半胱氨酸
计算生物学
三碘甲状腺素
共价键
细胞培养中氨基酸的稳定同位素标记
蛋白质组学
点击化学
生物
化学生物学
化学
蛋白质-蛋白质相互作用
细胞生物学
血浆蛋白结合
蛋白质亚单位
甲状腺激素受体
亲和标签
结构生物学
半胱氨酸代谢
生物化学
蛋白质结构
支架蛋白
DNA结合蛋白
结合位点
激素
作者
Qian Zeng,Xiaoqiao Yan,Xia Li,Yifei Wang,Rui Li,Guowan Zheng,Minghua Ge,Jingyan Ge
标识
DOI:10.1021/acschembio.5c00539
摘要
Thyroid hormone triiodothyronine (T3) is a critical regulator of mammalian development and metabolism, traditionally recognized for its actions. In this study, we initially designed and synthesized a novel T3-based photoaffinity probe in order to identify T3-interacting proteins in live cells. Remarkably, our results demonstrate that T3 can covalently bind to cellular proteins independently of photoirradiation. To validate this covalent labeling, a fluorescein-modified T3 probe (FIT3) was utilized, and a CO/IP combined SILAC approach was applied to profile covalently labeled proteins. Focusing on one putative target, succinate dehydrogenase subunit A (SDHA), site-mapping analysis identified cysteine residues as likely covalent modification sites mediated by a nucleophilic reaction through iodine leaving from T3. Further, two activity-based probes bearing alkyne click handles at distinct positions on the T3 scaffold were further used to expand the profiling of covalent T3 targets. This approach uncovered over 1000 candidate proteins, including ATP1A1, HSP90AB1, and PRDX1, with selected targets validated by Western blotting. These findings reveal a previously unrecognized mode of thyroid hormone action involving covalent protein modification, challenging the classical paradigm of thyroid hormone signaling and offering new insights into hormone biology and potential therapeutic targets.
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