The study looked at the levels of a protein called metastin (kisspeptin-10) and its receptor AXOR12 in ovarian cancer tissue and found that lower amounts were linked to more aggressive tumors and worse patient outcomes, while higher levels were associated with better prognosis.

Metastin, a product of the KiSS-1 gene, is a ligand for a G-protein-coupled receptor (AXOR12) and is a strong suppressant of metastasis. The aim of this study was to evaluate whether metastin and AXOR12 gene expressions affect prognosis of patients with epithelial ovarian cancer. The expression levels of metastin, AXOR12 and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene expression were analysed by the real-time quantitative reverse transcription-polymerase chain reaction in 76 epithelial ovarian cancer surgical specimens. Their expression (metastin/GAPDH and AXOR12/GAPDH ratios) was correlated with the clinical findings. Furthermore, cellular distribution of metastin and AXOR12 mRNA was examined by in situ hybridisation on tissue sections. The median and range of mRNA expression for metastin and AXOR12 were 0.047 and 0.01-13.57, and 4.00 and 0.011-135.13, respectively. Patients were dichotomised into two groups having low and high expressions by using the median value as the cutoff. A good agreement was noticed between metastin and AXOR12 gene expression levels (kappa coefficient; 0.74). The presence of residual tumour following resection was negatively associated with metastin (P=0.0084) and AXOR12 (P=0.0148) gene expressions indicating an association of low expression of these genes in more aggressive, and advanced tumours. By univariate Cox regression analysis, the prognosis of the patients with low AXOR12 gene expression was significantly worse than those with high AXOR12 gene expression (P=0.030). The combination of metastin and AXOR12 gene expression level was also significantly associated with the prognosis (P=0.049). Transcripts for both metastin and AXOR12 were detected in the epithelial ovarian carcinoma cells. These results present a new insight into the understanding of the biological behaviour of epithelial ovarian cancer. Metastin/AXOR12 signalling may suppress the invasive phenotype of epithelial ovarian cancer.