RESUMEN
This study investigated the genotoxic effects of chromium (Cr) in Hsd:ICR mice, considering factors such as oxidative state, apoptosis, exposure pathway, duration, pregnancy, and transplacental exposure. Genotoxicity was assessed using the erythrocytes' micronucleus (MN) assay, while apoptosis was evaluated in nucleated blood cells. The results showed that Cr(III) (CrK(SO4 )2 and CrCl3 ) did not induce any marked genotoxic damage. However, Cr(VI) (CrO3 , K2 Cr2 O7 , Na2 Cr2 O7 , and K2 CrO4 ) produced varying degrees of genotoxicity, with CrO3 being the most potent. MN frequencies increased following 24-h exposure, with a greater effect in male mice. Administering 20 mg/kg of CrO3 via gavage did not lead to significant effects compared to intraperitoneal administration. Short-term oral treatment with a daily dose of 8.5 mg/kg for 49 days elevated MN levels only on day 14 after treatment. Pregnant female mice exposed to CrO3 on day 15 of pregnancy exhibited reduced genotoxic effects compared to nonpregnant animals. However, significant increases in MN levels were found in their fetuses starting 48 h after exposure. In summary, data indicate the potential genotoxic effects of Cr, with Cr(VI) forms inducing higher genotoxicity than Cr(III). These findings indicate that gender, exposure route, and pregnancy status might influence genotoxic responses to Cr.
Asunto(s)
Cromo , Eritrocitos , Ratones , Masculino , Femenino , Embarazo , Animales , Ratones Endogámicos ICR , Cromo/toxicidad , Pruebas de MicronúcleosRESUMEN
This review is based upon evidence from the published effects of green tea polyphenols (GTP) on genotoxic damage induced by metals with carcinogenic potential. First, the relationship between GTP and antioxidant defense system is provided. Subsequently, the processes involved in the oxidative stress generated by metals and their relationship to oxidative DNA damage is examined. The review demonstrated that GTP generally decrease oxidative DNA damage induced by exposure to metals such as arsenic (As), cadmium (Cd), cobalt (Co), copper (Cu), chromium (Cr), iron (Fe), and lead (Pb). The pathways involved in these effects are related to: (1) direct scavenging of free radicals (FR); (2) activation of mechanisms to repair oxidative DNA damage; (3) regulation of the endogenous antioxidant system; and (4) elimination of cells with genetic damage via apoptosis. The results obtained in the studies reviewed demonstrate potential for possible use of GTP to prevent and treat oxidative damage in populations exposed to metals. Further, GTP may be considered as adjuvants to treatments for metal-associated diseases related to oxidative stress and DNA damage.
Asunto(s)
Antioxidantes , Estrés Oxidativo , Antioxidantes/farmacología , Metales/toxicidad , Daño del ADN , Polifenoles/farmacología , Té , Guanosina Trifosfato/metabolismo , Guanosina Trifosfato/farmacologíaRESUMEN
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. (AU)
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. (AU)
Asunto(s)
Animales , Ratones , 24457 , Isoflavonas , Glycine max , Genisteína , Neoplasias , ApoptosisRESUMEN
Introduction: 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.
Introducción: 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.
Asunto(s)
Compuestos de Cromo , Isoflavonas , Ratones , Masculino , Animales , Genisteína/farmacología , Carcinógenos , Ratones Endogámicos ICR , Cromo/toxicidad , Isoflavonas/farmacologíaRESUMEN
Las catequinas del té verde (Camellia sinensis) (CTV) presentan efectos benéficos para la salud asociados a su potencial antioxidante. Por otra parte, el estrés oxidante es una de las vías de inducción de daño genotóxico. De ahí que, en la presente revisión se realizó un análisis de los efectos antigenotóxicos y genotóxicos de las CTV, haciendo énfasis en las vías implicadas en estos procesos y sus efectos en la salud. Se realizó una revisión de artículos indexados en las bases de datos de PubMed® y Science Direct® (2021) con las palabras clave "green tea" y "green tea catechins". Se delimitaron los estudios utilizando los operadores booleanos "AND", "OR" y "NOT" ("antigenotoxic", "genotoxic", "antioxidant" y "prooxidant"). En su mayoría se consideraron las publicaciones del 2016 al 2021. Se observó que los efectos benéficos en la salud de las CTV están relacionados con: a) su actividad antioxidante mediante la captura, inhibición y prevención de la formación de las especies reactivas de oxígeno; b) la regulación del sistema antioxidante endógeno; c) la activación de los mecanismos de reparación al contribuir en la eliminación del aducto 8-hidroxi-2'-desoxiguanosina; d) la inducción de apoptosis en células con daño al ADN; y e) la inhibición de la inflamación relacionada con su actividad antiapoptótica. Si bien, en algunos de los estudios se reportaron efectos genotóxicos, estos a su vez contribuyeron en la eliminación de células con daño genético, por lo que, no se puede considerar del todo a la actividad genotóxica de las CTV como perjudiciales para la salud(AU)
The green tea catechins (Camellia sinensis) (CTV) have beneficial effects for health associated with their antioxidant potential. Moreover, oxidative stress is one of the pathways for inducing genotoxic damage. Hence, in this review, an analysis of the antigenotoxic and genotoxic effects of CTV was carried out, emphasizing the pathways involved in these processes and their effects on health. A review of articles indexed in the PubMed® and ScienceDirect® (2021) databases with the keywords "green tea" and "green tea catechins" was carried out. Studies were delimited using the Boolean operators "AND", "OR" and "NOT" ("antigenotoxic", "genotoxic", "antioxidant" and "prooxidant"). For the most part, publications from 2016 to 2021 were considered. It was observed that the beneficial health effects of CTVs are related to: a) their antioxidant activity through the capture, inhibition and prevention of the formation of reactive oxygen species; b) the regulation of the endogenous antioxidant system; c) the activation of the repair mechanisms by contributing to the elimination of the 8-hydroxy-2'-deoxyguanosine adduct; d) the induction of apoptosis in cells with DNA damage; and e) the inhibition of inflammation related to its antiapoptotic activity. Although some of the studies reported genotoxic effects, these in turn contributed to the elimination of cells with genetic damage. Therefore, the genotoxic activity of CTV cannot be considered as harmful to health
Asunto(s)
Humanos , Animales , Té/química , Catequina/toxicidad , Estrés Oxidativo/efectos de los fármacos , Genotoxicidad , Antioxidantes/toxicidad , Daño del ADN/efectos de los fármacos , Especies Reactivas de Oxígeno , Apoptosis/efectos de los fármacosRESUMEN
This study aimed to investigate the relationship between endogenous antioxidant system, 8-hydroxydeoxyguanosine adduct (8-OHdG) repair, and apoptosis in mice treated with chromium(VI) alone and in the presence of the antigenotoxic compound (-)-epigallocatechin-3-gallate (EGCG). Groups of 5 Hsd:ICR male mice were divided and treated as follows: (1) control, vehicle only; (2) EGCG, 8.5 mg/kg by gavage alone; (3) CrO3, 20 mg/kg intraperitoneally alone; and (4) EGCG combined with CrO3, EGCG was administered 4 hr prior to CrO3. Peripheral blood parameters were analyzed before treatment administration (time 0), and 48 hr after exposure. The administration of EGCG increased 8-OHdG levels and superoxide dismutase (SOD) activity. Treatment with CrO3 increased number of micronucleus (MN) presence, elevated apoptotic/necrotic cells frequencies, decreased 8-OHdG levels, diminished total antioxidant capacity (TAC), increased glutathione (GSH) total levels, and lowered SOD activity. Administration of EGCG prior to treatment with CrO3 resulted in lower concentrations of MN, reduced apoptotic and necrotic cell number, and restored TAC and SOD activity to control levels. It is conceivable that the dose of EGCG plays an important role in the genotoxic damage protection pathways. Thus, this study confirms the action of EGCG as an antigenotoxic agent against chromium(VI)-induced oxidative insults and demonstrates potential protective pathways for EGCG actions to counteract genotoxic damage induced by this metal.
Asunto(s)
8-Hidroxi-2'-Desoxicoguanosina/metabolismo , Antimutagênicos/farmacología , Apoptosis , Catequina/análogos & derivados , Cromo/efectos adversos , Aductos de ADN/metabolismo , Contaminantes Ambientales/efectos adversos , Animales , Antioxidantes/metabolismo , Catequina/farmacología , Masculino , RatonesRESUMEN
This study was conducted to investigate the effects of vanadium pentoxide (V2O5), ascorbic acid (AA), and alpha-tocopherol (α-TOH) on apoptotic, cytotoxic, and genotoxic activity. Groups of five Hsd:ICR mice were treated with the following: (a) vehicle, distilled water; (b) vehicle, corn oil; (c) AA, 100 mg/kg intraperitoneally (ip); (d) α-TOH, 20 mg/kg by gavage; (e) V2O5, 40 mg/kg by ip injection; (f) AA + V2O5; and (g) α-TOH + V2O5. Genotoxic damage was evaluated by examining micronucleated polychromatic erythrocytes (MN-PCE) obtained from the caudal vein at 0, 24, 48, and 72 h after treatments. Induction of apoptosis and cell viability were assessed at 48 h after treatment in nucleated cells of peripheral blood. Treatment with AA alone reduced basal MN-PCE, while V2O5 treatment marginally increased MN-PCE at all times after injection. Antioxidants treatments prior to V2O5 administration decreased MN-PCE compared to the V2O5 group, with the most significant effect in the AA + V2O5 group. The apoptotic cells increased with all treatments, suggesting that this process may contribute to the elimination of the cells with V2O5-induced DNA damage (MN-PCE). The necrotic cells only increased in the V2O5 group. Therefore, antioxidants such as AA and α-TOH can be used effectively to protect or reduce the genotoxic effects induced by vanadium compounds like V2O5.
