Ubiquitinome dynamics and regulation by DUB2 during Leishmania differentiation

Leishmaniasis is caused by Leishmania parasites, which undergo cellular adaptation when transitioning from the insect stage (promastigote) to the mammalian stage (amastigote). While the ubiquitin-proteasome system (UPS) is vital for life cycle progression, global ubiquitination dynamics have remained unmapped. We established a quantitative ubiquitinomics workflow for Leishmania mexicana , identifying over 9,100 ubiquitination sites across 38% of the proteome, revealing thousands of stage-specific regulatory events. Promastigote-enriched sites associate with cell motility, while amastigote-enriched sites link to metabolism and glycosome organization. We identified extensive ubiquitination on UPS components, including the essential virulence factor deubiquitinase 2 (DUB2). Using inducible gene deletion and XL-BioID proximitomics, we identified 111 potential DUB2 substrates. High-confidence substrates include the E2 conjugating enzyme UBC2, which is required for differentiation, and SUMO, a critical regulator of ubiquitin crosstalk. The discovery of UBC2 as a substrate of DUB2 directly links ubiquitination with promastigote to amastigote differentiation. Our findings provide a comprehensive map of the Leishmania ubiquitinome and demonstrate that DUB2 acts as a pleiotropic regulator controlling post-translational modifications of essential proteins involved in life cycle progression.