| Endothelial type I interferon signaling modulates the vascular response to ischemic brain injury |
Kavli Affiliate: Ekaterina V. Vinogradova
| Authors: Alexander J Stuart, Kaori Takai, Railia R. Gabbasova, Henry Sanford, Ekaterina V. Vinogradova and Titia de Lange
| Summary:
Replicative senescence, a powerful tumor suppressor pathway, occurs when a few critically-short telomeres activate the DNA damage response (DDR). We show that ATM is the sole DDR kinase responsible for the induction and maintenance of replicative senescence and that ATM inhibition can induce normal cell divisions in senescent cells. Compared to non-physiological atmospheric (∼20%) oxygen, cells grown at physiological (3%) oxygen were more tolerant to critically-short telomeres, explaining their extended replicative lifespan. We show that this tolerance is due to attenuation of the ATM response to double-strand breaks (DSBs) and unprotected telomeres. Our data indicate that the reduced ATM response to DSBs at 3% oxygen is due to increased ROS, which induces disulfide-bridges in ATM, generating crosslinked ATM dimers that do not respond to DSBs. This regulation of cellular lifespan through attenuation of ATM at physiological oxygen has implications for tumor suppression through telomere shortening.