Updated publication reference for PubMed record(s): 30914427. DNA-protein crosslinks (DPCs) are highly cytotoxic lesions that obstruct essential DNA transactions and whose resolution is critical for cell and organismal fitness. However, unlike the repair pathways for most types of DNA damage, the mechanisms by which cells respond to and overcome DPCs remain poorly understood. Recent studies unveiled a dedicated DPC repair pathway in higher eukaryotes involving the SprT-type metalloprotease SPRTN/DVC1, which proteolytically processes DPCs during DNA replication in a ubiquitin-controlled manner. Here, we show that aldehyde-generated DPCs elicit a potent and highly dynamic, cell cycle-independent SUMOylation response impacting numerous chromatin-associated human proteins. We identify an uncharacterized SprT metalloprotease, ACRC, which unlike SPRTN is targeted to DPCs in a SUMO-dependent manner. Moreover, we establish important physiological roles of the C. elegans ACRC orthologue GCNA-1 and SUMO-mediated signaling in promoting organismal survival upon DPC formation. Finally, we demonstrate that like aldehydes, defined enzymatic DNMT1 DPCs trigger a robust SUMO response targeting the crosslinked proteins and associated factors to promote efficient lesion processing and cellular fitness. Collectively, our findings reveal an evolutionarily conserved general role of SUMO-mediated signaling in facilitating responses to DPCs in metazoans.