Dryopteris juxtapostia Root and Shoot: Determination of Phytochemicals; Antioxidant, Anti-Inflammatory, and Hepatoprotective Effects; and Toxicity Assessment

An estimated 450 species of in the Dryoperidaceae family grow in Japan, North and South Korea, China, Pakistan, and Kashmir. This genus has been reported to have biological capabilities; however, research has been conducted on . Therefore, with the present study, we aimed to exploring the biological...

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Published in:Antioxidants 2022-08, Vol.11 (9), p.1670
Main Authors: Rani, Abida, Uzair, Muhammad, Ali, Shehbaz, Qamar, Muhammad, Ahmad, Naveed, Abbas, Malik Waseem, Esatbeyoglu, Tuba
Format: Article
Language:English
Subjects:
Animals
Antioxidants
Brines
Carrageenans
Catechin
Cytology
Cytotoxicity
Dichloromethane
Dryopteris
Edema
Epicatechin
Flavonoids
Flowers & plants
Formaldehyde
HeLa cancer
Hepatocytes
hepatoprotective effects
Herbal medicine
Hydrogen peroxide
Infiltration
Inflammation
Kaempferol
Lethality
mass spectrometry
Methanol
oxidation
Oxidative stress
Paracetamol
Phenols
Phytochemicals
Prostate cancer
Quercetin
Quinic acid
Seawater
Shoots
Urease
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Summary:An estimated 450 species of in the Dryoperidaceae family grow in Japan, North and South Korea, China, Pakistan, and Kashmir. This genus has been reported to have biological capabilities; however, research has been conducted on . Therefore, with the present study, we aimed to exploring the biological potential of root and shoot extracts. We extracted dichloromethane and methanol separately from the roots and shoots of . Antioxidant activity was determined using DPPH, FRAP, and H O assays, and anti-inflammatory activities were evaluated using both in vitro (antiurease activity) and in vivo (carrageenan- and formaldehyde-induced paw edema) studies. Toxicity was evaluated by adopting a brine shrimp lethality assay followed by determination of cytotoxic activity using an MTT assay. Hepatoprotective effects of active crude extracts were examined in rats. Activity-bearing compounds were tentatively identified using LC-ESI-MS/MS analysis. Results suggested that root dichloromethane extract exhibited better antioxidant (DPPH, IC of 42.0 µg/mL; FRAP, 46.2 mmol/g; H O , 71% inhibition), anti-inflammatory (urease inhibition, 56.7% at 50 µg/mL; carrageenan-induced edema inhibition, 61.7% at 200 µg/mL; formaldehyde-induced edema inhibition, 67.3% at 200 µg/mL), brine shrimp % mortality (100% at 1000 µg/mL), and cytotoxic (HeLa cancer, IC of 17.1 µg/mL; prostate cancer (PC3), IC of 45.2 µg/mL) effects than root methanol extract. shoot dichloromethane and methanol extracts exhibited non-influential activity in all biological assays and were not selected for hepatoprotective study. root methanol extract showed improvement in hepatic cell structure and low cellular infiltration but, in contrast the dichloromethane extract, did not show any significant improvement in hepatocyte morphology, cellular infiltration, or necrosis of hepatocytes in comparison to the positive control, i.e., paracetamol. LC-ESI-MS/MS analysis showed the presence of albaspidin PP, 3-methylbutyryl-phloroglucinol, flavaspidic acid AB and BB, filixic acid ABA and ABB, tris-desaspidin BBB, tris-paraaspidin BBB, tetra-flavaspidic BBBB, tetra-albaspidin BBBB, and kaempferol-3- -glucoside in the dichloromethane extract, whereas kaempferol, catechin, epicatechin, quinic acid, liquitrigenin, and quercetin 7- -galactoside in were detected in the methanol extract, along with all the compounds detected in the dichloromethane extract. Hence, is safe, alongside other species of this genus, although detailed safety
ISSN:2076-3921
2076-3921
DOI:10.3390/antiox11091670