Abstract 017: Cytolytic Natural Killer Cells Play a Direct Role in Causing Hypertension and Intrauterine Growth Restriction in Pregnant Rats

Abstract

The R educed U terine P erfusion P ressure (RUPP) rat model of placental ischemia mirrors many of the hallmark features of preeclampsia (PE) such as hypertension, intrauterine growth restriction (IUGR), and immune activation, which includes increased cytolytic natural killer cells (cNKs). We have previously demonstrated that depletion of NK cells in RUPP rats improves PE pathophysiology. In this study we tested the hypothesis that RUPP-stimulated NKs have increased cytotoxicity and play a direct role in inflammation, oxidative stress, hypertension, and intrauterine growth restriction in pregnant rats. NK cells were isolated from the placentas of normal pregnant (NP) and RUPP rats on gestation day (GD) 19 and assessed for cytotoxic activity. RUPP NK cells demonstrated a 5-fold increase in cytotoxic activity vs NP NK cells. On GD 12, 5x10 6 NK cells from RUPP rats were infused into a subset of NP rats. On GD 19, circulating and placental total NK cells and cNKs were quantified via flow cytometry in NP, RUPP, and NP+RUPP NK rats. MAP, fetal and placental weights, placental reactive oxygen species (ROS), and placental cytokines were also measured. Placental cNK cells (%gated) were significantly increased in RUPP (18.5±3.6%) and NP+RUPP NK (16.1±3.6%) compared to NP (4.1±0.8%) controls. Circulating cNKs followed a similar trend. MAP increased from 100 mmHg in NP to 126 mmHg in RUPP, and 119 mmHg in NP+RUPP NK (p<0.05 vs NP). Fetal weight decreased from 2.4±0.03 g in NP to 2.0±0.04 g in RUPP and to 2.1±0.02 g in NP+RUPP NK (p<0.05 vs NP). Placental weights followed a similar trend. Placental cNK cytokines were significantly increased in RUPP and in NP recipients of RUPP NK cells: TNF-α: NP- 23±3.1, RUPP- 62.3±7.8 pg/mg, NP+RUPP NK-43.9±5.7 pg/mg (p<0.05 vs NP); IFNγ: NP- 3.3±0.7, RUPP- 7.6±1.2 pg/mg, NP+RUPP NK-6.6±1.9 pg/mg (p<0.05 vs NP). Placental VEGF decreased from 6.5±1.3 pg/mg in NP to 2±0.8pg/mg in RUPP and 2.9±0.6 pg/mg in NP+RUPP NK. Circulating levels followed a similar trend. Placental ROS significantly increased from 27.3±4.6 RLUs/min/mg in NP to 63.1±5.7 RLUs/min/mg in RUPP and 84±17.6 RLUs/min/mg in NP+RUPP NK. These data demonstrate a direct role for cNKs in causing PE pathophysiology and identifies cNKs as a novel therapeutic target for treatment of PE.