RESUMO

Alcohol-induced pancreas damage remains as one of the main risk factors for pancreatitis development. This disorder is poorly understood, particularly the effect of acetaldehyde, the primary alcohol metabolite, in the endocrine pancreas. Hepatocyte growth factor (HGF) is a protective protein in many tissues, displaying antioxidant, antiapoptotic, and proliferative responses. In the present work, we were focused on characterizing the response induced by HGF and its protective mechanism in the RINm5F pancreatic cell line treated with ethanol and acetaldehyde. RINm5F cells were treated with ethanol or acetaldehyde for 12 h in the presence or not of HGF (50 ng/ml). Cells under HGF treatment decreased the content of reactive oxygen species and lipid peroxidation induced by both toxics, improving cell viability. This effect was correlated to an improvement in insulin expression impaired by ethanol and acetaldehyde. Using a specific inhibitor of Erk1/2 abrogated the effects elicited by the growth factor. In conclusion, the work provides mechanistic evidence of the HGF-induced-protective response to the alcohol-induced damage in the main cellular component of the endocrine pancreas.

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Cancer cells are characterized by accelerated proliferation and an outstanding adaptation of their metabolic pathways to meet energy demands. The folate cycle, also known as folate metabolism or one-carbon metabolism, through enzymatic interconversions, provides metabolites necessary for nucleotide synthesis, methylation, and reduction power, helping to maintain the high rate of proliferation; therefore, the study of this metabolic pathway is of great importance in the study of cancer. Moreover, multiple enzymes involved in this cycle have been implicated in different types of cancer, corroborating the cell's adaptations under this pathology. During the last decade, nonalcoholic fatty liver disease has emerged as the leading etiology related to the rise in the incidence and deaths of hepatocellular carcinoma. Specifically, cholesterol accumulation has been a determinant promoter of tumor formation, with solid evidence that an enriched-cholesterol diet plays a crucial role in accelerating the development of an aggressive subtype of hepatocellular carcinoma compared to other models. In this review, we will discuss the most recent findings to understand the contribution of folate metabolism to cancer cells and tumor microenvironment while creating a link between the dynamics given by cholesterol and methylenetetrahydrofolate dehydrogenase 1-like, a key enzyme of the cycle located in the mitochondrial compartment.

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Atmospheric particulate matter with aerodynamic diameter ≤10 µm (PM10) is a risk factor for the development of lung cancer, but cellular pathways are not completely understood. STAT3 is a p21(Waf1/Cip1) transcription factor and is associated with proliferation and cell survival and is upregulated in lung cancer. PM10 exposure induces p21(Waf1/Cip1) expression, which could be related to STAT3 activation. The aims of this work were to investigate whether STAT3 was activated on lung epithelial cells after PM10 exposure and to determine whether or not STAT3 could have an impact on cell cycle distribution and cell survival. Our results showed that PM10 induced STAT3 activation through Src and PKCζ kinases, and it is partially responsible for the p21(Waf1/Cip1) induction that was also observed. Moreover, PM10 induced G1-G0 cell cycle arrest. The inhibition of STAT3 phosphorylation prevented cell cycle arrest and triggered apoptosis. These results suggest that PM10 exposure might activate a survival pathway related to STAT3 activation, similar to what has been described as part of the immune system and apoptosis evasion during tumor promotion and development.

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El cadmio (Cd) es un metal que se encuentra principalmente en la corteza terrestre y siempre se presenta en combinación con el zinc. Es ampliamente utilizado en la industria. Se considera un contaminante y es liberado al ambiente como subproducto de la extracción de cobre, hierro y zinc. La exposición al Cd puede producir una variedad de efectos adversos tanto en el humano como en los animales. Una vez absorbido se acumula en el organismo por tiempos largos. Dependiendo de la dosis, fuente y tipo de exposición puede dañar varios órganos como el hígado, riñón, pulmón, hueso, testículos y placenta. Los seres humanos están expuestos al Cd principalmente a través de la ingesta de alimentos, del humo del cigarro, así como del agua y aire contaminados con el metal. La entrada de Cd a las células no es uniforme en todos los sistemas y puede ser mediada por transporte pasivo o activo, o por canales de calcio. Se considera que uno de los mecanismos de toxicidad de este metal es debido, en parte, a las especies reactivas de oxígeno, las cuales pueden actuar como segundos mensajeros y por tanto alterar diferentes vías de señalización. Por todo lo expuesto el objetivo de esta revisión es analizar los efectos del Cd sobre la salud, así como sobre la respuesta celular y molecular.

Cadmium (Cd) is a metal found in the earth´s crust, always as part of several, mainly zinc-rich, ores. Cd is considered as an environmental pollutant, it is widely used in the industry. It coexists with other metals and its release into the environment is carried out in parallel with the release of copper, iron and zinc. Cd is known to have numerous undesirable effects on health in both humans and animals. Once absorbed, it is effciently retained in the body, where it accumulates throughout life. Depending on the dose, source and type of exposure it could damage several organs as the liver, kidney, lung, bones, testes and placenta. Impor-tant sources of human intoxication are food, cigarette smoke as well as contaminated water and air. Cd cell uptake is not uniform across all systems. This could be mediated by passive or active transport, or via calcium channels. It is known that the toxicity produced by this metal is due, in part to reactive oxygen species, which could act as second messengers that may alter different signaling cascades. The aim of this review is to analyze the effects of Cd on health, as well as on cellular and molecular response.

Assuntos

RESUMO

El cadmio (Cd) es un metal que se encuentra principalmente en la corteza terrestre y siempre se presenta en combinación con el zinc. Es ampliamente utilizado en la industria. Se considera un contaminante y es liberado al ambiente como subproducto de la extracción de cobre, hierro y zinc. La exposición al Cd puede producir una variedad de efectos adversos tanto en el humano como en los animales. Una vez absorbido se acumula en el organismo por tiempos largos. Dependiendo de la dosis, fuente y tipo de exposición puede dañar varios órganos como el hígado, riñón, pulmón, hueso, testículos y placenta. Los seres humanos están expuestos al Cd principalmente a través de la ingesta de alimentos, del humo del cigarro, así como del agua y aire contaminados con el metal. La entrada de Cd a las células no es uniforme en todos los sistemas y puede ser mediada por transporte pasivo o activo, o por canales de calcio. Se considera que uno de los mecanismos de toxicidad de este metal es debido, en parte, a las especies reactivas de oxígeno, las cuales pueden actuar como segundos mensajeros y por tanto alterar diferentes vías de señalización. Por todo lo expuesto el objetivo de esta revisión es analizar los efectos del Cd sobre la salud, así como sobre la respuesta celular y molecular.(AU)

Cadmium (Cd) is a metal found in the earth´s crust, always as part of several, mainly zinc-rich, ores. Cd is considered as an environmental pollutant, it is widely used in the industry. It coexists with other metals and its release into the environment is carried out in parallel with the release of copper, iron and zinc. Cd is known to have numerous undesirable effects on health in both humans and animals. Once absorbed, it is effciently retained in the body, where it accumulates throughout life. Depending on the dose, source and type of exposure it could damage several organs as the liver, kidney, lung, bones, testes and placenta. Impor-tant sources of human intoxication are food, cigarette smoke as well as contaminated water and air. Cd cell uptake is not uniform across all systems. This could be mediated by passive or active transport, or via calcium channels. It is known that the toxicity produced by this metal is due, in part to reactive oxygen species, which could act as second messengers that may alter different signaling cascades. The aim of this review is to analyze the effects of Cd on health, as well as on cellular and molecular response.(AU)