Nanoliposomes encapsulation of enriched phenolic fraction from pistachio hulls and its antioxidant, anti-inflammatory, and anti-melanogenic activities

Oskoueian, Ehsan; Karimi, Ehsan; Noura, Reza; Ebrahimi, Mahdi; Shafaei, Negin; Karimi, Ensiyeh

doi:10.1080/02652048.2019.1692941

Cited by 37 publications

(33 citation statements)

References 36 publications

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“…Finally, the extract was ltered and the ltrate was evaporated at the temperature of 60 o C by rotary evaporator (Buchi, Flawil, Switzerland). In the second step, the dried aqueous-methanolic extract was fractionated using separating funnel and different solvents including hexane, chloroform, ethyl acetate, n-butanol, and water-based on the Oskoueian et al [32]. Upon fractionation, the supernatant was ltered and concentrated using a vacuumed rotary evaporator.…”

Section: Fractionation and Total Phenolic Determinationmentioning

confidence: 99%

“…The total phenolic compounds (TPC) evaluation of each fraction was carried out by adding 0.1 ml of the extract, 2.5 ml of Folin-Ciocalteu reagent (1:10 v/v), and 2 ml of 7.5 % sodium carbonate into a test tube covered with aluminum foil. The test tubes were vortexed and the absorbance was measured at 765 nm [32]. The results were expressed as milligrams of gallic acid equivalents (GAE) per gram dry weight.…”

Section: Fractionation and Total Phenolic Determinationmentioning

confidence: 99%

“…Moreover, Field Emission Scanning Electron Microscopy (FESEM) was applied to verify the shape and nanoliposomes size dimensions. The total phenolic content of nanoliposomes was determined as described earlier in the fractionation section [32].…”

Section: Characterization Of Nanoliposomesmentioning

confidence: 99%

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Nanoliposome-encapsulated Phenolic Rich Fraction From Alcea Rosea as a Dietary Phytobiotic in Mice Challenged by Escherichia Coli

Hassirian

Karimi

Oskoueian

2021

Preprint

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Background: This research was performed to evaluate the antibacterial and health-promoting potentials of the nanoliposome-encapsulated phenolic rich fraction (PRF) from Alcea rosea leaves as a dietary phytobiotic in mice challenged by enteropathogenic Escherichia coli (E. coil; O157: H7). Results: The overall results demonstrated that the nanoliposome-loaded PRF contained gallic acid, salicylic acid, pyrogallol, cinnamic acid, catechin, naringin, ferulic acid. The E. coil challenge in mice impaired the weight gain, food intake, liver enzymes, lipid peroxidation, morphometric characteristics of the ileum, up-regulated the inflammatory genes (COX2, iNOS), down-regulated the antioxidant-related genes (SOD and GPx) and increased the population of E. coil in the ileum. The dietary inclusion of nonencapsulated PRF and nanoliposome-encapsulated PRF at the concentration of 10 mg TPC/kg BW/day improved these parameters however the nanoliposome-encapsulated PRF appeared to be more effective as compared to nonencapsulated PRF in improving the health parameters in mice. Conclusion: Consequently, the nanoliposome-encapsulated PRF could play a critical role as a promising phytobiotic against E. coil infection in mice.

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Section: Fractionation and Total Phenolic Determinationmentioning

confidence: 99%

Section: Fractionation and Total Phenolic Determinationmentioning

confidence: 99%

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Nanoliposome-encapsulated Phenolic Rich Fraction From Alcea Rosea as a Dietary Phytobiotic in Mice Challenged by Escherichia Coli

Hassirian

Karimi

Oskoueian

2021

Preprint

Self Cite

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show abstract

“…Finally, the extract was ltered and the ltrate was evaporated at the temperature of 60 o C by rotary evaporator (Buchi, Flawil, Switzerland). In the second step, the dried aqueous-methanolic extract was fractionated using separating funnel and different solvents including hexane, chloroform, ethyl acetate, n-butanol, and water-based on the Oskoueian et al (Oskoueian et al 2020). Upon fractionation, the supernatant was ltered and concentrated using a vacuumed rotary evaporator.…”

Section: Fractionation and Total Phenolic Determinationmentioning

confidence: 99%

Nanoliposome-Encapsulated Phenolic Rich Fraction From Alcea Rosea as a Dietary Phytobiotic in Mice Challenged by Escherichia Coli

Hassirian¹,

Karimi²,

Oskoueian³

2021

Preprint

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Purpose This research was performed to evaluate the antibacterial and health-promoting potentials of the nanoliposome-encapsulated phenolic rich fraction (PRF) from Alcea rosea leaves as a dietary phytobiotic in mice challenged by enteropathogenic Escherichia coli (E. coil; O157: H7). Method: The PEF was encapsulated in nanoliposomes (PEF-NLs) and the phenolic profiling of PEF-NLs was confirmed by HPLC. Then 40 white male balb/c mice at four treatment groups were provided and antibacterial potential of PEF-NLs were assessed by measuring the mice blood parameters and liver lipid peroxidation in mice infected by E. coli. Finally, the expression of cyclooxygenase 2 (COX2), inducible nitric oxide synthase (iNOS), superoxide dismutase (SOD) and glutathione peroxidase (GPx) were determined in miceʼs ileum tissues. Meanwhile, relative fold changes in the ileum population of E. coli was analyzed using Real time PCR. Results The overall results demonstrated that the nanoliposome-loaded PRF contained gallic acid, salicylic acid, pyrogallol, cinnamic acid, catechin, naringin, ferulic acid. The E. coil challenge in mice impaired the weight gain, food intake, liver enzymes, lipid peroxidation, morphometric characteristics of the ileum, up-regulated the inflammatory genes (COX2, iNOS), down-regulated the antioxidant-related genes (SOD and GPx) and increased the population of E. coil in the ileum. The dietary inclusion of nonencapsulated PRF and nanoliposome-encapsulated PRF at the concentration of 10 mg TPC/kg BW/day improved these parameters however the nanoliposome-encapsulated PRF appeared to be more effective as compared to nonencapsulated PRF in improving the health parameters in mice. Conclusion Consequently, the nanoliposome-encapsulated PRF could play a critical role as a promising phytobiotic against E. coil infection in mice.

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“…A water-soluble molecule can be encapsulated in the aqueous core while hydrophobic molecules can be entrapped in the lipid bilayer [186]. Liposomes have been used as carriers to facilitate the processing of various bioactive molecules in food, cosmetic, pharmaceutical, and farming products [187,188,189,190,191,192]. Encapsulating drugs in liposomes has proven to be a promising technique in drug delivery due to their biocompatibility, biodegradability, and non-immunogenicity for systemic and nonsystemic administrations [ 193,194,195,196].…”

Section: Introductionmentioning

confidence: 99%

Extended Release of DTPA via Encapsulation into Nanoparticles for the Decorporation of Deposited Radioactive Contaminants in the Lungs

Almalki¹

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Nanoliposomes encapsulation of enriched phenolic fraction from pistachio hulls and its antioxidant, anti-inflammatory, and anti-melanogenic activities

Cited by 37 publications

References 36 publications

Nanoliposome-encapsulated Phenolic Rich Fraction From Alcea Rosea as a Dietary Phytobiotic in Mice Challenged by Escherichia Coli

Nanoliposome-encapsulated Phenolic Rich Fraction From Alcea Rosea as a Dietary Phytobiotic in Mice Challenged by Escherichia Coli

Nanoliposome-Encapsulated Phenolic Rich Fraction From Alcea Rosea as a Dietary Phytobiotic in Mice Challenged by Escherichia Coli

Extended Release of DTPA via Encapsulation into Nanoparticles for the Decorporation of Deposited Radioactive Contaminants in the Lungs

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