Familial Euthyroid Thyroxine Excess: Characterization of Abnormal Intermediate Affinity Thyroxine Binding to Albumin*

Abstract

The abnormal high capacity T₄ binding site of familial euthyroid T₄ excess was separable from prealbumin and T₄-binding globulin but not from albumin. We therefore compared T₄ binding by albumin preparations isolated from the sera of normal and affected subjects. By equilibrium dialysis, albumin from affected subjects showed an extra T₄ binding site (K_d ∼ 50 nM) in addition to the T₄ binding sites of normal albumin (K_d ∼ 4 μM). Comparison of the estimated capacity of the additional site (200 μM) with the molar concentration of albumin suggested that only about one third of albumin molecules from affected subjects contained the extra binding site. Estimates of affinity and capacity were used to derive combining powers for the diverse classes of serum T₄ binding sites. From these estimates, it appears that the presence of the abnormal site accounts for the approximate doubling of normal mean total T₄ (from ∼ 100 nM or 7.7 μg/dl to ∼ 200 nM or 15.5 μg/dl), in order to maintain a normal free T₄ in the face of the increased T₄ association with albumin. Studies of [¹²⁵I]T₄ displacement from albumin of affected subjects showed low T₃ affinity and competition by barbitone. Relative molar concentrations to give equivalent displacement of [¹²⁵I]T₄ were: 3,3',5,5'-tetraiodothyroacetic acid, 0.4; T₄, 1.0; _rT₃, 4; 8-anilinonaphthalene sulfonic acid, 10; T₃, 80; salicylate, 200; and barbitone, 40,000. Studies with dithiothreitol suggested that disulfide bonds were critical in maintaining the T₄-albumin association. These findings indicate that familial T₄ excess is due to abnormal intermediate affinity, sulfhydryl-sensitive T₄ binding sites that are inseparable from the albumin found in affected subjects.