Spermidine nuclear acetylation in rat hepatocytes and in logarithmically growing rat hepatoma cells: comparison with histone acetylation.

Spermidine acetylation has been studied in nuclear homogenates and in entire nuclei from rat hepatocytes and rat hepatoma tissue culture (HTC) cells, isolated at different stages of logarithmic growth, and compared to histone acetylation. Under all experimental conditions, N8-acetylspermidine was the predominant product of the reaction (90%). Unlike histone, spermidine acetylation in HTC cell and hepatocyte entire nuclei was almost absent or strikingly reduced relative to acetylation using nuclear homogenates as the enzyme sources. This was due to the lack of a free minor pool of spermidine, most likely lost during the purification of entire nuclei. Thus, preincubation of intact nuclei in the presence of spermidine restored activities to values observed using nuclear sonicates. Spermidine acetylation in HTC cell nuclei fluctuated moderately during cell growth, being stimulated immediately after initiation of proliferation and decreasing progressively as cultures reached high cell density. This pattern corroborated that of N8-acetylspermidine intracellular accumulation induced by culturing cells in the presence of 1 mM 7-amino-2-heptanone, a competitive inhibitor of N8-acetylspermidine deacetylase. Histone acetylation during HTC cell growth was not markedly different qualitatively from that of spermidine. Moreover, spermidine and histone acetylations in hepatocyte nuclei were of the same order of magnitude as those seen in rat hepatoma cell nuclei. Finally, inhibition of deacetylation of N8-acetylspermidine had no apparent deleterious effects on cell and growth. It remains to be determined whether the acetylation step is of higher physiological importance, in particular, and as discussed in nuclear spermidine turnover.