Effects of thyroid deficiency at birth on deoxyribonucleic acid synthesis and deoxythymidine kinase activity in the developing rat brain

Abstract

In thyroid deficiency at birth, the endogenous pool sizes of cellular dTTP did not change much in the cerebellum, cerebrum and brain stem at the whole ages studied, but the specific radioactivities of dTTP, at 2 hours after the subcutaneous injection of [3H]-thymidine, apparently increased only in the cerebellum on the 14th and 21st days as compared with the normal controls. The highest rate of DNA synthesis in vivo, expressed in terms of the specific radioactivity ratio of DNA to dTTP, was observed at the four-day-old normal rat cerebellum, and in the thyroid deficiency it appeared to shift between seven and 14 days of age. On the other hand, no apparent effects of thyroid deprivation on the rates of both the cerebrum and brain stem were found. The results suggest that a temporal alteration of DNA synthesis as well as thymidine metabolism occurred by thyroid deficiency was confined to the cerebellum in the early postnatal development of rats. Indeed, cerebellar thymidine kinase activity, related to DNA synthesis, also displayed a concomitant delay in thyroid deficiency to the characteristic age-dependence of DNA synthesis. No significant difference between normal and thyroidectomized rats was revealed in this respect on both the cerebrum and brain stem throughout the experimental periods.