Thyroid Hormones Promote Chondrocyte Differentiation in Mouse ATDC5 Cells and Stimulate Endochondral Ossification in Fetal Mouse Tibias Through Iodothyronine Deiodinases in the Growth Plate

内分泌学 内科学 二氧化二钠 软骨内骨化 生物 侏儒症 软骨细胞 甲状腺 激素 细胞分化 碘甲状腺原氨酸脱碘酶 脱碘酶 软骨 三碘甲状腺素 生物化学 解剖 医学 基因
作者
Masako Miura,Kiyoshi Tanaka,Yasato Komatsu,Michio Suda,Akihiro Yasoda,Yoko Sakuma,Ami Ozasa,Kazuwa Nakao
出处
期刊:Journal of Bone and Mineral Research [Oxford University Press]
卷期号:17 (3): 443-454 被引量:87
标识
DOI:10.1359/jbmr.2002.17.3.443
摘要

Abstract Thyroid hormones (THs), 3,3′,5-triiodo-L-thyronine (T3) and L-thyroxine (T4), are important for the normal development of the growth plate (GP); congenital TH deficiency leads to severe dwarfism. In mouse chondrogenic cell line, ATDC5, T3 enhanced differentiation and increased Alizarin red staining, but did not affect Alcian blue staining. In organ-cultured mouse tibias, THs stimulated the cartilage growth, especially in the hypertrophic zone. Interestingly, T4 was as equally potent as T3 in organ-cultured tibias, which suggests that T4 is metabolized locally to T3, because T4 is a prohormone and must be converted to T3 for its activity. Two enzymes catalyze the conversion; type I deiodinase (D1) and type II deiodinase (D2). D1 has a ubiquitous distribution and D2, with a high affinity for T4, is present where the maintenance of intracellular T3 concentration is critical. Messenger RNAs (mRNAs) for D1 and D2 were detected in neonatal mouse tibias and ATDC5 cells. The enzyme activity was unaffected by the D1 inhibitor 6-propyl-2-thiouracil, suggesting that D2 mainly catalyzes the reaction. D2 mRNA was detected in differentiated ATDC5 cells. In organ-cultured mouse tibias, D2 activity was greater at later stages. In contrast, thyroid hormone receptors (TRs) were expressed in neonatal mouse tibias and ATDC5 cells, but their expression levels in ATDC5 cells were stable throughout the culture periods. Therefore, increased T3 production at later stages by D2 is likely to contribute to the preferential effects of THs in the terminal differentiation of GP. This article is the first to show that T4 is activated locally in GP and enhances the understanding of TH effects in GP.
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