Characterization of the Thyroid Hormone Transport System of Cerebrocortical Rat Neurons in Primary Culture

Abstract: The uptake of 3',3,5-triiodo- l -thyronine (T₃) and l -thyroxine (T₄) by primary cultures derived from rat brain hemispheres was studied under initial velocity conditions, at 25°C. Uptake of both hormones was carrier mediated and obeyed simple Michaelis-Menten kinetics. The K _m of T₃ uptake was very similar to that of T₄, and did not vary significantly from day 1 to 4 in culture (310–400 n M ). The maximal velocity ( V _max) of T₃ uptake nearly doubled between day 1 and 4 of culture (41 ± 3 vs. 70 ± 5 pmol/min/mg of DNA, respectively). The V _max of T₄ uptake did not change (28 ± 8 and 31 ± 4 pmol/min/mg of DNA on days 1 and 4, respectively). The rank order of unlabeled thyroid hormone analogues to compete with labeled T₃ or T₄ uptakes were the same (T₃ > T₄ > 3',5',3-triiodo- l -thyronine > 3',3,5-triiodo- d -thyronine > triiodothyroacetic acid), indicating that the transport system is stereospecific. Unlabeled T₄ was a stronger competitor of labeled T₄ uptake than of labeled T₃ uptake, whereas unlabeled T₃ had the same potency for both processes. These results suggest that T₃ and T₄ are transported either by two distinct carriers or by the same carrier bearing separate binding sites for each hormone. They also indicate that the efficiency of T₃ uptake increases during neuronal maturation.