Abstract
Topoisomerase I is mostly nucleolar, because it plays a preeminent role in ribosomal DNA (rDNA) transcription. It is cleared from nucleoli following exposure to drugs stabilizing covalent DNA intermediates of the enzyme (e.g. camptothecin) or inhibiting RNA polymerases (e.g. actinomycin D), an effect summarily attributed to blockade of rDNA transcription. Here we show that two distinct mechanisms are at work: (i). Both drugs induce inactivation and segregation of the rRNA transcription machinery. With actinomycin D this leads to a co-migration of RNA-polymerase I and topoisomerase I to the nucleolar perimeter. The process has a slow onset (>20 min), is independent of topoisomerase I activity, but requires the N-terminal domain of the enzyme to colocalize with RNA polymerase I. (ii). Camptothecin induces, in addition, immobilization of active topoisomerase I on genomic DNA resulting in rapid nucleolar clearance and spreading of the enzyme to the entire nucleoplasm. This effect is independent of the state of rRNA transcription, involves segregation of topoisomerase I from RNA polymerase I, has a rapid onset (<1 min), and requires catalytic activity but neither the N-terminal domain of topoisomerase I nor its major sumoylation site. Thus, nucleolar/nucleoplasmic partitioning of topoisomerase I is regulated by interactions with RNA polymerase I and DNA but not by sumoylation.
Highlights
RRNA transcription, involves segregation of topoisomerase I from RNA polymerase I, has a rapid onset (
Partitioning of Topoisomerase I between Nucleoli and Nucleoplasm—This partitioning is an issue, because it provides a morphological criterion for the distribution of the enzyme between nucleolar and nucleoplasmic tasks, and may help to elucidate the general mechanism by which the cellular complement of topoisomerase I (topo I) is appropriately assigned to processes as diverse as mRNA transcription [2], rRNA transcription [3, 4], DNA synthesis [29], DNA repair [30], and DNA recombination [31], all of which require topo I activity as a cofactor
It was believed that this feature of topo I is linked to active ribosomal DNA (rDNA) transcription, because blockade of RNA synthesis leads to nucleolar clearance of the enzyme [8]
Summary
RRNA transcription, involves segregation of topoisomerase I from RNA polymerase I, has a rapid onset (
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