Fyn-mediated phosphorylation of Menin disrupts telomere maintenance in stem cells

Abstract

AbstractTelomeres protect chromosome ends and determine the replication potential of dividing cells. The canonical telomere sequence TTAGGG is synthesized by telomerase holoenzyme, which maintains telomere length in proliferative stem cells. Although the core components of telomerase are well-defined, mechanisms of telomerase regulation are still under investigation. We report a novel role for the Src family kinase Fyn, which disrupts telomere maintenance in stem cells by phosphorylating the scaffold protein Menin. Fyn phosphorylates Menin at tyrosine 603 (Y603), which increases Menin’s SUMO1 modification, C-terminal stability, and importantly, its association with the telomerase RNA component (TR). We show that SUMO1-Menin decreases TR’s association with telomerase subunit Dyskerin, suggesting that Fyn’s phosphorylation of Menin induces telomerase subunit mislocalization and may compromise telomerase function at telomeres. Importantly, we find that Fyn inhibition reduces accelerated telomere shortening in human iPSCs harboring mutations for dyskeratosis congenita.