Phenolic Compounds and Sesquiterpene Lactones Profile in Leaves of Nineteen Artichoke Cultivars

Rouphael, Youssef; Bernardi, Jamila; Cardarelli, Mariateresa; Bernardo, Letizia; Kane, David; Colla, Giuseppe; Lucini, Luigi

doi:10.1021/acs.jafc.6b03856

Cited by 64 publications

(54 citation statements)

References 49 publications

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“…is part of the Compositae (Asteraceae) family; it was already used as a vegetable in ancient Egypt and has been cultivated in Southern Europe since the 15th century. In contrast to other Compositae, artichokes synthesize a limited number of STLs, mainly cynaropicrin, grosheimin, and its derivative 8‐deoxy‐11,13‐dihydroxygrosheimin, all components mostly present in the leaves . Accordingly, patients sensitized to artichoke do not always react to other extracts or plants from the same family .…”

Section: Discussionmentioning

confidence: 99%

Airborne allergic contact dermatitis caused by artichoke

et al. 2020

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K E Y W O R D S : airborne, allergic contact dermatitis, artichoke, case report, plant, sesquiterpene lactones CASE REPORTS Case 1. A 71-year-old nonatopic woman was referred for evaluation of erythematous and edematous lesions on her face and left forearm with scaling during the following days (Figure 1). She reported a similar episode the year before, during the same season, around March. Both episodes occurred shortly after she handled artichokes and cardoons (artichoke thistle; Cynara cardunculus) in her garden. Patch tests were performed on the upper back using IQ Ultra chambers (Chemotechnique Diagnostics, Vellinge, Sweden) occluded for 2 days with Opertape (Iberhospitex, Innovative Health Technologies, Barcelona, Spain). The European baseline series was tested along with additional series from the réseau de vigilance en dermato-allergologie group, a plant series (except for Taraxacum officinale and Tanacetum vulgare extracts), the leaf and stalk of common artichokes "as is," and were read on day (D) 2 and D4 according to the ESCD recommendations. 1 Positive reactions with sesquiterpene lactone (STL) mix 0.1% pet. (+ on D2, ++ on D4), Compositae mix (CM) II 5% pet. (++ on D2 and D4), Chrysanthemum cinerariaefolium extract 1.0% pet. (+ on D2, ++ on D4), parthenolide 0.1% pet. (+ on D4), and to artichoke leaf (+ on D2, ++ on D4) were observed (Figure 2(A)).Cardoon was not tested.Case 2. A 41-year-old man with a history of seasonal rhinoconjunctivitis was referred for severe eczematous lesions on his face, neck, and forearms (Figure 3). Cutaneous lesions relapsed whenever he worked as a seasonal employee in a farming cooperative (where he had been working for 4 years), mainly handling artichokes.The same patch tests series as in the previous patient were tested, and positive test reactions to methyldibromo glutaronitrile 0.5% pet.(+ on D3), STL mix 0.1% pet. (++ on D3), CM II 5% pet. (?+ on D3), artichoke stalk (+ on D2 and D3), and to dried artichoke stalk and leaf (+ on D2 and ++ on D3) (Figure 2(B)) were observed. No skin relapse was observed after he stopped handling artichokes, although he continued to work in the same place.

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Section: Discussionmentioning

confidence: 99%

Airborne allergic contact dermatitis caused by artichoke

et al. 2020

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“…The effectiveness of PCA in elucidating the effects of genetic materials and several pre and postharvest factors on productivity and especially on quality parameters of several horticultural crops has been documented in several greenhouse and open-field studies [9,20,45,52,53]. This was also the case in the current study, since the score plot of the PCA clearly divided the PB-treated and untreated plants along PC1 with biostimulant treatments concentrating most of the morphometric (yield and dry biomass) and physicochemical parameters (leaf dry matter, protein, total phenols and ascorbic acid as well as K, Ca and Mg contents ( Figure 5).…”

Section: Principal Component Analysismentioning

confidence: 99%

Plant- and Seaweed-Based Extracts Increase Yield but Differentially Modulate Nutritional Quality of Greenhouse Spinach through Biostimulant Action

et al. 2018

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Plant biostimulants (PBs) such as protein hydrolysates and seaweed extracts are attracting the increasing interest of scientists and vegetable growers for their potential toenhance yield and nutritional quality. The current study assessed crop productivity, leaf colorimetry, mineral profile and bioactive compounds of greenhouse spinach in response to the foliar application of three PBs: legume-derived protein hydrolysate [PH], extract of seaweed Ecklonia maxima or mixture of vegetal oils, herbal and seaweed Ascophyllum nodosum extracts. Plants were PB-treated at a rate of 3 mL L −1 four times during their growth cycle at weekly intervals. Foliar PB applications enhanced fresh yield, dry biomass and leaf area of spinach in comparison with untreated plants. Improved yield performance with PB applications was associated with improved chlorophyll biosynthesis (higher SPAD index). The three PB treatments elicited an increase in bioactive compounds (total phenols and ascorbic acid), thus raised the functional quality of spinach. The application of PH enhanced K and Mg concentrations and did not result in increased nitrate accumulation as observed with the other two PB treatments. Our findings can assist vegetable farmers and the agro-food industry in adopting innovative and sustainable tools such as PB for complementing a high yield with premium quality.

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“…Monocaffeoylquinic acids, namely 1‐, 3‐, and 5‐ O ‐caffeoylquinic acids were described in leaves, stalks and capitula of wild cardoon, artichoke, and cultivated cardoon . Until now, 4‐ O ‐caffeoylquinic acid has only been identified in artichoke and wild cardoon, with a wide range of variation between accessions. Studies of cardoon heads have identified 5‐ O ‐caffeoylquinic acid as the main phenolic compound in aqueous and hydroalcoholic extracts (108 mg g −1 dw) with a relative abundance ranging between 18–36 % .…”

Section: Bioactive Compoundsmentioning

confidence: 99%

“…Ferulic acid was detected in cis ( Z ) and trans ( E ) forms in leaves (328 mg kg −1 dw), heads (79 mg kg −1 dw), flowers (69 mg kg −1 dw), and stems (34 mg kg −1 dw) of cultivated cardoon. Three monocoumaroylquinic acids (3‐, 4‐ and 5‐ p ‐coumaroylquinic acids) were analyzed in artichoke leaves and only the 3‐ p ‐coumarouylquinic acid was detected in cardoon flowers (0.5 mg g −1 dw) …”

Section: Bioactive Compoundsmentioning

confidence: 99%

“…Anthocyanin pigments were present only in heads in the form of glucosides and sophorosides. A total of 68 anthocyanin compounds derived from cyanidin, dephinidin, malvidin, petunidin, pelargonidin, and peonidin were detected . These pigments, besides their health‐promoting properties, are responsible for the color of artichoke capitula which ranges from green to violet and therefore play an important role in food acceptance by consumers …”

Section: Bioactive Compoundsmentioning

confidence: 99%

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Cardoon as a Sustainable Crop for Biomass and Bioactive Compounds Production

Barracosa

Pires

2019

Chemistry & Biodiversity

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Cardoon is a multi-purpose and versatile Mediterranean crop, adapted to climate change, with a wide spectrum of potential applications due its added value as a rich source of fibers, oils and bioactive compounds. The Cynara species are a component of the Mediterranean diet and have been used as food and medicine since ancient times. The important role of cardoon in human nutrition, as a functional food, is due to its high content of nutraceutical and bioactive compounds such as oligofructose inulin, caffeoylquinic acids, flavonoids, anthocyanins, sesquiterpenes lactones, triterpenes, fatty acids and aspartic proteases. The present review highlights the characteristics and functions of cardoon biomass which permits the development of innovative products in food and nutrition, pharmaceutics and cosmetics, plant protection and biocides, oils and energy, lignocellulose materials, and healthcare industries following the actual trends of a circular economy.

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Phenolic Compounds and Sesquiterpene Lactones Profile in Leaves of Nineteen Artichoke Cultivars

Cited by 64 publications

References 49 publications

Airborne allergic contact dermatitis caused by artichoke

Airborne allergic contact dermatitis caused by artichoke

Plant- and Seaweed-Based Extracts Increase Yield but Differentially Modulate Nutritional Quality of Greenhouse Spinach through Biostimulant Action

Cardoon as a Sustainable Crop for Biomass and Bioactive Compounds Production

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