Abstract
SUMOylation is a dynamic, reversible post-translational modification that regulates cellular protein stability and localization. SUMOylation occurs in response to various stressors, including hypoxia and inflammation, features common in the obstetrical condition of pre-eclampsia. SUMO isoforms 1–4 have recently been identified in the human placenta, however less is known about their role in response to pre-eclamptic stress. We hypothesized that SUMOylation components have a unique spatiotemporal distribution during placental development and that their subcellular localization can be further modulated by extra-cellular stressors. Placental SUMO expression was examined across gestation. First trimester human placental explants and Jar cells were subjected to hypoxia or TNF-α cytokine and subcellular translocation of SUMOs was monitored. SUMOylation target proteins were elucidated using mass spectrometry and proximity ligation assay. Placental SUMO-1 and SUMO-4 were restricted to villous cytotrophoblast in first trimester and syncytium by term, while SUMO-2/3 staining was evenly distributed throughout the trophoblast across gestation. In placental villous explants, oxidative stress induced hyperSUMOylation of SUMO-1 and SUMO-4 in the syncytial cytoplasm, whereas SUMO-2/3 nuclear expression increased. Oxidative stress also upregulated cytoplasmic SUMO-1 and SUMO-4 protein expression (P < 0.05), similar to pre-eclamptic placentas. Keratins were identified as major targets of placental SUMOylation. Oxidative stress increased the cytokeratin-7 to SUMO-1 and SUMO-4 interactions, while inflammatory stress increased its interaction with SUMO-2/3. Overall, SUMOs display a unique spatiotemporal distribution in normal human placental development. Our data indicate SUMOylation in pre-eclampsia, which may impair the stability of cytoskeleton filaments and thus promote trophoblast shedding into the maternal circulation in this condition.
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