Quantitative HPLC determination of cynaropicrin in Centaurea Scabiosa dry extract

Каминский, Илья Петрович; Krasnov, E. A.; Kadyrova, T. V.; Ивасенко, С. А.; Рахимова, Б. Б.; Адекенов, С. М.

doi:10.1007/s11094-011-0679-7

Cited by 4 publications

(3 citation statements)

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“…(Milošević Ifantis et al, 2013), the endemic Turkish plant Centaurea hermannii (Öksüz et al, 1994), the flowers of the endemic Turkish plant Centaurea helenioides Boiss. (Yayli et al, 2006), Centaurea scabiosa L. (Kaminskii et al, 2011), Centaurea phaeopappoides and C. thracica (Nowak et al, 1989), Centaurea americana (Ohno et al, 1973), Centaurea ragusina L. subspecies ragusina growing in Egypt (Mahmoud et al, 1986), Centaurea canariensis (Gonzalez et al, 1978), Centaurea repens (Stevens, 1982), Centaurea kotschyi (Oksuz and Putun, 1983), Centaurea arguta (Gadeschi et al, 1989); the roots of the Chinese plant Vladimiria denticulate (Jinyun et al, 2002), the aerial parts of Leuzea rhapontica helenifolia (Nowak et al, 1988), Leuzea carthamoides DC (Sovová et al, 2008), Acroptilon repens (Zhao et al, 2006), Cheirolophus species (Marco et al, 1994), from three species of Cheirolophus endemic to the Canary Islands (Gonzalez et al, 1993), some species of subtribe Centaureinae Dumort (Nowak et al, 1986), Volutaria abyssinica (Marzouk, 2015), the aerial parts of three species of the genus Cousinia (Marco et al, 1993), the aerial parts of Cousinia adenostica (Rustaiyan et al, 1987), Aegopordon berarioides (Izaddoost et al, 1985), Grossheimia macrocephala (Barbetti et al, 1985), Amberboa divericata (Rojatkar et al, 1997), Amberboa ramose (Harrison and Kulshreshtha, 1984), Amberboa tubuliflora (Ahmed et al, 1990), Volutarella divaricata (Forgacs et al, 1981), from Chartolepis intermedia, C. glastifolia, C. biebersteinii , and C. pterocaula, Vernonia glutinosa (Rakotoarimanga et al, 1992), Brachylaena species (Zdero et al, 1991), and Artemisia xerophytica (Tan et al, 1991). …”

Section: Sources Of Cynaropicrinmentioning

confidence: 99%

Cynaropicrin: A Comprehensive Research Review and Therapeutic Potential As an Anti-Hepatitis C Virus Agent

2016

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The different pharmacologic properties of plants-containing cynaropicrin, especially artichokes, have been known for many centuries. More recently, cynaropicrin exhibited a potential activity against all genotypes of hepatitis C virus (HCV). Cynaropicrin has also shown a wide range of other pharmacologic properties such as anti-hyperlipidemic, anti-trypanosomal, anti-malarial, antifeedant, antispasmodic, anti-photoaging, and anti-tumor action, as well as activation of bitter sensory receptors, and anti-inflammatory properties (e.g., associated with the suppression of the key pro-inflammatory NF-κB pathway). These pharmacological effects are very supportive factors to its outstanding activity against HCV. Structurally, cynaropicrin might be considered as a potential drug candidate, since it has no violations for the rule of five and its water-solubility could allow formulation as therapeutic injections. Moreover, cynaropicrin is a small molecule that can be easily synthesized and as the major constituent of the edible plant artichoke, which has a history of safe dietary use. In summary, cynaropicrin is a promising bioactive natural product that, with minor hit-to-lead optimization, might be developed as a drug for HCV.

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Section: Sources Of Cynaropicrinmentioning

confidence: 99%

Cynaropicrin: A Comprehensive Research Review and Therapeutic Potential As an Anti-Hepatitis C Virus Agent

2016

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“…Currently, cynaropicrin is mainly extracted from different types of biomass using volatile and often toxic organic solvents, such as chloroform (Bhattacharyya et al 1995) and dichloromethane (Ramos et al 2013), leading to several human risks and safety issues and to a poor environmental performance. Other methods used include the extraction of cynaropicrin with water at elevated temperatures (Bernhard 1982), and with supercritical CO 2 (Sovová et al 2008), or related mixtures making use of co-solvents (Kaminskii et al 2011), to improve the extraction yields. These methods have some disadvantages since they require several hours of extraction, are energyconsuming, may require the use of more sophisticated equipment and result in low cynaropicrin yields (Bernhard 1982;Bhattacharyya et al 1995;Kaminskii et al 2011;Sovová et al 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Other methods used include the extraction of cynaropicrin with water at elevated temperatures (Bernhard 1982), and with supercritical CO 2 (Sovová et al 2008), or related mixtures making use of co-solvents (Kaminskii et al 2011), to improve the extraction yields. These methods have some disadvantages since they require several hours of extraction, are energyconsuming, may require the use of more sophisticated equipment and result in low cynaropicrin yields (Bernhard 1982;Bhattacharyya et al 1995;Kaminskii et al 2011;Sovová et al 2008). Therefore, in the past decade, much interest has been devoted to the development of more costefficient and sustainable solvents and methods for the extraction of value-added compounds from biomass, which, apart from supercritical CO 2 , comprises mainly ionic liquids (ILs) and, more recently, deep eutectic solvents (DES) and their natural counterparts (NADES) (Paiva et al 2014;Passos et al 2014;da Ponte 2017).…”

Section: Introductionmentioning

confidence: 99%

Extraction and recovery processes for cynaropicrin from Cynara cardunculus L. using aqueous solutions of surface-active ionic liquids

et al. 2018

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Due to the wide range of relevant biological activities and high commercial value of cynaropicrin, and aiming at developing cost-effective processes, aqueous solutions of ionic liquids (ILs) were investigated for the extraction and recovery of cynaropicrin from the leaves of Cynara cardunculus L. Both cationic (1-alkyl-3-methylimidazolium chloride) and anionic (cholinium carboxylate) surface-active ILs were investigated, as well as a wide range of conventional surfactants and molecular organic solvents, allowing us to conclude that aqueous solutions of cationic surface-active ILs display a better performance for the extraction of cynaropicrin. Operational conditions were optimized, leading to a cynaropicrin extraction yield of 3.73 wt%. The recycling of both the biomass and the solvent were further investigated to appraise the extraction media saturation and to achieve a higher cynaropicrin extraction yield (6.47 wt%). Finally, it was demonstrated that 65 wt% of the extracted cynaropicrin can be efficiently recovered by precipitation from the IL aqueous extract through the addition of water as anti-solvent, allowing us to put forward both the extraction and recovery processes of the target value-added compound from biomass followed by solvent recycling. This approach opens the door to the development of more sustainable processes using aqueous solutions of ILs instead of the volatile organic solvents commonly used in biomass processing.

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Sesquiterpenoids in subtribe Centaureinae (Cass.) Dumort (tribe Cardueae, Asteraceae): Distribution, 13C NMR spectral data and biological properties

et al. 2013

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Quantitative HPLC determination of cynaropicrin in Centaurea Scabiosa dry extract

Cited by 4 publications

References 1 publication

Cynaropicrin: A Comprehensive Research Review and Therapeutic Potential As an Anti-Hepatitis C Virus Agent

Cynaropicrin: A Comprehensive Research Review and Therapeutic Potential As an Anti-Hepatitis C Virus Agent

Extraction and recovery processes for cynaropicrin from Cynara cardunculus L. using aqueous solutions of surface-active ionic liquids

Sesquiterpenoids in subtribe Centaureinae (Cass.) Dumort (tribe Cardueae, Asteraceae): Distribution, 13C NMR spectral data and biological properties

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