Effect of porcine reproductive and respiratory syndrome virus 2 on tight junction gene expression at the maternal-fetal interface.

Understanding why intrauterine growth restricted (IUGR) fetuses are more resilient to transplacental porcine reproductive and respiratory syndrome virus-2 (PRRSV-2) infection compared to normal fetuses may lead to alternative approaches to control PRRS. Our objective was to compare gene expression of a subset of tight junction proteins in the endometrium (END) and placenta (PLC) of i) IUGR vs N-IUGR fetuses, and ii) across disease progression phenotypes following PRRSV-2 infection. In experiment 1, snap frozen END and PLC from fetuses of non-infected control dams (CTRL) and from high viral load viable (HVL-VIA) fetuses, with both groups further classified as either IUGR or non(N)-IUGR based on brain: liver weight ratio were strategically selected from a large challenge trial. In experiment 2, similar tissues were randomly selected from CTRL and from uninfected thymus (UNIF), (HVL-VIA) and HVL meconium-stained in the body (HVL-MEC-B) of PRRSV-infected dams. The expression of claudin (CLDN) 1, 3, 4, 5, 6, 7, 10, tight junction protein 1 (TJP1) and occludin (OCLN) genes were evaluated by PCR. There were no significant group differences between IUGR and N-IUGR groups, regardless of infection status, that explained the resilience of IUGR fetuses. Regarding disease progression, elevated CLDN3 was observed in END of UNIF, CLDN6 expression was lower in PLC when the fetus became infected (HVL-VIA), and CLDN10 elevated in PLC in fetuses showing evidence of compromise (HVL-MEC-B). Lastly, OCLN gene expression was higher in the END and PLC following maternal infection. In conclusion, differences in TJ integrity were mainly observed following PRRSV-2 infection with stepwise changes corresponding with disease progression.

Decreased tight junction protein intensity in the placenta of porcine reproductive and respiratory syndrome virus-2 infected fetuses.

INTRODUCTION: Existing strategies to control porcine reproductive and respiratory syndrome (PRRS) are not completely effective and require alternative approaches. Although intrauterine growth restricted (IUGR) fetuses are more resilient to transplacental PRRS virus-2 (PRRSV2) infection compared to normal fetuses, the exact mechanisms are unknown. The objective of this research was to assess abundance and localization of a subset of tight junction (TJ) proteins in the maternal-fetal interface and any alterations that may affect the movement of nutrients or PRRSV2 across the epitheliochorial placenta. METHODS: Paraffin-embedded samples of placenta from non-infected control (CTRL) and PRRSV2 infected fetuses (IUGR, non(N)-IUGR, meconium-stained (MEC) (n = 6 per group) were randomly selected from a large challenge trial and immunostained for claudins (CLDN) 1, 3, 4, 7 and tight junction protein 1 (TJP1). Immunostaining intensity was semi-subjectively scored by region. RESULTS: Intensity of CLDN1 was lower in placenta of IUGR, MEC, and N-IUGR fetuses compared to CTRL, mainly in fetal epithelium and maternal endothelial cells (MECL). CLDN4 intensity was lower in MECL of IUGR compared to CTRL and MEC fetuses. TJP1 intensity was lower in maternal and fetal epithelia of placenta within IUGR, MEC, and N-IUGR fetuses versus CTRL. DISCUSSION: Differences were mainly observed between PRRSV2 infected and non-infected groups indicating TJ integrity was affected by PRRSV2 infection. These results provide insights into the potential mechanisms of transplacental transmission of PRRSV2; however, since only CLDN4 differed amongst the infected groups, PRRSV2 induced changes in TJ integrity do not appear to explain variation in fetal outcomes after infection.