Libidibia ferrea (jucá), a Traditional Anti-Inflammatory: A Study of Acute Toxicity in Adult and Embryos Zebrafish (Danio rerio)

Ferreira, Diego Quaresma; Ferraz, Thamara O.; Araújo, Raquel Silva; Cruz, Rodrigo Alves Soares; Fernandes, Caio P.; Souza, Gisele Custódio de; Ortíz, Brenda Lorena Sánchez; Sarquis, Rosângela S. F. R.; Miranda, Jemima C. M. M.; Garrett, Rafael; Carvalho, José Carlos Tavares; Oliveira, Anna Eliza Maciel de Faria Mota

doi:10.3390/ph12040175

Cited by 19 publications

(9 citation statements)

References 30 publications

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“…ex Tul.) L. P. Queiroz Bark Phenolic compounds [39,40], tannin, flavonoid, and coumarin [40], gallic acid (phenolic acid), quinic acid (phenolic acid), kaempferol (flavonoid) [41,42], ellagic acid (phenolic acid) [43], tannins [44], catequin (flavonoid) [41], and epicatechin (flavonoid) [45] Branch Phenolic compounds, flavonoids, triterpenes, and saponins [46] Fruits Phenolic compounds [42,[46][47][48][49][50][51], flavonoids, triterpenes, saponins [46], tannins, catechin (tannin), epicatechin (tannin) [42,44,45,52], galloylquinic acid (tannin), galloyl-HHDP-hex (tannin), brevifolin carboxylic acid (tannin), valoneic acid dilactone (tannin), ellagic acid derivative (ellagic acid hex-) (phenolic acid), and dihydroisovaltrate [49], ellagic acid (phenolic acid), gallic acid (phenolic acid) [47,49,[53][54][55][56] Leaves Phenolic compounds [46,57], flavonoids, terpenes, saponins [46,58], alkaloids, cinnamic derivatives, heptacosane (alkane) [58], tannins [57,58], quercetin (flavonoid) [59], ellagic acid (phenolic acid), gallic acid (phenolic acid) [51,60] Seeds Ellagic acid (phenolic acid) [43] Dioclea grandiflora Mart. ex Benth…”

Section: Main Chemical Classes/bioactive Compoundsmentioning

confidence: 99%

Culture matters: A systematic review of antioxidant potential of tree legumes in the semiarid region of Brazil and local processing techniques as a driver of bioaccessibility

et al. 2022

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Ethnobotanical studies report that human populations from the Brazilian Caatinga biome use tree legumes (Fabaceae) with medicinal and food purposes. Our study provides a systematic review of the available published information concerning the antioxidant potential of Hymenaea courbaril L. (jatobá), Libidibia ferrea (Mart. Ex Tul.) L.P.Queiroz (jucá), and Dioclea grandiflora Mart. Ex Benth. (mucunã). Furthermore, in this paper, we infer the possible effects of local processing techniques applied to these plants on their antioxidant potential. In order to achieve these goals, we reviewed 52 articles, including studies from ethnobiology (n = 17), chemistry (n = 32), and food studies testing antioxidant activity (n = 17), excluding 14 repetitions. We found that these legume species can inhibit the formation of free radicals and this potential action varies among different parts of the plant. Probably, the presence of phenolic compounds such as phenolic acids and flavonoids, which are not uniformly distributed in the plants, explain their antioxidant activity. Local processing techniques (i.e., roasting, milling) affect the bioaccessibility of antioxidant components of tree legumes, inducing both positive and negative effects. However, studies about the antioxidant potential did not consider local processing techniques in their analyses. Our study highlights that culture is a fundamental driver of nutritional and pharmacological outcomes related to edible resources since it determines which parts of the plant people consume and how they prepare them. Hence, ignoring cultural variables in the analysis of antioxidant activity will produce inaccurate or wrong scientific conclusions.

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Section: Main Chemical Classes/bioactive Compoundsmentioning

confidence: 99%

Culture matters: A systematic review of antioxidant potential of tree legumes in the semiarid region of Brazil and local processing techniques as a driver of bioaccessibility

et al. 2022

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“…LC-HRMS/MS analysis of the hydromethanolic fruit extract revealed the presence of phytochemicals such as gallic acid, galloyl-glucose ester, gallic acid methyl glycoside, hexose, di- O -galloyl-d-hexose, corilagin, ellagic acid, eriodictyol- O -hexoside and naringenin- O -hexoside [ 1 ].…”

Section: Resultsmentioning

confidence: 99%

“…No behavioral changes were observed through toxicological tests using adult zebrafish ( Danio rerio ) as a model organism when these were exposed to the C. ferrea fruit ethanolic extract, however, histopathological analyzes of different tissues showed changes in their gills, intestines, and livers. In contrast, assays using 25, 50, and 125 mg/L concentrations of the extract showed embryonic lethality rates of 30, 33.3, and 10%, respectively, while higher concentrations (250 and 500 mg/L) triggered edema in the heart, yolk sac and scoliosis [ 1 ]. Meanwhile, the bark hydroalcoholic extract showed an LC 50 of 822.6334 µg/mL in the toxicity evaluation assay over Artemia salina L., this being considered a low toxicity [ 81 ].…”

Section: Resultsmentioning

confidence: 99%

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Caesalpinia ferrea C. Mart. (Fabaceae) Phytochemistry, Ethnobotany, and Bioactivities: A Review

et al. 2020

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Caesalpinia ferrea C. Mart., popularly known as “Jucá” or “Pau-ferro”, belongs to the Fabaceae family, and is classified as a native and endemic species in Brazil. Numerous studies that portray its ethnobotany, chemical composition, and biological activities exist in the literature. The present study aimed to systematically review publications addressing the botanical aspects, uses in popular medicine, phytochemical composition, and bioactivities of C. ferrea. The searches focused on publications from 2015 to March 2020 using the Scopus, Periódicos Capes, PubMed, Google Scholar, and ScienceDirect databases. The leaves, fruits, seeds, and bark from C. ferrea are used in popular medicine to treat disorders affecting several systems, including the circulatory, immune, cardiovascular, digestive, respiratory, genitourinary, musculoskeletal, and conjunctive systems. The most commonly found chemical classes in phytochemical studies are flavonoids, polyphenols, terpenoids, tannins, saponins, steroids, and other phenolic compounds. The biological properties of the extracts and isolated compounds of C. ferrea most cited in the literature were antibacterial, antifungal, antioxidant, antiproliferative, anti-inflammatory, and healing potential. However, further studies are still needed to clarify a link between its traditional uses, the active compounds, and the reported pharmacological activities, as well as detailed research to determine the toxicological profile of C. ferrea.

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“…80 Moreover, in the last few years, many transgenic, knockdown and mutant lineages have been created for pharmacological studies. 77,80 In Brazil, the zebrafish has been used for preclinical analysis of cancer drugs, [81][82][83][84] toxicological analysis of medicinal plant extracts, [85][86][87] and mainly in studies on several antipsychotic drugs. [88][89][90] A number of studies in this area focus on the toxicological effects of natural toxins, such as cyanotoxins 91,92 and cnidarian toxins 93,94 ; the latter and snake venom toxins may be useful for new drug development.…”

Section: Research Areasmentioning

confidence: 99%

Zebrafish as an Emerging Model System in the Global South: Two Decades of Research in Brazil

et al. 2020

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The zebrafish (Danio rerio) is an emerging model system in several research areas worldwide, especially in the Global South. In this context, the present study revised the historical use and trends of zebrafish as experimental models in Brazil. The data concerning the bibliometric parameters, research areas, geographic distribution, experimental design, zebrafish strain, and reporter lines, as well as recent advances were revised. In addition, the comparative trends of Brazilian and global research were discussed. Revised data showed the rapid growth of Brazilian scientific production using zebrafish as a model, especially in three main research areas (Neuroscience &and Behavior, Pharmacology and Toxicology, and Environment/Ecology). Studies were conducted in 19 Brazilian states (70.37%), confirming the wide geographic distribution and importance of zebrafish research. Results indicated that research related to toxicological approaches are widespread in Global South countries such as Brazil. Studies were performed mainly using in vivo tests (89.58%) with adult fish (59.75%) and embryos (30.67%). Moreover, significant research gaps and recommendations for future research are presented. The present study shows that the zebrafish is a suitable vertebrate model system in the Global South.

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Libidibia ferrea (jucá), a Traditional Anti-Inflammatory: A Study of Acute Toxicity in Adult and Embryos Zebrafish (Danio rerio)

Cited by 19 publications

References 30 publications

Culture matters: A systematic review of antioxidant potential of tree legumes in the semiarid region of Brazil and local processing techniques as a driver of bioaccessibility

Culture matters: A systematic review of antioxidant potential of tree legumes in the semiarid region of Brazil and local processing techniques as a driver of bioaccessibility

Caesalpinia ferrea C. Mart. (Fabaceae) Phytochemistry, Ethnobotany, and Bioactivities: A Review

Zebrafish as an Emerging Model System in the Global South: Two Decades of Research in Brazil

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