Differential activation of p53-Lamin A/C and p16-RB mediated senescence pathways in trophoblast from pregnancies complicated by type A2 Gestational Diabetes Mellitus

Gestational diabetes mellitus (GDM) increases maternal risks such as hypertension and future type 2 diabetes while also contributing to fetal complications such as large-for-gestational-age infants and stillbirth. The placenta which is crucial for fetal development, exhibits structural and functional changes in GDM, but the impact of these alterations on placental trophoblast function remains unclear. During their differentiation villous cytotrophoblast display several characteristics of senescent cells however the role of senescence pathways in placental function remains unexplored in GDM. Here we investigate whether placental senescence pathways are altered in GDM, utilizing term villous tissue and primary trophoblasts to assess molecular changes, and determined fetal sex-based differences. Our data suggest that both p21 and p16 mediated senescence pathways are activated during trophoblast differentiation and are dysregulated in GDM placenta in a sexually dimorphic manner. We also provide evidence for increased activation of p53-Lamin A/C and p16-RB pathways in trophoblast from GDM placentas. Reduced expression of p21 and its downstream effects on GCM1 expression and βhCG secretion outline how altered physiological senescence can affect trophoblast differentiation and function. This is a seminal study highlighting how placental senescence pathways are altered in pregnancies complicated by GDM.