Postpartum Changes in Microglia Density and Activation in a Rat Model of Superimposed Preeclampsia

Abstract

Microglia are the primary immune cells of the central nervous system, surveying the microenvironment and responding to cell injury or tissue damage. The Dahl Salt Sensitive (Dahl‐S) rat model of superimposed preeclampsia (PE) has preexisting hypertension and chronic kidney disease and exhibits characteristic symptoms of PE during pregnancy. Preexisting cardiovascular and renal disease increase the risk of superimposed PE, which further increases risk of maternal complications. Recently, we showed that the rat model of placental ischemia (induced preeclampsia) has increased posterior cortical microglia activation 2 months postpartum. However, whether superimposed PE exacerbates postpartum microglia activation is not known. Because the Dahl‐S rat has increased peripheral inflammation (increased circulating TNFα) during pregnancy and exacerbated hypertension and proteinuria with subsequent pregnancies, we hypothesized that the Dahl‐S model has increased microglia activation after two pregnancies. Dahl‐S rats were randomly assigned to virgin (DSV) or postpartum (DSP) groups (n=3 per group). Postpartum rats were mated twice (3 and 5 months of age) and brains were collected at 8 months of age. Posterior cerebrum was cryo‐sectioned and immuno‐stained using ionized calcium binding adapter molecule (Iba1). Microglia density and morphology were analyzed using ImageJ in 3 images per region and averaged per rat. There was no difference in microglia density (number of Iba1+ microglia per image) in the hippocampus (10±2 in DSV vs. 9±1 in DSP) or cortex (7±1 in DSV vs. 7±2 in DSP). DSP rats had higher proportion of hippocampal Type 3 (78% vs. 62% in DSV) and fewer Type 4 (5% vs. 22% in DSV) microglia (p<0.05). DSP had fewer hippocampal amoeboid (activated) microglia and higher cortical ramified (surveying) microglia compared to DSV (Figure). Taken together, history of superimposed preeclampsia symptoms in DSP rats does not induce exacerbated microglia activation suggesting that pregnancy is either protective to the brain or that following damage, microglia fail to activate, contributing to incomplete repair processes. These hypotheses will be tested in future studies. Future studies will also determine cortical and hippocampal cytokine levels and astrocyte activation in the postpartum Dahl‐S rats.Support or Funding InformationNIH R00HL129192, R25HL121042, 5T32HL105324‐09, R01HL134711This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.