The role of supporting and disruptive mechanisms of FT3 homeostasis in regulating the hypothalamic-pituitary-thyroid axis.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Rudolf Hoermann, Mark J Pekker, John E M Midgley, Johannes W Dietrich
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Abstract

Background: Thyroid hormones are controlled by the hypothalamic-pituitary-thyroid (HPT) axis through a complex network of regulatory loops, involving the hormones TRH, TSH, FT4, and FT3. The relationship between TSH and FT4 is widely used for diagnosing thyroid diseases. However, mechanisms of FT3 homeostasis are not well understood.

Objective: We used mathematical modelling to further examine mechanisms that exist in the HPT axis regulation for protecting circulating FT3 levels.

Methods: A mathematical model consisting of a system of four coupled first-order parameterized non-linear ordinary differential equations (ODEs) was developed, accounting for the interdependencies between the hormones in the HPT axis regulation. While TRH and TSH feed forward to the pituitary and thyroid, respectively, FT4 and FT3 feed backward to both the pituitary and hypothalamus. Stable equilibrium solutions of the ODE system express homeostasis for a particular variable, such as FT3, if this variable stays in a narrow range while certain other parameter(s) and system variable(s) may vary substantially.

Results: The model predicts that (1) TSH-feedforward protects FT3 levels if the FT4 production rate declines and (2) combined negative feedback by FT4 and FT3 on both TSH and TRH production rates keeps FT3 levels insensitive to moderate changes in FT4 production rates and FT4 levels. The optimum FT4 and FT3 feedback and TRH and TSH-feedforward ranges that preserve FT3 homeostasis were found by numerical continuation analysis. Model predictions were in close agreement with clinical studies and individual patient examples of hypothyroidism and hyperthyroidism.

Conclusions: These findings further extend the concept of HPT axis regulation beyond TSH and FT4 to integrate the more active sister hormone FT3 and mechanisms of FT3 homeostasis. Disruption of homeostatic mechanisms leads to disease. This provides a perspective for novel testable concepts in clinical studies to therapeutically target the disruptive mechanisms.

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FT3稳态在调节下丘脑-垂体-甲状腺轴中的支持和破坏机制的作用。
背景:甲状腺激素由下丘脑-垂体-甲状腺(HPT)轴通过一个复杂的调节回路网络控制,包括激素TRH、TSH、FT4和FT3。TSH与FT4的关系被广泛用于甲状腺疾病的诊断。然而,FT3稳态的机制尚不清楚。目的:我们使用数学模型进一步研究HPT轴调节中存在的保护循环FT3水平的机制。方法:建立了一个由四个耦合一阶参数化非线性常微分方程(ode)组成的数学模型,考虑了激素在HPT轴调控中的相互依赖性。TRH和TSH分别前馈到垂体和甲状腺,FT4和FT3同时后馈到垂体和下丘脑。ODE系统的稳定平衡解表示特定变量(如FT3)的稳态,如果该变量保持在一个狭窄的范围内,而某些其他参数和系统变量可能会有很大的变化。结果:模型预测:(1)当FT4产量下降时,TSH前馈保护FT3水平;(2)FT4和FT3对TSH和TRH产量的联合负反馈使FT3水平对FT4产量和FT4水平的适度变化不敏感。通过数值延拓分析,找到了保持FT3稳态的最佳FT4和FT3反馈以及TRH和tsh前馈范围。模型预测与临床研究和个体患者甲状腺功能减退和甲状腺功能亢进的例子密切一致。结论:这些发现进一步扩展了HPT轴调控的概念,超越了TSH和FT4,整合了更活跃的姐妹激素FT3和FT3稳态机制。体内平衡机制的破坏导致疾病。这为临床研究中新的可测试概念提供了一个视角,以治疗靶向破坏性机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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