Postnatal Undernutrition: Effect of Epidermal Growth Factor on Growth and Function of the Gastrointestinal Tract in Rats

Rats were kept undernourished from birth to 24 days of age. At 17 days of age, the undernourished animals were divided into two groups and then injected with either saline or epidermal growth factor (EGF; 20 μg/kg) once a day for 7 days. They were killed 12–14 h after the last injection at which time the animals were 24 days old. During the experimental period the undernourished animals were prevented from weaning. A well-nourished group (weaned) which was injected with saline from 17 to 24 days of age, was also included. Undernutrition by itself significantly decreased body weight and the weight of the oxyntic gland area, antrum, and small intestine. This was also accompanied by a parallel reduction in DNA, RNA, and protein content in the oxyntic gland and small intestine. However, administration of EGF to undernourished rats resulted in a partial reversal of the situation. In undernourished rats, EGF caused significant enhancements in body weight as well as the weight of the gastrointestinal tissues and their protein and nucleic acid content when compared with the saline-treated undernourished controls. Furthermore, the magnitude of stimulation was found to be greater in the oxyntic gland than in the small intestine following EGF administration. The antral or serum gastrin levels were not affected by EGF. In both saline- and EGF-treated undernourished rats, lactase, sucrase, and alkaline phosphatase activities (expressed as total or. specific activity) were found to be significantly higher than in the well-nourished animals. Total maltase activity did not differ significantly between the groups, but when expressed as specific activity, the saline- or EGF-treated undernourished groups revealed significantly higher values than the well-nourished animals. It is concluded that whereas EGF promotes general body and gastrointestinal growth, it does not affect the functional maturation of the digestive tract.