Researchers: Priyanka Banerjee, Elizabeth A Olmsted-Davis, Anita Deswal, Minh Th Nguyen, Efstratios Koutroumpakis, Nicholas L Palaskas, Steven H Lin, Sivareddy Kotla, Cielito Reyes-Gibby, Sai-Ching J Yeung, Syed Wamique Yusuf, Momoko Yoshimoto, Michihiro Kobayashi, Bing Yu, Keri Schadler, Joerg Herrmann, John P Cooke, Abhishek Jain, Eduardo Chini, Nhat-Tu Le, Jun-Ichi Abe
Numerous studies have revealed the critical role of premature senescence induced by various cancer treatment modalities in the pathogenesis of aging-related diseases. Senescence-associated secretory phenotype (SASP) can be induced by telomere dysfunction. Telomeric DNA damage response induced by some cancer treatments can persist for months, possibly accounting for long-term sequelae of cancer treatments. Telomeric DNA damage-induced mitochondrial dysfunction and increased reactive oxygen species production are hallmarks of premature senescence. Recently, we reported that the nucleus-mitochondria positive feedback loop formed by p90 ribosomal S6 kinase (p90RSK) and phosphorylation of S496 on ERK5 (a unique member of the mitogen-activated protein kinase family that is not only a kinase but also a transcriptional co-activator) were vital signaling events that played crucial roles in linking mitochondrial dysfunction, nuclear telomere dysfunction, persistent SASP induction, and atherosclerosis. In this review, we will discuss the role of NAD+ depletion in instigating SASP and its downstream signaling and regulatory mechanisms that lead to the premature onset of atherosclerotic cardiovascular diseases in cancer survivors.
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