Figure 1

Old and new concepts of thyroid hormone action. A: Old concept of thyroid hormone action. In former times it was assumed that thyroid hormones are able to pass the plasma membrane by passive transport. Once in the cytosol T4 is deiodinated to T3 which exerts genomic effects by binding to the thyroid hormone receptor (TR). After hetero-dimerization with other nuclear receptors like retinoic X receptor (RXR), transcriptional regulation is initiated resulting in activation or inactivation of target genes. B: New concepts of thyroid hormone action. Thyroid hormones enter a target cell via specific transporters, e.g. T3 uses the monocarboxylate transporter MCT8 while T4 entry is mediated by Lat2 or Oatp14. Moreover, T3 can interact with αv β3 integrins to induce ERK1/2 signalling. Cytosolic T3 exerts genomic effects but can additionally also act by non-genomic means after TR binding and activation of down-stream PI-3 kinase. Likewise, the naturally occurring iodothyronine T2 is believed to stimulate metabolic rates via mitochondrial pathways, thereby bypassing genomic regulation. Besides thyroid hormones, derivatives like the thyronamines T1AM or T0AM, modulate the action of T3, e.g. counter-acting its effects in certain target cells. Thyronamines (TAMs) bind to and activate G-protein coupled receptors (GPCRs) of the trace amine associated receptor (TAAR) family. So far, it is only known that TAAR1 is activated by TAMs and signals via adenylylcyclase (AC) activation with subsequent rise of cAMP levels. However other GPCRs are likely targets for thyroid hormone derivatives.