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      Antigenotoxicidad de la isoflavona de soya genisteína en ratones expuestos a compuestos cancerígenos del cromo hexavalente Translated title: Antigenotoxicity of the soy isoflavone genistein in mice exposed to carcinogenic hexavalent chromium compounds

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          Abstract

          Resumen Introducción: el consumo de alimentos ricos en antioxidantes como las isoflavonas de la soya puede ser una alternativa en la protección y modulación de la genotoxicidad de metales con potencial cancerígeno asociado al estrés oxidativo. Objetivo: evaluar el efecto antigenotóxico de la isoflavona de soya genisteína en ratones expuestos a compuestos cancerígenos de cromo hexavalente (Cr[VI]). Material y método: veinticinco ratones Hsd:ICR macho fueron divididos en cinco grupos tratados de la siguiente forma: a) vehículo 1 (agua destilada estéril, vía-oral); b) vehículo 2 (aceite de maíz para compuestos liposolubles, vía-intraperitoneal); c) 15 mg/kg de genisteína, vía-oral; d) 20 mg/kg de CrO3 vía-intraperitoneal; y e) 15 mg/kg de genisteína cuatro horas antes de la aplicación de 20 mg/kg de CrO3. Se realizaron evaluaciones de micronúcleos (MN), apoptosis, relación de eritrocitos policromáticos/normocromáticos (EPC/ENC) y viabilidad celular en sangre periférica obtenida a las 0, 24, 48 y 72 horas. Resultados: el tratamiento con genisteína redujo los MN cuando fue administrada previamente al tratamiento con CrO3, siendo mayor el efecto a las 48 horas (reducción del 84 %). La viabilidad celular se redujo con los tratamientos de genisteína y CrO3 solos, siendo mayor el efecto en este último. Conclusiones: la genisteína bloqueó eficazmente la acción genotóxica del CrO3. El hecho de que se redujeran los MN y la apoptosis en el grupo tratado con la genisteína y el CrO3 sugiere que la genisteína pudo haber inhibido el daño oxidativo del Cr(VI) ya que, al no haber células con daño, las vías apoptóticas no se activaron.

          Translated abstract

          Abstract Introduction: the consumption of antioxidant-rich foods such as soy isoflavones may be an alternative in the protection and modulation against metal-induced genotoxicity with carcinogenic potential associated with oxidative stress. Objective: to evaluate the antigenotoxic effects of soy isoflavone genistein in mice exposed to carcinogenic compounds of hexavalent chromium (Cr[VI]). Material and method: twenty-five male Hsd:ICR mice were divided into five groups treated as follows: a) vehicle 1 (sterile distilled water, intraperitoneally); b) vehicle 2 (corn oil for fat-soluble compounds, orally); c) 15 mg/kg of genistein, orally; d) 20 mg/kg of CrO3, intraperitoneally; and e) 15 mg/kg of genistein four hours before the application of 20 mg/kg of CrO3. Evaluations of micronuclei (MN), apoptosis, ratio of polychromatic/normochromatic erythrocytes (EPC/ENC) and cell viability in peripheral blood obtained at 0, 24, 48 and 72 hours were performed. Results: the treatment with genistein reduced MN when administered prior to treatment with CrO3, the effect being greater at 48 hours (reduction of 84 %). Cell viability was reduced with genistein and CrO3 treatments alone, the effect being greater in the latter. Conclusions: genistein effectively blocked the genotoxic action of CrO3. The fact that MN and apoptosis were reduced in the group treated with genistein and CrO3 suggests that genistein could have inhibited the oxidative damage of Cr(VI) since, as there were no cells with damage, the apoptotic pathways were not activated.

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          Isoflavones: estrogenic activity, biological effect and bioavailability.

          Isoflavones are phytoestrogens with potent estrogenic activity; genistein, daidzein and glycitein are the most active isoflavones found in soy beans. Phytoestrogens have similarity in structure with the human female hormone 17-β-estradiol, which can bind to both alpha and beta estrogen receptors, and mimic the action of estrogens on target organs, thereby exerting many health benefits when used in some hormone-dependent diseases. Numerous clinical studies claim benefits of genistein and daidzein in chemoprevention of breast and prostate cancer, cardiovascular disease and osteoporosis as well as in relieving postmenopausal symptoms. The ability of isoflavones to prevent cancer and other chronic diseases largely depends on pharmacokinetic properties of these compounds, in particular absorption and distribution to the target tissue. The chemical form in which isoflavones occur is important because it influences their bioavailability and, therefore, their biological activity. Glucose-conjugated isoflavones are highly polar, water-soluble compounds. They are hardly absorbed by the intestinal epithelium and have weaker biological activities than the corresponding aglycone. Different microbial families of colon can transform glycosylated isoflavones into aglycones. Clinical studies show important differences between the aglycone and conjugated forms of genistein and daidzein. The evaluation of isoflavone metabolism and bioavailability is crucial to understanding their biological effects. Lipid-based formulations such as drug incorporation into oils, emulsions and self-microemulsifying formulations have been introduced to increase bioavailability. Complexation with cyclodextrin also represent a valid method to improve the physicochemical characteristics of these substances in order to be absorbed and distributed to target tissues. We review and discuss pharmacokinetic issues that critically influence the biological activity of isoflavones.
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            Molecular Mechanisms of Action of Genistein in Cancer: Recent Advances

            Background: Genistein is one among the several other known isoflavones that is found in different soybeans and soy products. The chemical name of genistein is 4′,5,7-trihydroxyisoflavone. Genistein has drawn attention of scientific community because of its potential beneficial effects on human grave diseases, such as cancer. Mechanistic insight of genistein reveals its potential for apoptotic induction, cell cycle arrest, as well as antiangiogenic, antimetastatic, and anti-inflammatory effects. Objective: The purpose of this review is to unravel and analyze various molecular mechanisms of genistein in diverse cancer models. Data sources: English language literature was searched using various databases, such as PubMed, ScienceDirect, EBOSCOhost, Scopus, Web of Science, and Cochrane Library. Key words used in various combinations included genistein, cancer, anticancer, molecular mechanisms prevention, treatment, in vivo, in vitro, and clinical studies. Study selection: Study selection was carried out strictly in accordance with the statement of Preferred Reporting Items for Systematic Reviews and Meta-analyses. Data extraction: Four authors independently carried out the extraction of articles. Data synthesis: One hundred one papers were found suitable for use in this review. Conclusion: This review covers various molecular interactions of genistein with various cellular targets in cancer models. It will help the scientific community understand genistein and cancer biology and will provoke them to design novel therapeutic strategies.
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              Molecular mechanism of heavy metals (Lead, Chromium, Arsenic, Mercury, Nickel and Cadmium) - induced hepatotoxicity - A review.

              Heavy metals pose a serious threat if they go beyond permissible limits in our bodies. Much heavy metal's viz. Lead, Chromium, Arsenic, Mercury, Nickel, and Cadmium pose a serious threat when they go beyond permissible limits and cause hepatotoxicity. They cause the generation of ROS which in turn causes numerous injuries and undesirable changes in the liver. Epidemiological studies have shown an increase in the levels of such heavy metals in the environment posing a serious threat to human health. Epigenetic alterations have been seen in the event of exposure to such heavy metals. Apoptosis, caspase activation as well as ultrastructural changes in the hepatocytes have also been seen due to heavy metals. Inflammation involving TNF-alpha, pro-inflammatory cytokines, MAPK, ERK pathways have been seen in the event of heavy metal hepatotoxicity. All these have shown that these heavy metals pose a serious threat to human health in particular and the environment as a whole.
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                Author and article information

                Journal
                nh
                Nutrición Hospitalaria
                Nutr. Hosp.
                Grupo Arán (Madrid, Madrid, Spain )
                0212-1611
                1699-5198
                February 2023
                : 40
                : 1
                : 151-159
                Affiliations
                [1] Ciudad de México orgnameUniversidad Nacional Autónoma de México orgdiv1Facultad de Estudios Superiores “Zaragoza” orgdiv2Laboratorio de Antimutagénesis, Anticarcinogénesis y Antiteratogénesis Ambiental Mexico
                Article
                S0212-16112023000100020 S0212-1611(23)04000100020
                10.20960/nh.04163
                c23f9b73-1ccc-4a4e-a3ff-4078ae4cea97

                This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

                History
                : 14 April 2022
                : 23 May 2022
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 40, Pages: 9
                Product

                SciELO Spain

                Categories
                Trabajos Originales

                Isoflavonas,Genistein,Antigenotoxic,Cr(VI),Glycine max,Apoptosis,Isoflavones,Genisteína,Antigenotóxico

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