Abstract | dc.description.abstract | Prenatal undernutrition induces a variety of cardiovascular alterations inmammalswhenadults, including
hypertension and hypercortisolism, which are thought to be caused by decreased glucocorticoid feedback
control of the hypothalamus–pituitary–adrenal (HPA) axis programmed during fetal life. Hypothalamic
CRH seems to be involved in blood pressure elevation of spontaneously hypertensive rats and in primary
hypertension of humans, but the influence of prenatal undernutrition on CRH expression has deserved
little attention. Here, we studied the expression of both CRH mRNA and CRH protein in the hypothalamus
of neonatal and juvenile offspring of rats undernourished during fetal life, as well as the plasma levels
of CRH and corticosterone. Prenatal undernutrition of pups was induced by submitting pregnant rats
to diet restriction (10 g daily of 21% protein standard laboratory diet). Pups born from dams with free
access to the standard laboratory diet served as controls. At day 2 of postnatal age, undernourished pups
showed lower body and brain weights, but higher plasma CRH and corticosterone than normal pups.
At day 40 of age, brain weight was significantly decreased in the undernourished rats, while plasma
corticosterone, plasma CRH and systolic pressure were significantly increased in these animals. At days
2 and 40 of postnatal age, increased CRH mRNA expression and CRH concentration were found in the
hypothalamus of undernourished rats. Results indicate that, in the rat, prenatal undernutrition led to fetal
programming of CRH overexpression, a neuropeptide serving as activating signal to the HPA axis and/or
to extrahypothalamic brain regions concerned with cardiovascular regulation. | en_US |