Triiodothyronine (T3) Physiological Functions

Triiodothyronine (T3) Associated Diseases and Disorders

Physiological functions of triiodothyronine (T), the biologically active thyroid hormone.

T₃ is the principal active thyroid hormone that regulates basal metabolism, growth, CNS development, thermogenesis, cardiovascular function, and potentiates catecholamine sensitivity, affecting almost every tissue.

🔹 What is triiodothyronine (T)?

  • T is the primary active thyroid hormone at the cellular level.
  • Most circulating T₃ (~80%) is produced by peripheral deiodination of T (thyroxine).
  • It binds to thyroid hormone receptors (TRs) in the nucleus and regulates transcription of many target genes.

🔹 Core physiological functions of T

System / DomainPhysiological FunctionMechanism / Outcome
Basal metabolic rate (BMR)Increases metabolic rate in almost all tissuesStimulates mitochondrial biogenesis, increases Na⁺/K⁺-ATPase activity, enhances ATP turnover and oxygen consumption, generates heat (thermogenesis)
🧠 CNS development and functionEssential for brain maturation (especially fetal and early postnatal)Promotes neuronal differentiation, myelination, axonal growth, synaptogenesis
🦴 Growth & skeletal developmentSupports linear growth and bone maturationSynergizes with growth hormone (GH) and insulin-like growth factor 1 (IGF-1)
❤️ Cardiovascular systemMaintains normal heart rate and cardiac outputIncreases β-adrenergic receptor expression, enhances myocardial contractility and diastolic relaxation, increases cardiac output
🍽️ Carbohydrate metabolismStimulates glucose turnover↑ Gluconeogenesis, ↑ glycogenolysis, ↑ intestinal glucose absorption
🩸 Lipid metabolismMobilizes lipid stores↑ Lipolysis, ↓ cholesterol via ↑ LDL receptor expression, ↑ fatty acid oxidation
🧬 Protein metabolismControls protein turnoverStimulates both protein synthesis and breakdown (net effect depends on T₃ levels)
🛌 Neuromuscular functionRegulates muscle tone and reflexesInfluences contractile proteins and neuromuscular transmission
🦠 ThermogenesisCritical for heat productionStimulates uncoupling proteins and mitochondrial function in brown adipose tissue
🛡️ Sympathetic nervous system modulationPotentiates catecholamine actionUpregulates β-adrenergic receptors in heart and other tissues; explains “adrenergic-like” symptoms of hyperthyroidism

🔹 Developmental roles

In fetal and infant development:

  • T₃ is essential for:
    • Normal brain development (deficiency → irreversible intellectual disability)
    • Skeletal maturation
    • Lung development and surfactant production

🔹 Molecular mechanism

  • T binds nuclear thyroid hormone receptors (TRα, TRβ) receptor heterodimerizes with RXR binds thyroid hormone response elements (TREs) on DNA regulates transcription.
  • Compared to T₄, T has about 3–5 times greater receptor affinity and activity.

Triiodothyronine (T3) Associated Diseases and Disorders