Effects of the neonatal treatment with monosodium glutamate on myenteric neurons and the intestine wall in the ileum of rats

The neonatal administration of a 4 mg/g dose of monosodium glutamate (MSG) to rodents leads to neuronal death in the hypothalamus arcuate nucleus, which leads in turn to obesity in the adult animal. However, few studies have investigated the effects on the enteric nervous system. This study evaluate...

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Bibliographic Details
Published in:Journal of gastroenterology 2006-06, Vol.41 (7), p.674-680
Main Authors: Soares, Angélica, Schoffen, João Paulo Ferreira, De Gouveia, Elsa Maria, Natali, Maria Raquel Marçal
Format: Article
Language:English
Subjects:
Animals
Animals, Newborn
Birth Weight
Female
Food Additives - administration & dosage
Food Additives - pharmacology
Ileum - drug effects
Ileum - innervation
Male
Myenteric Plexus - cytology
Myenteric Plexus - drug effects
Neurons - drug effects
Obesity - chemically induced
Pregnancy
Rats
Rats, Wistar
Sodium Glutamate - administration & dosage
Sodium Glutamate - pharmacology
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Summary:The neonatal administration of a 4 mg/g dose of monosodium glutamate (MSG) to rodents leads to neuronal death in the hypothalamus arcuate nucleus, which leads in turn to obesity in the adult animal. However, few studies have investigated the effects on the enteric nervous system. This study evaluated the effects of the neonatal administration of MSG on the frequency and morphometry of the myenteric as well as the ileum wall morphometry of adult Wistar male rats. Whole-mount preparations of ileum samples were stained by the Giemsa or NADH-diaphorase histochemical methods. For histological processing, hematoxylin and eosin staining was used. The treatment with MSG led to obesity, as shown by the higher values for Lee's index and the weights of periepididimal and retroperitoneal adipose tissues. The Giemsa staining revealed a significantly larger neuronal density in the MSG group, which is explained by smaller physical growth and a reduction in the weight of the small intestine. The mean neuronal profile did not change between groups. The NADH-diaphorase-positive neuronal subpopulation kept its neuronal density but its average cellular profile was reduced in the MSG group. A morphometric analysis of the intestinal wall, muscular layer, villi, and intestinal crypts showed that their characteristics did not change. The treatment with MSG did not cause alteration of the total myenteric population of the ileum, but it influenced the NADH-diaphorase-positive subpopulation. From the maintenance of the morphometric parameters of the ileum intestinal wall, we inferred that intestinal function was preserved in obese animals.
ISSN:0944-1174
1435-5922
DOI:10.1007/s00535-006-1839-5