Development of the pituitary adrenal axis in fetal sheep twins

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Am J Physiol Regul Integr Comp Physiol 274: R1-R8, 1998;
0363-6119/98 $5.00

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Vol. 274, Issue 1, R1-R8, January 1998

Development of the pituitary adrenal axis in fetal sheep twins

Jeffrey Schwartz and James C. Rose

Departments of Obstetrics and Gynecology, Physiology, and Pharmacology and Perinatal Research Laboratories, Wake Forest University School of Medicine, Winston-Salem, North Carolina 27157

Plasma cortisol increases in fetuses at term and is important for overall development. This study was designed to determinewhether cortisol increases synchronously in twin fetal sheep andwhether differences between twins contribute to the respectivetiming. Catheters were surgically implanted in fetal arteriesin twins, the amniotic sac, and a maternal artery and vein. Bloodwas drawn daily until labor was imminent or the twins were delivered.Fetal pituitaries and adrenals were removed for in vitro measurements.Analyses included blood gases and cortisol (daily) and plasmacortisol, adrenocorticotropic hormone (ACTH), and estrogens (atcompletion). Twins were assigned retrospectively to group A orB, depending on which cortisol was first elevated (group A) abovebaseline. Group A fetuses consistently had higher cortisol untilterm. All group A fetuses also first had elevated ACTH. In fourof four sets of twins of both sexes, the male was in group A.There were no differences between fetuses in plasma estrogensor pituitary ACTH response to stimulation, but adrenal cells fromgroup A fetuses were more responsive. These data suggest thatadrenal activity is increased in one twin consistently, with thedifference being attributable to the responsiveness of adrenalcells to ACTH rather than pituitary responsiveness to either corticotropin-releasinghormone or vasopressin. Difference between sexes may also be involved.

adrenocorticotropic hormone; cortisol; glucocorticoids; corticotropin-releasing hormone; vasopressin

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