Juvenile ciliopathy syndromes that are associated with renal cysts and premature renal failure are commonly the result of mutations in the gene encoding centrosomal protein CEP290. In addition to centrosomes and the transition zone at the base of the primary cilium, CEP290 also localizes to the nucleus; however, the nuclear function of CEP290 is unknown. Here, we demonstrate that reduction of cellular CEP290 in primary human and mouse kidney cells as well as in zebrafish embryos leads to enhanced DNA damage signaling and accumulation of DNA breaks ex vivo and in vivo. Compared with those from WT mice, primary kidney cells from
Gisela G. Slaats, Joshua C. Saldivar, Julien Bacal, Michelle K. Zeman, Andrew C. Kile, Ann Marie Hynes, Shalabh Srivastava, Jekaterina Nazmutdinova, Krista den Ouden, Miriam S. Zagers, Veronica Foletto, Marianne C. Verhaar, Colin Miles, John A. Sayer, Karlene A. Cimprich, Rachel H. Giles
DNA damage is enhanced in CEP290-depleted cells.