Abstract
Background: In contrast to the thyroid hormones (THs) 3,3',5-triiodothyronine (T3) and 3,3',5,5'-tetraiodothyronine (thyroxine or T4), the binding characteristics of the thyroid hormone distributor proteins (THDP), thyroxine-binding globulin (TBG), albumin, and transthyretin in relation to TH metabolites are mostly lacking. In this study, we determined the distribution and binding affinity of TH metabolites to THDP, which is important for adequate interpretation of TH metabolite concentrations. Methods: Distribution of 125I-3,3'-diiodothyronine (3,3'-T2), -T3, -3,3',5'-triiodothyronine (rT3), -3,3',5-triiodothyroacetic acid (TA3), and -3,3',5,5'-tetraiodothyroacetic acid (TA4) to TBG, transthyretin, and albumin was determined by agar gel electrophoresis. The rank order of affinity (IC50) of TBG and transthyretin to thyronine (T0), 3-monoiodothyronine (3-T1), 3,5-diiodothyronine (3,5-T2), 3,3'-T2, T3, rT3, T4, TA3, and TA4 was determined with a radioligand, competitive binding assay. In healthy subjects, associations of serum TBG, transthyretin, and albumin with TH and its metabolites were analyzed using multiple linear regression models, adjusted for sex and age. Results: While T3 and T4 are predominantly bound to TBG, we demonstrated that the predominant THDP of 3,3'-T2 and rT3 is albumin, of TA3 is transthyretin and albumin, and of TA4 is transthyretin. With the radioligand binding assay, we showed that the rank order of affinity was T4>TA4 = rT3>T3>TA3 = 3,3'-T2 > 3-T1 = 3,5-T2>T0 for TBG (IC50-range: 0.36 nM to >100 μM) and TA4>T4 = TA3>rT3>T3 > 3,3'-T2 > 3-T1 > 3,5-T2>T0 for transthyretin (IC50-range: 0.94 nM to >100 μM). TBG, transthyretin, and albumin were not associated with T0, 3-T1, 3,3'-T2, rT3, and TA4. Conclusions: Differences in serum TBG, transthyretin, and albumin concentrations within the reference interval do not influence serum concentrations of T0, 3-T1, 3,3'-T2, rT3, and TA4. Distribution of TH metabolites between THDP differs from T4 and T3, which predominantly bind to TBG. The results from our study have potential clinical importance for adequate interpretation of TH metabolism in (patho)physiology.
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