Alterations in APC, BECN1, and TP53 gene expression levels in colon cancer cells caused by monosodium glutamate / Alterações nos níveis de expressão gênica APC, BECN1 e TP53 em células de câncer de cólon causadas por glutamato monossódico

Colorectal cancer (CRC) is a disease with high incidence worldwide. As of 2018, it is the second leading cause of cancer deaths in the world. In Saudi Arabia, the incidence of this disease has been increasing in the younger population. Both genetic and lifestyle factors may have contributed to its increased incidence and pathogenesis. Monosodium glutamate (MSG) is a food flavor enhancer that can be found in many commercial foods, and it can sometimes be used as a substitute to table salt. MSG has been investigated for its possible genotoxicity, yielding controversial results. In the present study, the effect of MSG on cell viability and its effect on expression of APC, BECN1, and TP53 genes in SW620 and SW480 colon cancer cell lines were studied. TP53 is a tumor suppressor gene that functions in modifying DNA errors and/or inducing apoptosis of damaged cells, and both APC and BECN1 genes are involved in CRC and are of importance in cellular growth and metastasis. Cancer cell viability was analyzed using MTT assay, and the results showed a significant increase in the number of viable cells after 24h of treatment with MSG with different concentrations (0.5, 1.0, 10, 50, and 100mM). Moreover, gene expression results showed a significant increase in the expression levels of APC and BECN1 under specified conditions in both cell lines; conversely, TP53 showed a significant decrease in expression in SW620 cells. Thus, it can be concluded that MSG possibly confers a pro-proliferative effect on CRC cells.

O câncer colorretal (CCR) é uma doença com alta incidência mundial. Desde 2018, é a segunda principal causa de mortes por câncer no mundo. Na Arábia Saudita, a incidência dessa doença vem aumentando na população mais jovem. Tanto fatores genéticos quanto de estilo de vida podem ter contribuído para o aumento da sua incidência e patogênese. O glutamato monossódico (MSG) é um intensificador de sabor de alimentos que pode ser encontrado em muitos alimentos comerciais e às vezes pode ser usado como um substituto do sal de cozinha. O MSG tem sido investigado por sua possível genotoxicidade, produzindo resultados controversos. Neste estudo, foram estudados o efeito do MSG na viabilidade celular e seu efeito na expressão dos genes APC, BECN1 e TP53 em linhas de células de câncer de cólon SW620 e SW480. TP53 é um gene supressor de tumor que atua modificando erros de DNA e/ou induzindo apoptose de células danificadas, estando os genes APC e BECN1 envolvidos no CRC e sendo importantes no crescimento celular e metástase. A viabilidade das células cancerosas foi analisada por meio do ensaio MTT, e os resultados mostraram um aumento significativo no número de células viáveis após 24 h de tratamento com MSG em diferentes concentrações (0,5; 1,0; 10; 50 e 100mM). Além disso, os resultados da expressão gênica mostraram um aumento significativo nos níveis de expressão de APC e BECN1 sob condições especificadas em ambas as linhagens celulares. Por outro lado, TP53 mostrou uma diminuição significativa na expressão em células SW620. Assim, pode-se concluir que, possivelmente, o MSG confere um efeito pró-proliferativo às células CRC.

Vitamin E suppresses aortic ultrastructural alterations induced by toxic doses of monosodium glutamate / La vitamina E suprime las alteraciones ultraestructurales aórticas inducidas por dosis tóxicas de glutamato monosódico

SUMMARY: An association between certain food additives and chronic diseases is reported. Current study determined whether administering toxic doses of the food additive monosodium glutamate (MSG) into rats can induce aortopathy in association with the oxidative stress and inflammatory biomarkers upregulation and whether the effects of MSG overdose can be inhibited by vitamin E. MSG at a dose of (4 mg/kg; orally) that exceeds the average human daily consumption by 1000x was administered daily for 7 days to the rats in the model group. Whereas, rats treated with vitamin E were divided into two groups and given daily doses of MSG plus 100 mg/ kg vitamin E or MSG plus 300 mg/kg vitamin E. On the eighth day, all rats were culled. Using light and electron microscopy examinations, a profound aortic injury in the model group was observed demonstrated by damaged endothelial layer, degenerated smooth muscle cells (SMC) with vacuoles and condensed nuclei, vacuolated cytoplasm, disrupted plasma membrane, interrupted internal elastic lamina, clumped chromatin, and damaged actin and myosin filaments. Vitamin E significantly protected aorta tissue and cells as well as inhibited MSG-induced tissue malondialdehyde (MDA), interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-α). The highest used vitamin E dosage was more effective. Additionally, a significant correlation was observed between the aortic injury degree and tissue MDA, TNF-α, IL-6, and superoxide dismutase (SOD) levels (p=0.001). Vitamin E effectively protects against aortopathy induced by toxic doses of MSG in rats and inhibits oxidative stress and inflammation.

RESUMEN: Se reporta una asociación entre ciertos aditivos alimentarios y enfermedades crónicas. El objetivo de este estudio fue determinar si la administración de dosis tóxicas del aditivo alimentario glutamato monosódico (MSG) en ratas puede inducir aortopatía en asociación con el estrés oxidativo y la regulación positiva de los biomarcadores inflamatorios y si el efecto de una sobredosis de MSG se puede inhibir con vitamina E. Se administró MSG diariamente durante 7 días una dosis de (4 g/kg; por vía oral) que excede el consumo diario humano promedio, en 1000x a las ratas del grupo modelo. Mientras que las ratas tratadas con vitamina E se dividieron en dos grupos y se administraron dosis diarias de MSG más 100 mg/kg de vitamina E o MSG más 300 mg/kg de vitamina E. Todas las ratas fueron sacrificadas en el octavo día. Usando exámenes de microscopía óptica y electrónica, se observó una lesión aórtica profunda en el grupo modelo demostrada por una capa endotelial dañada, células musculares lisas degeneradas (SMC) con vacuolas y núcleos condensados, citoplasma vacuolado, membrana plasmática rota, lámina elástica interna interrumpida, cromatina agrupada y filamentos de actina y miosina dañados. La vitamina E protegió significativamente el tejido y las células de la aorta, además de inhibir el malondialdehído tisular (MDA) inducido por MSG, la interleucina-6 (IL-6) y el factor de necrosis tumoral alfa (TNF-α). La dosis más alta de vitamina E utilizada fue más efectiva. Además, se observó una correlación significativa entre el grado de lesión aórtica y los niveles tisulares de MDA, TNF-α, IL-6 y superóxido dismutasa (SOD) (p=0,001). La vitamina E efectivamente protege contra la aortopatía inducida por dosis tóxicas de MSG en ratas e inhibe el estrés oxidativo y la inflamación.

Types I and III parotid collagen variations and serum biochemical parameters in obese rats exposed to monosodium glutamate / Variaciones de colágeno parotídeo tipos I y III y parámetros bioquímicos séricos en ratas obesas expuestas a glutamato monosódico

SUMMARY: The objective of this study was to describe the effects of monosodium glutamate on the collagen of the parotid gland in an obesity model. 18 newborn male Sprague Dawley rats were used (first control group; second group of MSG1: 4 mg/g of monosodium glutamate weight, 5 doses, and third group of MSG2: 4 mg/g of monosodium glutamate, 5 doses, maintained for 8 and 16 weeks respectively). The content and type of collagen were analyzed, in addition to the levels of cholesterol, glucose, triglycerides and uric acid. Monosodium glutamate produced an increase in the obesity rates of the MSG2 group, in addition to an increase in blood cholesterol, glucose and uric acid levels compared to the control group. Type III collagen in the MSG2 group showed a statistically significant increase. Monosodium glutamate induced obesity, in addition to an increase in type III collagen fibers.

RESUMEN: El objetivo de este estudio fue describir los efectos del glutamato monosódico sobre el colágeno de la glándula parótida en un modelo de obesidad. Se utilizaron 18 ratas Sprague Dawley machos recién nacidas (primer grupo control; segundo grupo MSG1: 4 mg/g de peso de glutamato monosódico, 5 dosis, y tercer grupo MSG2: 4 mg/g de glutamato monosódico, 5 dosis, mantenidas durante 8 y 16 semanas respectivamente). Se analizó el contenido y el tipo de colágeno, además de los niveles de colesterol, glucosa, triglicéridos y ácido úrico. El glutamato monosódico produjo un aumento en las tasas de obesidad del grupo MSG2, además de un aumento en los niveles de colesterol en sangre, glucosa y ácido úrico en comparación con el grupo control. El colágeno tipo III en el grupo MSG2 mostró un aumento estadísticamente significativo. La obesidad inducida por glutamato monosódico, además de un aumento en las fibras de colágeno tipo III.

Suppression of monosodium glutamate-induced acute kidney injury and renal ultrastructural damage in rats by vitamin E / Supresión de lesiones renales agudas inducidas por glutamato monosódico y daño ultraestructural renal en ratas por vitamina E

Food additives and flavour enhancers used in the food industry are potential health risks. We tested the hypothesis that the food additive and flavour enhancer, monosodium glutamate (MSG), which is the sodium salt of glutamic acid can induce ultrastructural alterations to the kidney, and the antioxidant vitamin E can protect against acute kidney injuries induced by a toxic dose of MSG in a rat model of the disease. The model group of rats received a daily dose of MSG (4 gm/kg) for 7 days, whereas the protective groups were either received a 100 mg/kg vitamin E plus MSG or 300 mg/kg vitamin E plus MSG for 7 days. Rats were then sacrificed on day 8. Transmission and light microscopy images revealed substantial kidney damage induced by MSG in the model group as demonstrated by degenerated epithelial cells with Pyknotic nuclei, swollen mitochondria, damaged brush margins, dilated tubules, and widening of Bowman's space with shrinkage and deformity of some glomeruli. Treatment of the model group with vitamin E showed a substantial protection of kidney tissue and renal ultrastructure by 300 mg/kg vitamin E compared to a partial protection by 100 mg/kg vitamin E. In addition, MSG significantly (p<0.05) increased serum levels of urea and creatinine, which were significantly (p<0.05) decreased with vitamin E. However, for serum creatinine, high doses of vitamin E (300 mg/kg) were more effective than lower doses (100 mg/kg) of vitamin E. These results indicate that vitamin E at 300 mg/kg effectively protects against MSG-induced acute kidney injury in rats.

Los aditivos alimentarios y los potenciadores del sabor utilizados en la industria alimentaria son riesgos potenciales para la salud. Probamos la hipótesis de que el aditivo alimentario y el potenciador del sabor, glutamato monosódico (MSG), la sal sódica del ácido glutámico, puede inducir alteraciones ultraestructurales del riñón, y que las propiedades antioxidantes de la vitamina E, pueden proteger contra las lesiones renales inducidas por una dosis tóxica de MSG en un modelo de rata. El grupo modelo de ratas recibió una dosis diaria de MSG (4 g / kg) durante 7 días, mientras que los grupos protectores recibieron una dosis de 100 mg / kg de vitamina E más MSG o 300 mg / kg de vitamina E más MSG durante 7 días. Las ratas se sacrificaron el día 8. Las imágenes de microscopía óptica y de transmisión revelaron un daño renal sustancial inducido por el MSG en el grupo modelo, como lo demuestran las células epiteliales degeneradas con núcleos picnóticos, mitocondrias hinchadas, bordes dañados, túbulos dilatados y ensanchamiento del espacio de Bowman, además de la deformidad de algunos glomérulos. El tratamiento del grupo modelo con vitamina E mostró una protección sustancial del tejido renal y la ultraestructura renal de 300 mg / kg de vitamina E en comparación con una protección parcial de 100 mg / kg de vitamina E. Además, el MSG aumentó significativamente (p <0,05) en el suero los niveles de urea y creatinina, disminuyeron significativamente (p <0,05) con la vitamina E. Sin embargo, para la creatinina sérica, las dosis altas de vitamina E (300 mg / kg) fueron más efectivas que las dosis más bajas (100 mg / kg) de vitamina E. Estos resultados indican que la vitamina E a 300 mg / kg protege eficazmente contra la lesión renal aguda inducida por MSG en ratas.

Effect of vitamin E on monosodium glutamate induced hepatotoxicity and oxidative stress in rats.

Monosodium glutamate (MSG), administered to rats (by gavage) at a dose of 0.6 mg/g body weight for 10 days, significantly (P<0.05) induced lipid peroxidation (LPO), decreased reduced glutathione (GSH) level and increased the activities of glutathione-s-transferase (GST), catalase and superoxide dismutase (SOD) in the liver of the animals; these were observed 24 hr after 10 days of administration. The activities of alanine aminotransferase (ALT), aspartate aminotransferase (AST) and gamma glutamyl transferase (GGT) were also significantly increased in the serum, on MSG administration. Vitamin E (0.2 mg/g body wt) co-administered with MSG, significantly reduced the LPO, increased the GSH level and decreased the hepatic activities of GST, catalase and SOD. The activities of ALT, AST and GGT in the serum were also significantly reduced. The results showed that MSG at a dose of 0.6 mg/g body wt induced the oxidative stress and hepatotoxicity in rats and vitamin E ameliorated MSG-induced oxidative stress and hepatotoxicity.

Brain lesions induced by monosodium glutamate [MSG] in adult and neonatal mice

The present study was carried out to assess the possible neurotoxicity of the flavour enhancer, monosodium glutamate [MSG] in adult and neonate mice through the administration of single dose of 5mg/g body weight in acute experiment and repeated doses of 2mg/g body weight in chronic experiment. Light and electron microscopic studies revealed that neonates were more susceptible to brain lesions than adults in acute experiment and their brains were more severely damaged in chronic experiment. The lesioned neurons were karyolysed whereas the glial cells showed variable degrees of damage As a neuroprotective response, astrocytes displayed proliferation. Cell death had led to the appearance of nerve fibre degeneration and brain lesions in many areas of the brain such as; most of the rostral areas of neocortex, hippocampus, pretectal nucleus, lateral geniculate nucleus, hypothalamus, superior colliculus and optic tracts. It is worth emphasising that the lesioned areas of the brain included visual and nonvisual centres. So it might be expected that vision could be affected. It may be that prolonged intake of glutamate caused a state of hyperdepolarization and that neither neuronal glutamate catabolism nor glial response were capable of removing excess glutamate. In conclusion it might be suggested that the use of MSG specially in baby food should be revised