Integrated proteomic and phosphoproteomic profiling reveals mechanisms of Bisphenol-A induced placental toxicity

The global industrialization and rapid urbanization elevated the risk of toxic pollutant exposure, which affects human health specially during pregnancy. Pregnant mothers are daily exposed to bisphenol-A (BPA), which is a common plastic leachate and a prominent toxic pollutant present in our environment. BPA act as an endocrine disrupting chemical (EDCs) by altering feto-placental homeostasis. This persistent and potent exposure of BPA during gestation can trigger placental damage affecting trophoblast cell function and survival. BPA even disrupts specific signalling cascades by altering post translational protein phosphorylation. However, this BPA mediated dysregulation of signalling nodes in early trimester placenta is still unexplored. Therefore, this study investigates the global proteome changes in post-BPA exposed extravillous trophoblast (EVTs) cells, which revealed a BPA mediated dynamic regulation of phosphoproteome-signatures and their associated kinases. Further inspection showed that the altered phosphorylation of c-JUN (S63) and GSK3 (Y279) is associated with BPA toxicity in EVTs and placenta. This altered phosphorylation affects the cellular signalling downstream, imparting damage upon the growing feto-placental unit. This highlights an altered phosphorylation mediated mechanism of BPA toxicity in placenta which can cause an onset of adverse pregnancy outcome. Data are available via ProteomeXchange with the identifiers PXD074780.