Abstract
Bloom's syndrome is a rare genetic disorder associated with loss of genomic integrity and a large increase in the incidence of many types of cancer at an early age. The Bloom's syndrome gene product, BLM, belongs to the RecQ family of DNA helicases, which also includes the human Werner's and Rothmund-Thomson syndrome gene products and the Sgs1 protein of Saccharomyces cerevisiae. This family shows strong evolutionary conservation of protein structure and function. Previous studies have shown that Sgs1p interacts both physically and genetically with topoisomerase III. Here, we have investigated whether this interaction has been conserved in human cells. We show that BLM and hTOPO IIIalpha, one of two human topoisomerase III homologues, co-localize in the nucleus of human cells and can be co-immunoprecipitated from human cell extracts. Moreover, the purified BLM and hTOPO IIIalpha proteins are able to bind specifically to each other in vitro, indicating that the interaction is direct. We have mapped two independent domains on BLM that are important for mediating the interaction with hTOPO IIIalpha. Furthermore, through characterizing a genetic interaction between BLM and TOP3 in S. cerevisiae, we have identified a functional role for the hTOPO IIIalpha interaction domains in BLM.
Highlights
Bloom’s syndrome is a genetic disorder characterized by retarded growth, sun sensitivity, immunodeficiency, and a predisposition to a wide variety of cancers [1]
Interact physically with Sgs1p when expressed in S. cerevisiae [26], suggesting that the interaction between RecQ helicases and topoisomerase III enzymes has been conserved between eukaryotic species
Generation of Anti-BLM and Anti-hTOPO III␣ Antibodies— Anti-BLM antibodies were raised in rabbits against a chimeric protein consisting of maltose-binding protein (MBP) fused to residues 1– 449 of BLM
Summary
Bloom’s syndrome is a genetic disorder characterized by retarded growth, sun sensitivity, immunodeficiency, and a predisposition to a wide variety of cancers [1]. BLM and hTOPO III␣ Exist as a Complex in Human Cells— Given that Sgs1p and Top3p interact physically in yeast [8], we tested the possibility that BLM may form a complex with topoisomerase III in human cells.
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