Cell death–associated lipid droplet protein CIDE-A is a noncanonical marker of endoplasmic reticulum stress
Yoshiaki Morishita, Aaron P. Kellogg, Dennis Larkin, Wei Chen, Suryakiran Vadrevu, Leslie Satin, Ming Liu, Peter Arvan
Yoshiaki Morishita, Aaron P. Kellogg, Dennis Larkin, Wei Chen, Suryakiran Vadrevu, Leslie Satin, Ming Liu, Peter Arvan
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Research Article Endocrinology

Cell death–associated lipid droplet protein CIDE-A is a noncanonical marker of endoplasmic reticulum stress

Abstract

Secretory protein misfolding has been linked to ER stress and cell death. We expressed a TGrdw transgene encoding TG-G(2298)R, a misfolded mutant thyroglobulin reported to be linked to thyroid cell death. When the TGrdw transgene was expressed at low level in thyrocytes of TGcog/cog mice that experienced severe ER stress, we observed increased thyrocyte cell death and increased expression of CIDE-A (cell death-inducing DFFA-like effector-A, a protein of lipid droplets) in whole thyroid gland. Here we demonstrate that acute ER stress in cultured PCCL3 thyrocytes increases Cidea mRNA levels, maintained at least in part by increased mRNA stability, while being negatively regulated by activating transcription factor 6 — with similar observations that ER stress increases Cidea mRNA levels in other cell types. CIDE-A protein is sensitive to proteasomal degradation yet is stabilized by ER stress, and elevated expression levels accompany increased cell death. Unlike acute ER stress, PCCL3 cells adapted and surviving chronic ER stress maintained a disproportionately lower relative mRNA level of Cidea compared with that of other, classical ER stress markers, as well as a blunted Cidea mRNA response to a new, unrelated acute ER stress challenge. We suggest that CIDE-A is a novel marker linked to a noncanonical ER stress response program, with implications for cell death and survival.

Authors

Yoshiaki Morishita, Aaron P. Kellogg, Dennis Larkin, Wei Chen, Suryakiran Vadrevu, Leslie Satin, Ming Liu, Peter Arvan

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Figure 1

ER stress in TGcog/cog mice lacking or bearing the TGrdw transgene.

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ER stress in TGcog/cog mice lacking or bearing the TGrdw transgene. (A) ...
(A) Thyroid glands were dissected and RNA prepared and reverse-transcribed from hypothyroid 2-month-old C57BL/6J or TGcog/cog mice ± the TGrdw transgene driven by the TG promoter (n ≥ 11 animals per group). Spliced/unspliced Xbp1 mRNA quantitative reverse-transcribed PCR (qRT-PCR) is shown; each point is a different animal (both males and females were used). TGcog/cog mice lacking (0.32 ± 0.05) or bearing the TGrdw transgene (0.32 ± 0.05) both had significantly higher Xbp1 splicing than was detected in control thyroid glands (0.12 ± 0.02). P < 0.05. (B) Upper: Anti-myc immunoblot of rdw-TG in thyroid glands of the genotypes above (2-month-old TGcog/cog mice ± transgene); each lane is a different animal. Middle: Anti-KDEL and anti-CHOP immunoblotting from the same samples. Lower: GAPDH is a loading control. The lane at far left is thyroid tissue from C57BL/6J run on the same gel and transfer membrane; adjacent molecular weight markers are shown. This experiment was repeated 3 times.