Aldosterone and thyroid hormone modulation of alpha 1-, beta 1-mRNA, and Na,K-pump sites in rabbit distal colon epithelium. Evidence for a novel mechanism of escape from the effect of hyperaldosteronemia.

Aldosterone and thyroid hormone regulation of Na,K-pump biosynthesis has been examined in the distal colon epithelium of rabbits. Qualitative analysis of alpha-subunit isoform distribution (alpha 1, alpha 2, alpha 3) detected only the alpha 1-mRNA in the distal colon epithelium and outer renal medulla, while all three isoforms were observed in rabbit brain. A low-sodium diet led to a rise in serum aldosterone from 0.6 nM to 1.4-1.9 nM and an increase of alpha 1-mRNA to 162%, beta 1-mRNA to 120%, and the number of Na,K-pump units as determined by specific [3H]-ouabain binding to 182% of control by the second day of the diet. While aldosterone levels remained elevated, a spontaneous decrease in serum levels of T3 and T4 to 50-60% of control from the third day of the diet was followed by downregulation of beta 1-mRNA to 55-67%, alpha 1-mRNA to 63-105%, and of [3H]-ouabain binding to 103% of control, suggesting that a reduced rate of synthesis of the beta 1-subunit is rate limiting for Na,K-pump biosynthesis. Substitution with T3 (10 micrograms/kg) at the seventh day with transient restoration of serum T3 to control levels, led to rapid accumulation of beta 1-mRNA to 152%, of alpha 1-mRNA to 135%, and of the number of Na,K-pump units to 153% of control. This is consistent with thyroid hormone having a permissive role for the aldosterone stimulation of Na,K-pump biosynthesis.(ABSTRACT TRUNCATED AT 250 WORDS)