ABSTRACT:

Objectives

Thyronamines are decarboxylated and deiodinated metabolites of thyroid hormones (THs). Of all possible thyronamine variants, only 3-iodothyronamine (3-T₁AM) and iodine-free thyronamine (T₀AM) have been detected in vivo. While intensive research has been done on the (patho-)physiological action of 3-T₁AM, the role of T₀AM has been studied less intensively.

Study design

We determined whether a single pharmacological dose (50 mg/kg, i.p.) or repeated administration (5 mg/kg/day, i.p., for 7 days) of T₀AM affects metabolism, cardiovascular function, or thermoregulation in male C57BL/6J mice. Since selenium (Se) is important for proper TH function and Se metabolism is affected by TH, we additionally analyzed Se concentrations in liver, serum, and kidney using total reflection X-ray analysis.

Results

A single injection of T₀AM had no effect on heart rate, temperature, or activity as assessed by radio telemetry. Likewise, daily administration of T₀AM did not alter body weight, food or water intake, heart rate, blood pressure, brown adipose tissue thermogenesis, or body temperature, and no significant differences in hepatic glycogen content or mRNA expression of genes involved in cardiovascular function or metabolic control were determined. Also, the X-ray analysis of Se concentrations revealed no significant changes. However, hepatic T₀AM was significantly increased in the treated animals.

Conclusions

In summary, our data demonstrate that T₀AM elicits no obvious metabolic, cardiovascular, or thermoregulatory activities in mice. As T₀AM does also not interfere with TH or Se metabolism, we conclude that the deiodination of 3-T₁AM to T₀AM constitutes an efficient inactivation mechanism, terminating the actions of the more powerful precursor.