Thyroid hormone synthesis continues despite biallelic thyroglobulin mutation with cell death
Xiaohan Zhang, Aaron P. Kellogg, Cintia E. Citterio, Hao Zhang, Dennis Larkin, Yoshiaki Morishita, Héctor M. Targovnik, Viviana A. Balbi, Peter Arvan
Xiaohan Zhang, Aaron P. Kellogg, Cintia E. Citterio, Hao Zhang, Dennis Larkin, Yoshiaki Morishita, Héctor M. Targovnik, Viviana A. Balbi, Peter Arvan
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Research Article Endocrinology

Thyroid hormone synthesis continues despite biallelic thyroglobulin mutation with cell death

Abstract

Complete absence of thyroid hormone is incompatible with life in vertebrates. Thyroxine is synthesized within thyroid follicles upon iodination of thyroglobulin conveyed from the endoplasmic reticulum (ER), via the Golgi complex, to the extracellular follicular lumen. In congenital hypothyroidism from biallelic thyroglobulin mutation, thyroglobulin is misfolded and cannot advance from the ER, eliminating its secretion and triggering ER stress. Nevertheless, untreated patients somehow continue to synthesize sufficient thyroxine to yield measurable serum levels that sustain life. Here, we demonstrate that TGW2346R/W2346R humans, TGcog/cog mice, and TGrdw/rdw rats exhibited no detectable ER export of thyroglobulin, accompanied by severe thyroidal ER stress and thyroid cell death. Nevertheless, thyroxine was synthesized, and brief treatment of TGrdw/rdw rats with antithyroid drug was lethal to the animals. When untreated, remarkably, thyroxine was synthesized on the mutant thyroglobulin protein, delivered via dead thyrocytes that decompose within the follicle lumen, where they were iodinated and cannibalized by surrounding live thyrocytes. As the animals continued to grow goiters, circulating thyroxine increased. However, when TGrdw/rdw rats age, they cannot sustain goiter growth that provided the dying cells needed for ongoing thyroxine synthesis, resulting in profound hypothyroidism. These results establish a disease mechanism wherein dead thyrocytes support organismal survival.

Authors

Xiaohan Zhang, Aaron P. Kellogg, Cintia E. Citterio, Hao Zhang, Dennis Larkin, Yoshiaki Morishita, Héctor M. Targovnik, Viviana A. Balbi, Peter Arvan

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Figure 5

ER stress, cell death, and T4 synthesis in TGrdw/rdw rats.

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ER stress, cell death, and T4 synthesis in TGrdw/rdw rats. (A) Left: BiP...
(A) Left: BiP, p58ipk, and phospho-eIF2α Western blotting in thyroids of WT (+/+) and TGrdw/rdw rats (each lane represent 1 animal). Right: Quantification (BiP and p58ipk normalized to tubulin; phospho-eIF2α normalized to total eIF2α; mean ± SD). **P < 0.01, ***P < 0.001 (unpaired 2-tailed Student’s t test). (B) CHOP mRNA levels (normalized to YWHAZ) in the thyroid glands of WT and TGrdw/rdw rats (n = 7–8 animals/group; each point represents 1 animal; mean ± SD). ***P < 0.001 (unpaired 2-tailed Student’s t test). (C) Top: Representative samples showing spliced and unspliced XBP1 mRNA in the thyroids of WT, TGrdw/+, and TGrdw/rdw rats (n = 3–6 animals/group; each lane represents 1 animal). Hprt1 was used as a loading control. Bottom: Quantitation of the fraction of spliced XBP1 (mean ± SD). **P < 0.01, ***P < 0.001 (1-way ANOVA, Bonferroni post hoc test). (D) Representative TUNEL staining and immunofluorescence of T4-containing protein with DAPI counterstain in the thyroids of WT and TGrdw/rdw rats (n = 4 animals/group). Scale bars: 20 μm. (E) Representative immunofluorescence of cleaved caspase-3 with DAPI counterstain in thyroids of WT and TGrdw/rdw rats (n = 5 animals/group). For clarity, a dashed white line delimits the thyroid follicle lumen in the WT rats (in which cleaved caspase-3 is not detectable). Scale bars: 20 μm. (F) Western blotting of PARP in thyroid glands from WT and TGrdw/rdw rats (n = 3–4; each lane represents 1 animal). (G) Left: Representative Western blotting of T4-containing protein in thyroid homogenates of WT and TGrdw/rdw rats (n = 5 animals/group) with or without soluble competitor T4 to block specific bands (left of dotted red line). Right: The same samples immunoblotted with mAb anti-Tg showing intentional overloading of the TGrdw/rdw rat sample.