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Thyrotropin-Releasing Hormone-Stimulated Pituitary and Thyroid Gland Responsiveness and 3,5,3'-Triiodothyronine Suppression in Fetal and Neonatal Lambs^*

ALAN H. KLEIN and DELBERT A. FISHER

Perinatal Research Division, Harbor- UCLA Medical Center Torrance, California 90509

Address requests for reprints to: Alan H. Klein, M.D., Building A-17 Annex, Harbor-UCLA Medical Center, 1000 West Carson Street, Torrance,California 90509.

Abstract

To evaluate the development of the pituitary thyroid axis and negative feedback control of TSH secretion, ovine TSH (oTSH) and T₄ were measured by RIA in plasma samples obtained before and 15, 30, 60,120, and 240 min after an iv bolus injection of TRH in fetal lambs between 105-113 days gestation (group I) and between 125–129 days gestation (group II); newborn lambs also were injected between 7–12 days of age (group III). In each group, the TRH injection and plasmasampling protocols were repeated 14–18 h after an iv injection of T₃.

Plasma oTSH concentrations increased in all animals in response to TRH injection. Neither the difference between the peak and baseline plasma concentrations (TSH) nor the integrated area under the plasma concentration-response curves (TSH) correlated with gestational age. Both responses, however, correlated with baseline oTSH concentrations (r = 0.72 and r = 0.73, respectively; P < 0.02 for both) and both (TSH and TSH) were significantly decreased in group III newborn animals (P < 0.05 for both). T₃ did not suppress the oTSH response. The plasma T₄ response (T₄) and the T₄ response in relationship to the TSH response (T₄/TSH) increased with gestational age (r = 0.70 and P < 0.02 for T₄; r = 0.66 and P < 0.03 for T₄/TSH). The mean T₄/TSH for group III newborn animals was significantly greater than the mean for the older group II fetuses (P < 0.04).

It is concluded that TRH-evoked TSH release in sheep increases during fetal life, depending primarily on hypothalamic pituitary maturation rather than gestational age. The TSH response to TRH is significantly reduced in newborn lambs. T₃ fails to suppress the TSH response to TRH in the fetus and newborn, suggesting immaturity of the negative feedback system for the control of TSH release. Thyroid gland sensitivity to TSH stimulation appears to increase throughout fetal and neonatal life. (Endocrinology 106: 697, 1980)

Footnotes

^* This work was supported by Grant HD-04270 from the NICHHD.

Recipient of NIH Special Fellowship HD-05402.

Received May 23, 1979.