely contribute to the essential oil’s efficacy against various microbial strains. Full article