Payam Morakabati scite author profile

Acetaminophen is a commonly used analgesic drug that induces hepatotoxicity at high doses and produces the acetaminophen metabolite N-acetyl-p-benzoquinone imine (NAPQI) through oxidase isoenzyme system. The antioxidant and anti-inflammatory activity of flavonoid chrysin has been reported in different studies. The present study was conducted to investigate the protective effect of chrysin on acute acetaminophen-induced hepatotoxicity. The cytotoxicity of chrysin on fibroblast cells was evaluated using MTT assay, and then, 54 rats were divided into nine groups of six, and acetaminophen (1500 mg/kg) was administered in all groups except for the control group, second and the seventh groups (40 mg/kg), and all groups were treated with chrysin for 14 days. Liver enzymes, inflammatory factors TNF-α and IL-2, and total antioxidant activity were measured in serum while liver tissue was histopathologically examined. Based on the MTT assay results, 31.25, 62.5, 125, 250, and 500 μg/mL chrysin had no adverse effects on healthy fibroblast cells (P < 0.05). Chrysin decreased the level of liver enzymes (ALT, AST, and ALP), which were previously increased after the use of acetaminophen (p < 0.05). The hepatoprotective effect and total antioxidant capacity increased in a dose-dependent manner and the effect of the highest concentration of chrysin was equal to the effect of silymarin (P < 0.05). TNF-α in groups 4 to 6 decreased in a dose-dependent manner (P = 0.04), and chrysin did not show any significant reducing effect on IL-2 compared to silymarin. Chrysin prevents the necrosis and injury of acute acetaminophen-induced hepatotoxicity by decreasing liver enzymes and TNF-α and increasing total antioxidant capacity and protecting the liver tissue.

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Decrease of intracellular ROS by arbutin is associated with apoptosis induction and downregulation of IL‐1β and TNF‐α in LNCaP; prostate cancer

Safari

Zabihi

Pouramir

et al. 2020

J Food Biochem

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Increased reactive oxygen species (ROS) along with inflammation are involved in the prostate cancer (PCa). Therefore, this study was conducted to investigate the molecular mechanisms that were affected by arbutin as an antioxidant on prostate cancer cell line; LNCap. The intracellular ROS measurement confirmed that arbutin significantly (p < .05) decreased the ROS levels in a dose‐dependent manner. Detection of cell death profile established that 1,000 μM of arbutin could remarkably induced apoptosis (p < .05), while tert‐butyl hydroperoxide (tBHP) as ROS inducer prompted necrosis. In addition, 1,000 µM of arbutin successfully decreased expressions of IL‐1β and TNF‐α genes (p < .05). Furthermore, evaluation of the IL‐1β protein level showed that arbutin could significantly decrease this cytokine (p < .05). In summary, reduction of ROS along with increasing apoptosis and decreasing expression of pro‐inflammatory genes following arbutin treatment can open new visions in the treatment of prostate cancer using complementary medicine. Practical applications Nowadays, arbutin as a glycosylated hydroquinone is available commercially in both natural and synthetic forms. Arbutin is of interest because of its skin‐lightening effect, and used in cosmetic products for cutaneous hyperpigmentation. Arbutin inhibited tyrosinase in melanocytes competitively. Moreover, arbutin was able to attenuate oxidative stress and, its anti‐inflammatory activities has been established. In addition, arbutin has represented useful activities for suppression of malignant melanoma development. In addition, arbutin exhibits several pharmacological effects, including antimicrobial, antihyperlipidemic, antihyperglycemic, and alpha amylase inhibitory effects. In this study, we showed its effect on prostate cancer in vitro. Therefore, it opens new insights in the complementary medicine that can maintain or improve human health.

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Cloning and Expression of Ama r 1, as a Novel Allergen of Amaranthus retroflexus Pollen

et al. 2016

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Sensitisation to Amaranthus retroflexus pollen is very common in tropical and subtropical countries. In this study we aimed to produce a recombinant allergenic Ole e 1-like protein from the pollen of this weed. To predict cross-reactivity of this allergen (Ama r 1) with other members of the Ole e 1-like protein family, the nucleotide sequence homology of the Ama r 1 was investigated. The expression of Ama r 1 in Escherichia coli was performed by using a pET-21b(+) vector. The IgE-binding potential of recombinant Ama r 1 (rAma r 1) was evaluated by immunodetection and inhibition assays using 26 patients' sera sensitised to A. retroflexus pollen. The coding sequence of the Ama r 1 cDNA indicated an open reading frame of 507 bp encoding for 168 amino acid residues which belonged to the Ole e 1-like protein family. Of the 26 serum samples, 10 (38.46%) had significant specific IgE levels for rAma r 1. Immunodetection and inhibition assays revealed that the purified rAma r 1 might be the same as that in the crude extract. Ama r 1, the second allergen from the A. retroflexus pollen, was identified as a member of the family of Ole e 1-like protein.

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Cloning and expression of Aca f 1: a new allergen of Acacia farnesiana pollen

Khosravi¹,

Assarehzadegan²,

Morakabati³

et al. 2016

cejoi

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Acacia farnesiana is the main source of allergenic pollen and one of the most important causes of respiratory allergic disease in tropical and subtropical regions of the world. The purpose of this study was to produce a recombinant variety of allergenic Ole e 1-like protein from the pollen of this tree. To predict its allergenic cross-reactivity with other members of the Ole e 1-like protein family of common allergenic plants, the nucleotide sequence homology of the Acacia Ole e 1-like protein was evaluated. Amplification of cDNA strands encoding Acacia Ole e 1-like protein was performed by polymerase chain reaction (PCR) and sequenced. Following expression in Escherichia coli using the pET-21b(+) vector, the recombinant protein was purified using metal-affinity chromatography. IgE-binding competence of purified recombinant Ole e 1- like protein (rAca f 1) was analysed by immunoassay using 25 sera collected from Acacia pollen-sensitised patients. Nucleotide sequencing revealed an open reading frame of 453 bp encoding 150 amino acid residues that belonged to the Ole e 1-like protein family, and 11 patients (44%) had considerable specific IgE levels for the rAca f 1. Immunodetection and inhibition assays indicated that the purified rAca f 1 may be the same as that in the crude extract. Aca f 1, the second allergen from Acacia pollen, was identified as a member of the family of Ole e 1-like protein. A high degree of homology was found among amino acid sequences of Aca f 1 and several allergenic members of Ole e 1-like protein family.

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