Browsing by Author "Slusarczyk, Sylwester"
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- A first approach for the micropropagation of the medicinal halophyte Polygonum maritimum L. and phenolic profile of acclimatized plantsPublication . Custódio, Luísa; Slusarczyk, Sylwester; Matkowski, Adam; Castañeda-Loaiza, Viana; Fernandes, Eliana; Pereira, Catarina; Rodrigues, Maria JoãoPolygonum maritimum L. (sea knotgrass) belongs to a genus commonly used in folk medicine to treat inflammation-related disorders. In vitro pharmacological studies have confirmed these properties that were ascribed to bioactive flavonoids, such as myricetin and quercetin glycosides. Therefore, this study aimed at establishing a micropropagation procedure for sea knotgrass for obtaining standardized materials for its potential commercial cultivation. For that, a complete plant regeneration protocol was developed by improving shoot multiplication from nodal explants, rooting and acclimatization procedures, followed by the assessment of the phenolic profile of the in vitro-produced plants. The combination of 3 mg/L 6-benzylaminopurine (BA) + 0.1 mg/L indole-3-acetic acid (IAA) induced the maximum shoot formation (10.3), which was significantly increased from the first to the second cycle (18.3). The best rooting capacity was observed on shoots derived from the control medium (100%), followed by 2 mg/L kinetin (KIN) (97%) and 3 mg/L BA + 0.1 mg/L IAA (90%); however, the shoot number at the end of the rooting phase was higher on shoots derived from 3 mg/L BA + 0.1 mg/L IAA (6.16). The plant growth regulators used in the multiplication phase influenced survival in the acclimatization process, and plants derived from the control medium had the highest survival percentage (63.1%). Acetone extracts made from aerial organs of micropropagated sea knotgrass showed a predominance of the flavonoid myricetin-3-O-rhamnoside (8.135 mg/g). Overall, the halophyte sea knotgrass was successfully micropropagated showing its potential as a medicinal crop for the extraction of bioactive molecules.
- In vitro and in silico approaches to appraise Polygonum maritimum L. as a source of innovative products with anti-ageing potentialPublication . Rodrigues, Maria Joao; Slusarczyk, Sylwester; Pecio, Łukasz; Matkowski, Adam; Salmas, Ramin Ekhteiari; Durdagi, Serdar; Pereira, Catarina; Varela, J.; Barreira, Luísa; Custódio, LuísaDifferent Polygonum species have in vitro neuroprotective properties and are traditionally used for their anti-ageing benefits. In this context this work explored for the first time P. maritimum (sea knotgrass) as a potential source of natural products with industrial application as cognitive enhancers with anti-ageing potential. For that purpose methanol and dichloromethane extracts were prepared from leaves and roots of that species and evaluated for in vitro neuroprotective effects through the inhibition on acetyl- (AChE) and butyrylcholinesterase (BuChE), protection against hydrogen peroxide (H2O2)-induced cytoxicity on neuroblastoma cells and lipopolysaccharide (LPS)-induced neuroinflammation on microglia cells. The extracts were chemically characterized by ultra-high-pressure liquid chromatography (UHPLC) coupled to tandem mass spectrometry (MS/MS) and docking studies were performed on the identified compounds. Methanol extracts had the highest activity in AChE (leaves: IC50 = 0.27 mg/mL; roots: IC50 = 0.17 mg/mL) and BuChE (leaves: IC50 = 0.62 mg/mL; roots: IC50 = 0.61 mg/mL) inhibition, as well as reduction of nitric oxide (NO) production in LPS-treated microglia (leaves: IC50 = 4.17 μg/mL; roots: IC50 = 9.95 μg/mL). Methanol extracts prevented oxidative stress-induced cytotoxicity in SH-SY5Y cells when applied simultaneously with H2O2, whereas cells pre-treated with the dichloromethane extracts had increased viability. Fifteen flavonoids were identified and showed favorable binding energies to AChE and BuChE binding pockets. These data suggests P. maritimum as a promising source of natural products and/or molecules with cognitive enhancement and anti-ageing properties.
- Sea knotgrass (Polygonum maritimum L.) as a potential source of innovative industrial products for skincare applicationsPublication . Rodrigues, Maria Joao; Matkowski, Adam; Slusarczyk, Sylwester; Magne, Christian; Poleze, Thatyana; Pereira, Catarina Guerreiro; L, CustódioSeveral Polygonum species and related genera display diverse skincare properties and were considered as active cosmetic ingredients. Thus, this work explored the halophyte sea knotgrass (Polygonum maritimum L.) as source of phenolics and flavonoids-enriched extracts with skincare properties, for the cosmetic industry. To improve the content in these compounds, different extraction solvents and methodologies were used, and the resulting extracts were tested for total contents of phenolics (TPC) and flavonoids (TFC). The acetone extract made on an ultrasound bath for 30 min had the highest TPC (275 mg of gallic acid equivalents [GAE]/g of dry weight [DW]), TFC (48.0 mg of rutin equivalents [RE]/g DW), and yield (20.3%). This extract was selected and evaluated for its in vitro antioxidant (total antioxidant, superoxide radical-scavenging and lipid peroxidation), anti-inflammatory (nitric oxide [NO] reduction on lipopolysaccharide [LPS]-stimulated RAW 264.7 macrophages), anti-wrinkles (elastase), anti-acne (lipase), antimicrobial (Escherichia colt Staphylococcus aureus, Pseudomonas aeruginosa, Candida cdbicctris), anti-melanogenic (anti-tyrosinase and reduction of melanin production on B16 4A5 melanoma cells). The extract was also appraised for toxicity, and its chemical profile was determined by ultra-high-resolution mass spectrometry (UHRMS). The acetone extract showed a high O-2(-center dot) scavenging (half maximal inhibitory concentration [IC50] = 40.4 mu g/mL), total antioxidant capacity (TAC
- The irrigation salinity and harvesting affect the growth, chemical profile and biological activities of Polygonum maritimum L.Publication . Rodrigues, Maria Joao; Monteiro, Ivo; Placines, Chloé; Castañeda-Loaiza, Viana; Slusarczyk, Sylwester; Matkowski, Adam; Pereira, Catarina; Pousao-Ferreira, Pedro; Custódio, LuísaPreviously, our group identified the halophyte Polygonum maritimum L. (sea knotgrass) as a promising source of ingredients for the cosmetic, food, pharmaceutical and veterinarian industries. To further explore this species, and to guarantee the supply of biomass for commercial purposes, it is necessary to ensure its sustainable production while assuring the preservation of its chemical and biological properties. In this context, this work aimed to cultivate this species in greenhouse conditions and to determine the influence of specific agronomic conditions, namely irrigation salinity and harvest, on the plant's growth performance and biological properties of obtained biomass. For that purpose, plants were grown in a greenhouse and irrigated with water with different salinities (0, 100, 200, 300 and 600 mM of sodium chloride - NaCl). After six weeks of irrigation, plants were cut 7 cm above soil level and submitted to an additional two harvests with a six-week interval. Plant growth performance was evaluated in terms of plant height, leaf number and surface area, moisture, and productivity. Acetone extracts were prepared from aboveground organs and evaluated for chemical composition (by spectrophotometric methods, and by ultra-high-resolution mass spectrometry - UHRMS), and for in vitro antioxidant properties [radical-scavenging activity (RSA) on DPPH and ABTS, ferric reducing antioxidant power (FRAP) and metal chelating activity on iron (ICA) and copper (CCA)]. Extracts were also appraised for in vitro anti-inflammatory activity on lipopolysaccharide (LPS)-stimulated RAW 264.7 macrophages. Increased salinity and multiple harvests reduced plant growth and yields; the highest productivity was obtained in plants irrigated with freshwater at 2nd harvest (346 g/m(2) of dried biomass). The extracts maintained the in vitro biological properties and interesting chemical profile, however, these depended on the irrigation salinity and harvest regime. The highest antioxidant activities were obtained in extracts from plants irrigated with freshwater at the 3rd harvest (DPPH: 96.2%; ABTS: 89.1%; CCA: 61.6%; FRAP: 136%). The extracts from biomass obtained in 1st the harvest of freshwater-irrigated plants, and from those treated with 100 and 200 mM of NaCl, had significant anti-inflammatory properties. The main compounds detected were mostly flavonols (myricetin and quercetin glycosides), which varied according to both irrigation salinity and harvest. Our results indicate that sea knotgrass can be cultivated in greenhouse conditions aiming industrial commercial applications, irrigated with freshwater or with irrigation solutions with moderate salinity. Moreover, produced biomass maintain the biological and chemical properties previously detected in plants collected from the wild.