Subnuclear Localization of Human Topoisomerase I.

Human topoisomerase I is partitioned between the nucleolus and the nucleoplasm in the interphase cells. Under unstressed conditions it is concentrated in the first compartment but nucleolar concentration of the full length protein is lost after inactivation of relaxation activity. Due to the above, subnuclear localization of topoisomerase I is linked with DNA relaxation activity of topoisomerase I.

Activities of topoisomerase I in its complex with SRSF1.

Human DNA topoisomerase I (topo I) catalyzes DNA relaxation and phosphorylates SRSF1. Whereas the structure of topo I complexed with DNA has been resolved, the structure of topo I in the complex with SRSF1 and structural determinants of topo I activities in this complex are not known. The main obstacle to resolving the structure is a contribution of unfolded domains of topo I and SRSF1 in formation of the complex.

Fragment responsible for translocation in the N-terminal domain of human topoisomerase I.

The N-terminal domain is a fragment that binds proteins and anchors topoisomerase I in the nucleolus. As a separate polypeptide, it translocates from the nucleolus to nucleoplasm upon camptothecin treatment. In this paper, we show that the translocation depends on the short fragment of the domain (residues from 1 to 67).

RRM proteins interacting with the cap region of topoisomerase I.

RNA recognition motif (RRM) domains bind both nucleic acids and proteins. Several proteins that contain two closely spaced RRM domains were previously found in protein complexes formed by the cap region of human topoisomerase I, a nuclear enzyme responsible for DNA relaxation or phosphorylation of SR splicing proteins. To obtain molecular insight into specific interactions between the RRM proteins and the cap region of topo I we examined their binary interactions using the yeast two-hybrid system.

SF2/ASF protein binds to the cap region of human topoisomerase I through two RRM domains.

DNA relaxation catalysed by topoisomerase I is based on the reversible DNA cleavage. The reaction is inhibited by binding of splicing protein SF2/ASF, a substrate for the kinase activity of topoisomerase I. In this paper, we show a novel binding site for SF2/ASF in the cap region of topoisomerase I (amino acids 215-433) which interacts with the region containing two closely spaced RRM domains of SF2/ASF (amino acids 1-194).

Proteomic analysis of complexes formed by human topoisomerase I.

Human topoisomerase I is a nuclear enzyme that catalyses DNA relaxation and phosphorylation of SR proteins. Topoisomerase I participates in several protein-protein interactions. We performed a proteomic analysis of protein partners of topoisomerase I.

Activation of human topoisomerase I by protein kinase CK2.

The enzymatic studies were performed to reveal a mode of activation of human topoisomerase I by a direct interaction with protein kinase CK2. In the absence of ATP CK2 kinase activated DNA relaxation about twofold. CK2alpha subunit was identified as solely responsible for the stimulation of relaxing activity by CK2 kinase.

Potential protein partners for the N-terminal domain of human topoisomerase I revealed by phage display.

Phage display procedure was applied to the N-terminal domain of human topoisomerase I. The consensus sequence identified for clones binding to the N-terminal domain was found in 35 human proteins that are either permanently or temporarily located in the nucleus. They are in majority involved in the DNA repair, transcription, RNA metabolism or cell cycle control.

SF2/ASF protein inhibits camptothecin-induced DNA cleavage by human topoisomerase I.

A splicing factor SF2/ASF is a natural substrate for the kinase activity of human topoisomerase I. This study demonstrates that SF2/ASF inhibits DNA cleavage by human topoisomerase I induced by the anti-cancer agent camptothecin. The inhibition is independent of the phosphorylation status of SF2/ASF.