P-52 Study of DNA repair geneexpression in MDS patients with shortened telomeres and multiple chromosomal abnormalities by array-based comparative genomic hybridization (A-CGH)

Abstract

Telomeres are the capping structures of the eukaryotic chromosome ends. Tankyrase 1 is a poly(ADP-ribose) polymerase that elongates telomeres in a telomerase-dependent manner. This function of tankyrase 1 is mediated by down-regulation of TRF1, a negative regulator of telomere access to telomerase. Namely, tankyrase 1 poly(ADP-ribosyl)ates (PARsylates) TRF1, which in turn dissociates TRF1 from telomeres. The resulting telomeres become better substrates for telomerase-mediated DNA extension. Tankyrase 1 has five independent TRF1 binding sites, ARC (ANK repeat cluster) I to V. Among them, the most C-terminal ARC V is required for TRF1 PARsylation and its release from telomeres. By contrast, functional significance of other four ARCs remains elusive. In this study, we generated a mutant tankyrase 1 that had inactive ARC IV and lacked ARC V but elongated telomeres without TRF1 PARsylation. Consistent with the failure in PARsylation, this mutant only marginally released TRF1 from telomeres. Still, it decreased telomere binding of POT1, a downstream effector of TRF1-mediated telomere length control, and elongated the telomeric 3′-overhang as the wild-type tankyrase 1 did. Thus even without TRF1 PARsylation, this mutant tankyrase 1 seemed to loosen the closed structure of the telomeric heterochromatin. These findings suggest a new role for multiple ARCs in telomere extension by tankyrase 1.