Uptake and Degradation of Cyclic AMP by Chloronema Cells

Abstract

Suspension cultures of intact chloronema cells of the moss Funaria hygrometrica take up [³H]cAMP and degrade it rapidly. The increase in total radioactivity accumulated by the cells was linear up to 30 minutes. Initially, the major degradation products were 5′-AMP and adenosine, but later predominantly ADP and ATP. In spite of rapid degradation, the amount of extracellularly applied cAMP retained by the cells is about 4-fold higher than the maximum endogenous level of cAMP reported previously (Handa, Johri 1977 Plant Physiol 59: 490-496). The uptake showed a distinct dependence on the density of the culture. Cells at a lower cell density (1-2 milligrams per milliliter) accumulated 4 to 6 times more radioactivity than the cells at high density (>10 milligrams per milliliter). The cyclic nucleotide phosphodiesterase (cNPDE) activity of whole cells (18 milliunits per milligram protein) was comparable to that of protoplasts (23 milliunits per milligram protein), but about 4-fold lower than that of lysed protoplasts (80 milliunits per milligram protein), indicating an intracellular degradation of cAMP by chloronema cells.