Molecular diversity of Annona species and proximate fruit composition of selected genotypes

Anuragi, Hirdayesh; Dhaduk, H. L.; Kumar, Sushil; Dhruve, J.J.; Parekh, Mithil J.; Sakure, Amar

doi:10.1007/s13205-016-0520-9

Cited by 26 publications

(13 citation statements)

References 23 publications

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“…The most useful aspects of this tree are Graviola leaves. It has active ingredients, bulatacin, asimisin, and squamosin, which contain acetogenins [24]. The presence of secondary metabolites like tannins, steroids, and cardiac glycoses was revealed by a chemical screening of Graviola extract [25].…”

Section: Introductionmentioning

confidence: 99%

Ameliorative Effect of Graviola (Annona muricata) on Mono Sodium Glutamate-Induced Hepatic Injury in Rats: Antioxidant, Apoptotic, Anti-inflammatory, Lipogenesis Markers, and Histopathological Studies

Shukry

El-Shehawi

El-Kholy

et al. 2020

Animals

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Monosodium glutamate (MSG) is a widely used food additive, and there is a trepidation that MSG plays a critical role in multiple hepatic disorders. This study was planned to investigate Graviola extract (GE) effects on hepatic and cellular alterations induced by MSG. Fifty Wistar rats were randomly allocated into five groups: control (received normal saline), Graviola (received 200 mg/kg body weight), MSG (received 2.4 gm MSG/kg, 15% of Lethal dose (LD50) of MSG), Graviola + monosodium glutamate (MSG + GE; received GE, 200 mg/kg/day and MSG 2.4 gm/kg body weight (BW) for the next four weeks), and monosodium glutamate + Graviola (received MSG only (2.4 gm/kg BW) daily for four weeks, then concomitant with Graviola (200 mg/kg BW) daily for the next four weeks. MSG and GR were administered orally for eight weeks. Our results showed that MSG caused a significant increase in oxidative stress markers malondialdehyde (MDA), reactive oxygen species (ROS), nitric oxide (NO), hydrogen peroxide (H2O2), proinflammatory cytokines interleukin 6 (IL-6) level, a tumor protein (P53), hepatic cellular damage, as well as proapoptotic markers caspase-3, and B-cell lymphoma 2 (BCL-2)-like protein 4 (Bax). A significant decrease in superoxide dismutase (SOD), catalase (CAT), glutathione S transferase (GST), reduced glutathione (GSH), and an antiapoptotic agent B-cell lymphoma 2 (BCl-2) was observed. The detected MSG effects were normalized by Graviola administration, either a prophylactic or protecting dose. Besides, Graviola reduced the expression of inducible nitric oxide synthase (iNOS) and hepatic fatty acid synthase (FAS) and led to the upregulation of the silent information regulator protein one gene expression gene (SIRT1).In conclusion, the results suggest that Gaviola’s interrelated antiapoptotic, antioxidant, and anti-inflammatory properties are potential mechanisms to enhance hepatic deficits and protect the liver. Graviola can, therefore, be considered a promising hepatoprotective supplement. Additionally, further human clinical trials are also necessary to validate the present research.

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Section: Introductionmentioning

confidence: 99%

Ameliorative Effect of Graviola (Annona muricata) on Mono Sodium Glutamate-Induced Hepatic Injury in Rats: Antioxidant, Apoptotic, Anti-inflammatory, Lipogenesis Markers, and Histopathological Studies

Shukry

El-Shehawi

El-Kholy

et al. 2020

Animals

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“…Many researchers were identified and isolated about two hundred chemical compounds from graviola; the most important being alkaloids, phenols and acetogenins [18]. Also, it has acetogenins-containing compounds, namely bulatacin, asimisin, and squamosin [19]. Also, Alitonou et al [20] detected numerous phenols, flavonoids, vitamins, and carotenoids in graviola leaves.…”

Section: Introductionmentioning

confidence: 99%

Graviola (Annona muricata) attenuates behavioural alterations and testicular oxidative stress induced by streptozotocin in diabetic rats

et al. 2019

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Oxidative stresses intensify the progression of diabetes-related behavioural changes and testicular injuries. Graviola (Annona muricata), a small tree of the Annonaceae family, has been investigated for its protective effects against diabetic complications, oxidative stress, and neuropathies. This study was planned to investigate the effects of graviola on behavioural alterations and testicular oxidative status of streptozotocin (STZ; 65 mg/kg)-induced diabetic rats. Forty adult male Wistar rats were equally allocated into four groups: control (received normal saline 8 ml/kg orally once daily), diabetic (received normal saline orally once daily), graviola (GR; received 100 mg/kg/day; orally once daily), and diabetic with graviola (Diabetic+GR; received 100 mg/kg/day; once daily). Behavioural functions were assessed using standard behavioural paradigms. Also, oxidative statuses of testis were evaluated. Results of behavioural observations showed that diabetes induced depression-like behaviours, reduction of exploratory and locomotor activities, decreased memory performance, and increased stress-linked behaviours. These variations in diabetic rats were happened due to oxidative stress. Interestingly, treatment of diabetic rats with graviola for four weeks alleviated all behavioural changes due to diabetes. Also, rats in graviola-treated groups had greater testicular testosterone and estradiol levels compared with diabetic rats due to significant rise in testicular acetyl-CoA acetyltransferase 2 expression. In the same context, graviola enhanced the antioxidant status of testicular tissues by significantly restoring the testicular glutathione and total superoxide dismutase that fell during diabetes. In addition, Graviola significantly decreased the expression of apoptotic (Bax) and inflammatory (interleukin-1β) testicular genes. In conclusion, these data propose that both the hypoglycemic and antioxidative potential of graviola are possible mechanisms that improve behavioural alterations and protect testis in diabetic animals. Concomitantly, further clinical studies in human are required to validate the current study.

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“…However, information on the composition, nutritional value and medicinal uses of the A. muricata seeds is still limited. Anuragi et al, (2016) report that the graviola seed is rich in oil and can be exploited in the oil industy. Elagbar et al, (2016) identified important fatty acids in the oil of A. muricata seeds and emphasized that this oil can be exploited for industrial, cosmetic, and medicinal purposes.…”

Section: Introductionmentioning

confidence: 99%

Potential of <em>Annona muricata</em> L. seed oil: phytochemical and nutritional characterization associated with non-toxicity

Pinto

Souza

et al. 2018

Grasas y Aceites

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SUMMARY:The aim of this study was to evaluate the nutritional quality, phenolic compounds, fatty acid and antioxidant activity in vitro as well as a toxicological screening of A. muricata seed oil in vivo. The chemical composition and quantification of phenolic compounds were determined by the Adolfo Lutz Institute normative. The antioxidant activity was evaluated by DPPH, FRAP and ABTS methods. The oil was extracted by chloroform/ methanol and precipitated crude (AmPtO) and supernatant oils (AmSO) were obtained. The fatty acid profile was evaluated by gas chromatography and total compounds by HPLC-DAD. BALB/C mice received AmPtO and AmSO (0.5 and 1.0mL·Kg -1 ) for 14 days. Toxicity parameters were assessed. The major fatty acids in the oil were oleic (39.2%) and linoleic (33%). HPLC-DAD suggested the presence of acetogenins (annonacin: 595 [M-H] -), with a greater presence in AmPtO. The AmPtO group showed toxicity, which may be related to the acetogenin content in AmPtO. The AmSO group showed no toxicity and this oil has potential for food or medicinal use. KEYWORDS:Acetogenins; Annona muricata seeds; Annonacin; Linoleic acid; Oleic acid RESUMEN: Potencial del aceite de Annona muricata L.: Caracterización nutricional y fitoquímica asociada con no toxicidad. El objetivo de este estudio fue evaluar la calidad nutricional, compuestos fenólicos, ácidos grasos, actividad antioxidante in vitro y evaluación toxicológica del aceite de las semillas de la Annona muricata. La composición química y los compuestos fenólicos se determinaron de acuerdo con las normas del Instituto Adolfo Lutz y la actividad antioxidante por métodos de DPPH, FRAP y ABTS. El aceite fue extraído con cloroformo/metanol obteniéndose un precipitado crudo (AmPtO) y un aceite sobrenadante (AmSO). El perfil de ácidos grasos fue evaluado por cromatografía gaseosa y los compuestos fitoquímicos mediante HPLC-DAD. BALB/C recibieron AmPtO y AmSO (0,5 y 1,0 mL·kg

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Molecular diversity of Annona species and proximate fruit composition of selected genotypes

Cited by 26 publications

References 23 publications

Ameliorative Effect of Graviola (Annona muricata) on Mono Sodium Glutamate-Induced Hepatic Injury in Rats: Antioxidant, Apoptotic, Anti-inflammatory, Lipogenesis Markers, and Histopathological Studies

Ameliorative Effect of Graviola (Annona muricata) on Mono Sodium Glutamate-Induced Hepatic Injury in Rats: Antioxidant, Apoptotic, Anti-inflammatory, Lipogenesis Markers, and Histopathological Studies

Graviola (Annona muricata) attenuates behavioural alterations and testicular oxidative stress induced by streptozotocin in diabetic rats

Potential of <em>Annona muricata</em> L. seed oil: phytochemical and nutritional characterization associated with non-toxicity

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