Effect of lucanthone (miracil D) on transcription of ribosomal RNA genes from Tetrahymena in vivo and in vitro

Abstract

Addition of lucanthone (1-5 mug/ml) to cultures of Tetrahymena results in a preferential inhibition of the synthesis of ribosomal RNA. Transcriptional studies with isolated nucleoli from Tetrahymena demonstrate that the endogenous RNA polymerases of the r-chromatin (chromatin form of rDNA) do not recognize the normal termination and move into the spacer region distal to the terminator in the presence of lucanthone. This is shown by hybridization of the transcript synthesized in the presence of the drug to restriction fragments of rDNA. Lucanthone seems specific in its action on termination as it does not inhibit the elongation process on the chromatin. Among various DNA-binding drugs tested only lucanthone and proflavine are found to cause repression of the termination. The data obtained suggest that the reduced synthesis of rRNA in lucanthone-treated eukaryotic cells is due to lack of reinitiating RNA polymerases possibly caused by improper termination.