Decreased hepatic thyroid hormone signaling in systemic and liver-specific but not brain-specific accelerated aging due to DNA repair deficiency in mice.

IF 3.5 2区 医学 Q2 ENDOCRINOLOGY & METABOLISM
European Thyroid Journal Pub Date : 2023-11-23 Print Date: 2023-12-01 DOI:10.1530/ETJ-22-0231
Sander Barnhoorn, Marcel E Meima, Robin P Peeters, Veerle M Darras, Selmar Leeuwenburgh, Jan H J Hoeijmakers, Wilbert P Vermeij, W Edward Visser
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引用次数: 0

Abstract

Background: Thyroid hormone signaling is essential for development, metabolism, and response to stress but declines during aging, the cause of which is unknown. DNA damage accumulating with time is a main cause of aging, driving many age-related diseases. Previous studies in normal and premature aging mice, due to defective DNA repair, indicated reduced hepatic thyroid hormone signaling accompanied by decreased type 1 deiodinase (DIO1) and increased DIO3 activities. We investigated whether aging-related changes in deiodinase activity are driven by systemic signals or represent cell- or organ-autonomous changes.

Methods: We quantified liver and plasma thyroid hormone concentrations, deiodinase activities and expression of T3-responsive genes in mice with a global, liver-specific and for comparison brain-specific inactivation of Xpg, one of the endonucleases critically involved in multiple DNA repair pathways.

Results: Both in global and liver-specific Xpg knockout mice, hepatic DIO1 activity was decreased. Interestingly, hepatic DIO3 activity was increased in global, but not in liver-specific Xpg mutants. Selective Xpg deficiency and premature aging in the brain did not affect liver or systemic thyroid signaling. Concomitant with DIO1 inhibition, Xpg -/- and Alb-Xpg mice displayed reduced thyroid hormone-related gene expression changes, correlating with markers of liver damage and cellular senescence.

Conclusions: Our findings suggest that DIO1 activity during aging is predominantly modified in a tissue-autonomous manner driven by organ/cell-intrinsic accumulating DNA damage. The increase in hepatic DIO3 activity during aging largely depends on systemic signals, possibly reflecting the presence of circulating cells rather than activity in hepatocytes.

由于小鼠DNA修复缺陷,全身性和肝特异性但非脑特异性的肝甲状腺激素信号减少加速了衰老。
背景甲状腺激素信号传导对发育、代谢和对压力的反应至关重要,但在衰老过程中会下降,其原因尚不清楚。DNA损伤随着时间的推移而积累是衰老的主要原因,导致许多与年龄相关的疾病。先前对正常和早衰小鼠的研究表明,由于DNA修复缺陷,肝脏甲状腺激素信号传导减少,同时1型脱碘酶(DIO1)减少,DIO3活性增加。我们研究了脱碘酶活性的衰老相关变化是否由系统信号驱动,或代表细胞或器官自主变化。方法我们对小鼠的肝脏和血浆甲状腺激素浓度、脱碘酶活性和T3反应基因的表达进行了量化,Xpg是一种关键参与多种DNA修复途径的核酸内切酶,具有全局性、肝脏特异性和脑特异性失活。结果在全肝和肝特异性Xpg敲除小鼠中,肝脏DIO1活性均降低。有趣的是,肝脏DIO3活性在全局中增加,但在肝脏特异性Xpg突变体中没有增加。选择性Xpg缺乏和大脑过早衰老不会影响肝脏或全身甲状腺信号传导。伴随DIO1抑制,Xpg-/-和Alb-Xpg小鼠表现出TH相关基因表达变化减少,与肝损伤和细胞衰老的标志物相关。结论我们的研究结果表明,衰老过程中DIO1的活性主要是由器官/细胞内在积累的DNA损伤以组织自主的方式改变的。衰老过程中肝脏DIO3活性的增加在很大程度上取决于系统信号,可能反映了循环细胞的存在,而不是肝细胞的活性。
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来源期刊
European Thyroid Journal
European Thyroid Journal Medicine-Endocrinology, Diabetes and Metabolism
CiteScore
6.70
自引率
2.10%
发文量
156
期刊介绍: The ''European Thyroid Journal'' publishes papers reporting original research in basic, translational and clinical thyroidology. Original contributions cover all aspects of the field, from molecular and cellular biology to immunology and biochemistry, from physiology to pathology, and from pediatric to adult thyroid diseases with a special focus on thyroid cancer. Readers also benefit from reviews by noted experts, which highlight especially active areas of current research. The journal will further publish formal guidelines in the field, produced and endorsed by the European Thyroid Association.
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