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  • Genetic alterations of the SUMO isopeptidase SENP6 drive lymphomagenesis and genetic instability in diffuse large B-cell lymphoma.

Genetic alterations of the SUMO isopeptidase SENP6 drive lymphomagenesis and genetic instability in diffuse large B-cell lymphoma.

Nature communications (2022-01-14)
Markus Schick, Le Zhang, Sabine Maurer, Hans Carlo Maurer, Konstandina Isaakaidis, Lara Schneider, Upayan Patra, Kathrin Schunck, Elena Rohleder, Julia Hofstetter, Apoorva Baluapuri, Anna Katharina Scherger, Julia Slotta-Huspenina, Franziska Hettler, Julia Weber, Thomas Engleitner, Roman Maresch, Jolanta Slawska, Richard Lewis, Rouzanna Istvanffy, Stefan Habringer, Katja Steiger, Armin Baiker, Robert A J Oostendorp, Cornelius Miething, Hans-Peter Lenhof, Florian Bassermann, Björn Chapuy, Matthias Wirth, Elmar Wolf, Roland Rad, Stefan Müller, Ulrich Keller
RESUMEN

SUMOylation is a post-translational modification of proteins that regulates these proteins' localization, turnover or function. Aberrant SUMOylation is frequently found in cancers but its origin remains elusive. Using a genome-wide transposon mutagenesis screen in a MYC-driven B-cell lymphoma model, we here identify the SUMO isopeptidase (or deconjugase) SENP6 as a tumor suppressor that links unrestricted SUMOylation to tumor development and progression. Notably, SENP6 is recurrently deleted in human lymphomas and SENP6 deficiency results in unrestricted SUMOylation. Mechanistically, SENP6 loss triggers release of DNA repair- and genome maintenance-associated protein complexes from chromatin thereby impairing DNA repair in response to DNA damages and ultimately promoting genomic instability. In line with this hypothesis, SENP6 deficiency drives synthetic lethality to Poly-ADP-Ribose-Polymerase (PARP) inhibition. Together, our results link SENP6 loss to defective genome maintenance and reveal the potential therapeutic application of PARP inhibitors in B-cell lymphoma.

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