Stimulated thyroid hormone synthesis machinery drives thyrocyte cell death independent of ER stress

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Abstract

It is now recognized that patient and animal models expressing genetically encoded misfolded mutant thyroglobulin (TG, the protein precursor for thyroid hormone synthesis) exhibit dramatic swelling of the endoplasmic reticulum (ER), with ER stress and cell death in thyrocytes — seen both in homozygotes (with severe hypothyroidism) and heterozygotes (with subclinical hypothyroidism). The thyrocyte death phenotype is exacerbated upon thyroidal stimulation (by thyrotropin [TSH]), as cell death is inhibited upon treatment with exogenous thyroxine. TSH stimulation might contribute to cytotoxicity by promoting ER stress or by an independent mechanism. Here we’ve engineered KO mice completely lacking Tg expression. Like other animals/patients with mutant TG, these animals rapidly developed severe goitrous hypothyroidism; however, thyroidal ER stress was exceedingly low — lower even than that seen in WT mice. Nevertheless, mice lacking TG exhibited abundant thyroid cell death, which depended upon renegade thyroidal iodination; cell death was completely suppressed in a genetic model lacking effective iodination or in Tg-KO mice treated with propylthiouracil (iodination inhibitor) or iodide deficiency. Thyrocytes in culture were killed not in the presence of H2O2 alone, but rather upon peroxidase-mediated iodination, with cell death blocked by propylthiouracil. Thus, in the thyroid gland bearing Tg mutation(s), TSH-stimulated iodination activity triggers thyroid cell death.

Authors

Crystal Young, Xiaohan Zhang, Xiaofan Wang, Aaron P. Kellogg, Kevin Pena, August Z. Cumming, Xiao-Hui Liao, Dennis Larkin, Hao Zhang, Emma Mastroianni, Helmut Grasberger, Samuel Refetoff, Peter Arvan