Artículos de revistas
Adrenocortical suppression in highland chick embryos is restored during incubation at sea level
Fecha
2011Institución
Resumen
Abstract
Salinas, Carlo E., Mercedes Villena, Carlos E. Blanco, and Dino A. Giusssani. Adrenocortical suppression in
highland chick embryos is restored during incubation at sea level. High Alt. Med. Biol. 12:79–87, 2011.—By
combining the chick embryo model with incubation at high altitude, this study tested the hypothesis that
development at high altitude is related to a fetal origin of adrenocortical but not adrenomedullary suppression
and that hypoxia is the mechanism underlying the relationship. Fertilized eggs from sea-level or high altitude
hens were incubated at sea level or high altitude. Fertilized eggs from sea-level hens were also incubated at
altitude with oxygen supplementation. At day 20 of incubation, embryonic blood was taken for measurement of
plasma corticotropin, corticosterone, and Po2. Following biometry, the adrenal glands were collected and frozen
for measurement of catecholamine content. Development of chick embryos at high altitude led to pronounced
adrenocortical blunting, but an increase in adrenal catecholamine content. These effects were similar whether the
fertilized eggs were laid by sea-level or high altitude hens. The effects of high altitude on the stress axes were
completely prevented by incubation at high altitude with oxygen supplementation. When chick embryos from
high altitude hens were incubated at sea level, plasma hormones and adrenal catecholamine content were
partially restored toward levels measured in sea-level chick embryos. There was a significant correlation between adrenocortical blunting and elevated adrenal catecholamine content with both asymmetric growth restriction and fetal hypoxia. The data support the hypothesis tested and provide evidence to isolate the direct
contribution of developmental hypoxia to alterations in the stress system.