Effects of temperature on triiodothyronine plasma levels, kinetics, and hepatocyte nuclear binding in rainbow trout, Salmo gairdneri

Abstract

Plasma levels of 3,5,3′-triiodo-L-thyronine (T₃), plasma T₃ kinetics, and properties of in vivo T₃ binding to saturable hepatocyte nuclear sites were studied in fed immature rainbow trout maintained at 12 °C and then held for up to 14 d at 5, 11–12, or 19 °C. Elevation (19 °C) or depression (5 °C) of plasma T₃ occurred during the first 3 h following abrupt transfer from 11 °C, but from 12 h to 7 d, plasma T₃ did not differ significantly among the three temperatures. In contrast, the plasma T₃ degradation rate increased fourfold from 5 to 19 °C largely because of an increased fractional rate of turnover of the plasma T₃ pool. Outer-ring deiodination of T₃ was negligible at 5 and 12 °C and slight at 19 °C. Temperature did not influence the proportion of [¹²⁵I]T₃ lost via the enterohepatic route. Uptake of [¹²⁵I]T₃ into the liver and liver nuclear fraction was most rapid at 19 °C, intermediate at 12 °C, and least rapid at 5 °C. Saturable nuclear binding of [¹²⁵I]T₃ occurred at all temperatures. The apparent affinity of T₃ for hepatic nuclear sites was similar at 12 and 19 °C but lower at 5 °C; the apparent site capacity underwent no significant change with temperature. In conclusion, over the range of 5 to 19 °C there are marked increases in plasma T₃ clearance, rate of T₃ uptake from plasma to liver, and rate of T₃ uptake by the liver nuclear fraction, but relatively small changes in plasma T₃ level, proportion of T₃ excreted via the enterohepatic route, and properties of the saturable T₃-binding nuclear sites.