Phytochemical Screening and Acanthamoebic Activity of Shoots from in Vitro Cultures and in Vivo Plants of Eryngium alpinum L.—The Endangered and Protected Species

Kikowska, Małgorzata; Kruszka, Dariusz; Derda, Monika; Hadaś, E.; Thiem, Barbara

doi:10.3390/molecules25061416

Cited by 12 publications

(17 citation statements)

References 33 publications

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“…[20]. The phytochemical investigations of E. alpinum revealed the presence of secondary metabolites-triterpenoid saponins [21], phenolic acids mainly caffeic acid, rosmarinic acid and its derivative R-(+)-3'-O-β-d-glucopyranosyl rosmarinic acid, chlorogenic, iso-and neochlorogenic acids, and 3,4-dihydroxyphenylacetic acid [21][22][23], flavonoids-kaempferol, quercetin, and isoquercetin [21,23,24], and the essential oil [25]. The analysis of the essential oil of the E. alpinum aboveground part performed by Dunkić et al [25], showed the presence of oxygenated sesquiterpenes, sesquiterpene hydrocarbons, oxygenated monoterpenes, and monoterpene hydrocarbons.…”

Section: Introductionmentioning

confidence: 99%

Chemical Composition of Essential Oils from Rare and Endangered Species—Eryngium maritimum L. and E. alpinum L.

Kikowska

Kalemba

Długaszewska

et al. 2020

Plants

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In the present study, the essential oils obtained by hydrodistillation of the organs of Eryngium maritimum and E. alpinum were analyzed by GC-FID-MS. The dominant constituents assessed in the essential oil of E. maritimum were germacrene D (45.2%) in the fruits; hexadecanoic acid (18.5%), menthol (16.8%), and menthone (10.9%) in the roots; 2,3,4-trimethylbenzaldehyde (11.3%) and germacrene D (10.5%) in the leaves; 2,3,4-trimethylbenzaldehyde (11.3%) in the shoot culture. In the case of E. alpinum, the main components of the leaf oil were: β-elemenone (10.3%), germacrone (5.8%), two selinadienes (7.1% and 6.7%), and 1,8-cineole (5.3%), which were not found in the oil from shoot culture, whereas the shoot culture oil was dominated by hexadecanoic acid (15.5%), spathulenol (7.5%), (E)-β-farnesene (4.9%), germacra-4(15),5,10(14)-trien-1α-ol (4.7%), and falcarinol (4.3%). The essential oils obtained from E. maritimum fruits and leaves of the intact plants, measured by the broth microdilution method, were the most active against T. mentagophytes and S. aureus. Moreover, the essential oil of leaves had the moderate activity against C. albicans and E. coli. The results showed that the chemical compositions of the essential oils differed decidedly between the two studied species and between the organs. Furthermore, the essential oil of E. maritimum may play an important role as antimicrobial agent.

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Section: Introductionmentioning

confidence: 99%

Chemical Composition of Essential Oils from Rare and Endangered Species—Eryngium maritimum L. and E. alpinum L.

Kikowska

Kalemba

Długaszewska

et al. 2020

Plants

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“…The activity of L. flos-cuculi, compared to the amoebicidal activity of extracts from other plant species, is fairly high. For example, the effective concentration of an Eryngium alpinum shoot culture extract was 0.5 mg/mL, displaying a similarly high potency of an in vitro-derived material extract rich in triterpenoid saponins [ 39 ]. However, the comparison of IC 50 values for extracts of plants especially effective against Acanthamoeba , including Solidago virgaurea flowers (0.01 mg/mL), Solidago graminifolia flowers (0.05 mg/mL), Pueraria lobata root (0.01 mg/mL), and Rubus chamaemorus leaves (0.05 mg/mL) [ 40 ], shows that only the 80% methanolic fraction of the L. flos-cuculi root extract exerts a similarly strong activity, with IC 50 at 0.06 mg/mL.…”

Section: Discussionmentioning

confidence: 99%

Two Ecdysteroids Isolated from Micropropagated Lychnis flos-cuculi and the Biological Activity of Plant Material

et al. 2021

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Genetically uniform plant material, derived from Lychnis flos-cuculi propagated in vitro, was used for the isolation of 20-hydroxyecdysone and polypodine B and subjected to an evaluation of the antifungal and antiamoebic activity. The activity of 80% aqueous methanolic extracts, their fractions, and isolated ecdysteroids were studied against pathogenic Acanthamoeba castellani. Additionally, a Microtox® acute toxicity assay was performed. It was found that an 80% methanolic fraction of root extract exerts the most potent amoebicidal activity at IC50 of 0.06 mg/mL at the 3rd day of treatment. Both ecdysteroids show comparable activity at IC50 of 0.07 mg/mL. The acute toxicity of 80% fractions at similar concentrations is significantly higher than that of 40% fractions. Crude extracts exhibited moderate antifungal activity, with a minimum inhibitory concentration (MIC) within the range of 1.25–2.5 mg/mL. To the best of our knowledge, the present report is the first to show the biological activity of L. flos-cuculi in terms of the antifungal and antiamoebic activities and acute toxicity. It is also the first isolation of the main ecdysteroids from L. flos-cuculi micropropagated, ecdysteroid-rich plant material.

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“…Phenolic acids (chlorogenic acid, rosmarinic acid, and its derivative R-(+)-3′ O - β -D-glucopyranosyl rosmarinic acid [ 7 ], as well as caftaric acid, neochlorogenic acid, isochlorogenic acid, 3,4-dihydroxyphenylacetic acid, and caffeic acid [ 8 , 9 ]) have previously been found in this species. Moreover, the group of hydroxycinnamic acid derivates: coumaroylcholine, caffeoylcholine, feruloylquinic acid, dicaffeoylquinic acid, and ferulic acid, and methyl rosmarinate, as well as benzoic acid derivates: glucosyringic acid, trimethoxybenzoic acid, vanillic acid, hydroxyphenyllactic acid, dimethoxybenzaldehyde, glucovanillin, have also been found [ 10 ]. Additionally, flavonoids (quercetin and kaempferol [ 11 ], isoquercetin and quercitrin [ 8 , 9 ], luteolin, luteolin 7- O -glucoside, kaempferol-3- O -rhamnoside, kaempferol-3- O -rutinoside, quercetin-3- O -glucoside, quercetin-3- O -galactoside, quercetin-3- O -rutinoside [ 10 ]) and coumarins (umbelliferone, scopoletin, 4-methylumbelliferyl glucuronide, fraxidin, isofraxidin, scopoline, esculin, dihydroxycoumarin) have been found in this species [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, the group of hydroxycinnamic acid derivates: coumaroylcholine, caffeoylcholine, feruloylquinic acid, dicaffeoylquinic acid, and ferulic acid, and methyl rosmarinate, as well as benzoic acid derivates: glucosyringic acid, trimethoxybenzoic acid, vanillic acid, hydroxyphenyllactic acid, dimethoxybenzaldehyde, glucovanillin, have also been found [ 10 ]. Additionally, flavonoids (quercetin and kaempferol [ 11 ], isoquercetin and quercitrin [ 8 , 9 ], luteolin, luteolin 7- O -glucoside, kaempferol-3- O -rhamnoside, kaempferol-3- O -rutinoside, quercetin-3- O -glucoside, quercetin-3- O -galactoside, quercetin-3- O -rutinoside [ 10 ]) and coumarins (umbelliferone, scopoletin, 4-methylumbelliferyl glucuronide, fraxidin, isofraxidin, scopoline, esculin, dihydroxycoumarin) have been found in this species [ 10 ]. The metabolites detected were triterpenoid saponins (3- O – β -D-glucopyranosyl-(1→2)- β -D-glucuronopyranosyl-22- O -angeloyl-R1-barrigenol, 3- O - β -D-glucopyranosyl-(1→2)- β -D-glucuronopyranosyl-22- O -angeloyl-A1-barrigenol) and eryngioside J [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Elicitation with (+)-Usnic Acid on Accumulation of Phenolic Acids and Flavonoids in Agitated Microshoots of Eryngium alpinum L.

et al. 2021

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The present work was aimed at studying the potential of elicitation on the accumulation of phenolic compounds in in vitro shoot cultures of Eryngium alpinum L., a protected plant from the Apiaceae family. The study examined the influence of (+)-usnic acid on the biomass growth as well as on the biosynthesis of the desired flavonoids and phenolic acids in the cultured microshoots. The phenolic compound content was determined by HPLC-DAD. The flavonoid of the highest concentration was isoquercetin, and the phenolic acids of the highest amount were rosmarinic acid, caffeic acid and 3,4-dihydroxyphenylacetic acid, both in the non-elicited and elicited biomass. Isoquercetin accumulation was efficiently increased by a longer elicitation with a lower concentration of lichenic compound (107.17 ± 4.67 mg/100 g DW) or a shorter elicitation with a higher concentration of acid (127.54 ± 11.34 and 108.37 ± 12.1 mg/100 g DW). Rosmarinic acid production generally remained high in all elicited and non-elicited microshoots. The highest content of this acid was recorded at 24 h of elicitation with 3.125 µM usnic acid (512.69 ± 4.89 mg/100 g DW). The process of elicitation with (+)-usnic acid, a well-known lichenic compound with allelopathic nature, may therefore be an effective technique of enhancing phenolic compound accumulation in alpine eryngo microshoot biomass.

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Phytochemical Screening and Acanthamoebic Activity of Shoots from in Vitro Cultures and in Vivo Plants of Eryngium alpinum L.—The Endangered and Protected Species

Cited by 12 publications

References 33 publications

Chemical Composition of Essential Oils from Rare and Endangered Species—Eryngium maritimum L. and E. alpinum L.

Chemical Composition of Essential Oils from Rare and Endangered Species—Eryngium maritimum L. and E. alpinum L.

Two Ecdysteroids Isolated from Micropropagated Lychnis flos-cuculi and the Biological Activity of Plant Material

Effect of Elicitation with (+)-Usnic Acid on Accumulation of Phenolic Acids and Flavonoids in Agitated Microshoots of Eryngium alpinum L.

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