<i>Eugenia punicifolia</i> (Kunth) DC. as an Adjuvant Treatment for Type‐2 Diabetes Mellitus: A non‐Controlled, Pilot Study

Sales, Débora Simone; Carmona, Fábio; Azevedo, Bruna Cestari de; Contini, Sílvia Helena Taleb; Bartolomeu, Ana Carolina Duó; Honorato, Fernando B.; Martinez, Edson Zangiacomi; Pereira, Ana Maria Soares

doi:10.1002/ptr.5206

Cited by 25 publications

(16 citation statements)

References 26 publications

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“…The MS/MS fragmentation produced a deprotonated aglycone ion at m/z 301 [M-146-H] − due loss a sugar moiety of 146 Da and m/z 271 typical of flavon-3- O -monoglycoside [ 41 ] and 179 from RDA of ring A. Two isomeric compounds ions observed with [M–H] − at m/z 463, whose MS/MS main fragmentation produced a deprotonated aglycone form myricetin ion at m/z 317 [M-146-H] − (loss of a sugar moiety of 146 units), indicates that the compound is a myricetin monohexoside (myricetin 3-O-galactoside or myricetin 3-O-rhamnoside) and another isomer peak ion at m/z 301 with its [M-162-H] − (loss of a sugar moiety of 162 units), an indicative of quercetin monohexoside, and the hexose could be glucoside or galactoside [ 42 ]. Dissociation of fragment m/z 593 showed a loss of 308 units (corresponding to a rhamnose plus glucose group) and yielded directly a fragment ion at m/z 285 (assigned as kaempferol).…”

Section: Resultsmentioning

confidence: 99%

Eugenia aurata and Eugenia punicifolia HBK inhibit inflammatory response by reducing neutrophil adhesion, degranulation and NET release

Costa

Jesus

Lopes

et al. 2016

BMC Complement Altern Med

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Background Eugenia spp. are used in popular medicine in the treatment of pain, diabetes, intestinal disorders and cough. The aim of the work is to evaluate, ex vivo and in vivo, the anti-inflammatory activity of the hydroethanolic extracts of the leaves of Eugenia aurata (EA) and Eugenia punicifolia HBK (EP) upon neutrophils.MethodsEx vivo, isolated human neutrophils were sensitized by Eugenia extracts (0.1–1000 μg/mL) and stimulated by PMA. In these conditions, different neutrophil activities related to inflammatory process were measured: adhesion, degranulation and NET release. Neutrophil viability and tumor line cells were monitored. In vivo, neutrophil influx was evaluated by peritonitis model performed in mice pretreated with different concentrations of Eugenia extracts. Phytochemical profile was assessed by mass spectrometry.ResultsEx vivo, EA and EP (1000 μg/mL) reduced cell adhesion and degranulation, respectively. NET release was inhibited by EA and EP. Anti-inflammatory activities occurred in the absence of cytotoxicity. In vivo, both EA as EP inhibited neutrophil migration. The phytochemical profile revealed that EA contains myricitrin, rutin, quinic acid and quercetin derivatives. EP presents gallic acid, quercetin derivatives, syringic acid, ellagic acid, monogalloyl-glucose, glycosyringic acid, mudanoside B, HHDP glucose isomer and digalloylglucose isomer. EA and EP inhibit neutrophil migration by different pathways.ConclusionDifferent chemical compositions may explain the anti-inflammatory effects described herein for EA and EP. Both extracts inhibit NET release but only EA reduces cell adhesion whereas EP decreases elastase secretion. This work contributes to the elucidation of cellular mechanisms related to the anti-inflammatory activity for leaves of E. aurata and E. punicifolia HBK.

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Section: Resultsmentioning

confidence: 99%

Eugenia aurata and Eugenia punicifolia HBK inhibit inflammatory response by reducing neutrophil adhesion, degranulation and NET release

Costa

Jesus

Lopes

et al. 2016

BMC Complement Altern Med

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“…The majority of studies conducted more than a decade ago focused on the anti-hyperglycemic effects Myr alone (51)(52)(53)(54)(55). A non-controlled, pilot study reported that Eugenia punicifolia (Kunth) DC (Myrtaceae), which is rich in Myr, could be used as adjuvant therapy for T2DM (56). However, a prospective study showed that none of the total flavonols and flavones, quercetin, kaempferol, myricetin, apigenin, or luteolin, were significantly associated with an increased risk of T2DM (57).…”

Section: Discussionmentioning

confidence: 99%

The Protective Effects of Myricetin against Cardiovascular Disease

Wang

Yang³

et al. 2019

J Nutr Sci Vitaminol

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Cardiovascular disease (CVD) is the leading cause of death globally, except Africa, and poses a severe health burden worldwide. Both in vitro and in vivo studies have demonstrated the protective effects of myricetin for preventing CVD. For this review, we have assessed the literature from 2009 to 2019 at home and abroad to uncover the protective roles of myricetin for preventing CVD. Myricetin exhibits cardioprotective, anti-hypertensive, anti-atherosclerotic, anti-hyperglycemic, and anti-hyperlipidemic effects. In addition, myricetin may alleviate some of the complications caused by adult-onset diabetes. The combined functions of myricetin allow for the prevention of CVD. This review describes the possible therapeutic benefits of myricetin, along with its potential mechanisms of action, to support the clinical use of the myricetin for the prevention of CVD.

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“…Subfractions C9‐4 and C11 were purified by solid phase extraction on Supelclean ™ LC‐18 SPE (6 ml) cartridges ( Sigma‐Aldrich ) eluted with water‐methanol (9:1, v / v ). The purified samples were analyzed by analytical HPLC according to the procedure described by Sales et al . The analytical system comprised a Shimadzu model SPD 20A chromatograph with diode array detector and a Phenomenex Luna C18 reversed phase column (250 × 4.6 mm; 5 μm particle size).…”

Section: Methodsmentioning

confidence: 99%

Costus spiralis (Jacq.) Roscoe: A Novel Source of Flavones with α‐Glycosidase Inhibitory Activity

Oliveira

Coppede

Bertoni

et al. 2017

Chemistry & Biodiversity

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Costus spiralis, a plant used in traditional Brazilian medicine for the treatment of complications in diabetes, was investigated. Assay of hexane, ethyl acetate, methanol, and aqueous fractions obtained by partition of a crude methanol extract of dried leaves of C. spiralis revealed that AGI activity was confined to the ethyl acetate fraction. Purification of this fraction yielded schaftoside and isoschaftoside. The AGI activities of the two flavones were lower than, but comparable with, that of the anti-diabetic drug acarbose. In contrast, the IC 50 value of the ethyl acetate fraction was 1.95-, 2.34-, and 2.22-fold higher than those of acarbose, schaftoside, and isoschaftoside, respectively. The results demonstrate for the first time that schaftoside and isoschaftoside are responsible, in part, for the AGI activity of C. spiralis. Our study suggests that further investigations into C. spiralis may lead to the discovery of additional compounds with antihyperglycemic activity.

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Eugenia punicifolia (Kunth) DC. as an Adjuvant Treatment for Type‐2 Diabetes Mellitus: A non‐Controlled, Pilot Study

Cited by 25 publications

References 26 publications

Eugenia aurata and Eugenia punicifolia HBK inhibit inflammatory response by reducing neutrophil adhesion, degranulation and NET release

Eugenia aurata and Eugenia punicifolia HBK inhibit inflammatory response by reducing neutrophil adhesion, degranulation and NET release

The Protective Effects of Myricetin against Cardiovascular Disease

Costus spiralis (Jacq.) Roscoe: A Novel Source of Flavones with α‐Glycosidase Inhibitory Activity

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