Objective: To obtain proof-of-concept that locally produced anti-inflammatory steroids suppress ovulation-associated extracellular matrix proteases in human ovarian surface epithelial (OSE) cells.Design: Primary OSE cell cultures treated with interleukin-1alpha (IL-1alpha) (500 pg/mL) as proxy for inflammation, with/without anti-inflammatory steroid (cortisol or progesterone [P], 0.01-1.0 microM).Setting: Academic medical center.Patient(s): Sixteen premenopausal women (29-46 years) undergoing surgery for nonmalignant gynecological conditions.Main Outcome Measure(s): Semiquantitative extracellular matrix protease gene expression profiling with verification by real-time quantitative reverse transcription polymerase chain reaction (qRT-PCR) and gelatinase zymography.Result(s): Treatment with IL-1alpha stimulated messenger RNA (mRNA) expression of several ovulation-associated matrix metalloproteinase genes by OSE cell cultures, including gelatinase B (MMP9) but not gelatinase A (MMP2). The IL-1alpha-stimulated MMP9 mRNA production was suppressed by cortisol but not P. Cortisol but not P also dose-dependently suppressed IL-1alpha-stimulated MMP9 gelatinase activity and this effect was blocked by the glucocorticoid receptor antagonist RU486.Conclusion(s): In human OSE cells, stimulation of MMP9 gene expression and proteolytic activity by IL-1alpha is suppressed by anti-inflammatory cortisol through a glucocorticoid receptor-mediated mechanism. Because IL-1alpha also generates cortisol formation in OSE by stimulating cortisone reductase activity, these results support a role for intracrine cortisol in minimizing proteolytic damage to the OSE at ovulation. [ABSTRACT FROM AUTHOR]