N-acetylcysteine prevents preterm birth by attenuating the LPS-induced expression of contractile associated proteins in an animal model

Abstract

Objective: Intrauterine infection is associated with maternal immune activation (MIA) leading to preterm birth through upregulation of contractile associated proteins (CAPs). We hypothesized that N-acetylcysteine would decrease NF-κB activation and CAP expression in a MIA model for preterm birth.

Methods: Pregnant CD-1 mice were given intrauterine LPS or saline on day 15/20. They received NAC or saline prior to injection and were monitored until delivery. The rate of preterm birth in the control, LPS, and LPS + NAC animals was determined. In another group, animals were sacrificed 6 h after treatment and myometrium was collected. COX-2, connexin 43, and oxytocin receptor expression was determined.

Results: LPS administration resulted in preterm birth and this effect was attenuated by NAC. LPS increased COX-2, connexin 43, and oxytocin receptor expression. NAC significantly decreased COX-2 expression. LPS increased NF-κB activation; this was attenuated by NAC.

Conclusion: NAC may be beneficial in prevention of MIA-related preterm birth through attenuation of NF-κB activation and COX-2 upregulation.