AJP - Regulatory, Integrative and Comparative Physiology, Vol 237, Issue 5 360-R365, Copyright © 1979 by American Physiological Society

ARTICLES

Noncoordinate regulation of cytoplasmic RNA in compensatory renal hypertrophy

A. J. Ouellette and R. A. Malt

To examine the regulatory role of mRNA in compensatory renal hypertrophy, the accumulation and decay of [3H]orotic acid in poly(A)-containing mRNA in mouse kidney was analyzed after unilateral nephrectomy during the period of maximal rRNA accretion. The distribution of radioactivity between newly synthesized poly(A)-containing and poly(A)-lacing polysomal RNA was altered, but no differences in mRNA half-life were observed in growth compared with effects of sham nephrectomy. Radioactivity in polysomal polyadenylated RNA was diminished by approximately 25% during growth where mice were labeled after nephrectomy, but if mice were labeled 18 h before operation, no difference was noted. Thus, accumulation of newly synthesized poly(A)-containing mRNA relative to RNAs that lack poly(A) is changed early in the course of renal hypertrophy. This noncoordinate regulation may represent a control mechanism effective early in induced cell growth involving mRNAs that lack poly(A).