Preventing Cervical Ripening: The Primary Mechanism by Which Progestational Agents Prevent Preterm Birth?

Abstract

Objective Recent clinical trials suggest that progestational agents may prevent preterm birth, specifically in women with short cervices. These studies sought to assess novel pathways by which progestational agents (PAs) may modify signal transduction pathways that are involved in cervical ripening. Study Design A microarray analysis was performed on pregnant mouse cervix that was exposed to a MPA. Appropriate microarray and cluster analyses were performed. Target genes of interest were investigated in both PA– and inflammation-exposed cervices by quantitative polymerase chain reaction and immunohistochemistry. Results Microarray analysis identified both the previously recognized and novel pathways that are involved in cervical ripening. PAs differentially rejulate expression of claudin-2, hyaluronan synthase 2, and lipocalin 2. Claudin expression is significantly decreased by inflammation, which is prevented by PAs. Conclusion PAs significantly modulate gene expression in the cervix in the presence and absence of inflammation. The regulation of these pathways, specifically claudin proteins, may be a critical mechanism by which PAs prevent preterm birth, especially in women with premature cervical shortening.