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Abstract
Polycystic ovary syndrome (PCOS) is one of the most common endocrinopathies in women of childbearing age and is characterized by chronic anovulation with either oligomenorrhea or amenorrhea and hyperandrogenism. The etiology of this entity remains unknown. It has been suggested that genomic variants in genes related to the regulation of androgen biosynthesis and function could be involved in genetic predisposition to PCOS. WNT-4 is a member of the WNT family of secreted molecules. Studies on female Wnt-4 knockout mice have suggested that this gene suppresses gonadal androgen synthesis in normal females. We investigated if 25 women with PCOS presented mutations in WNT-4 as the cause of their disorder. Direct sequencing of all five exons demonstrated no mutant alleles in any patient. This study demonstrates that, at least in the population studied, mutations of the open reading frame of WNT-4 gene or its intron/exon junctions are not the cause of PCOS. However, the present data do not rule out the possible existence of causative mutations in the WNT-4 gene promoter region.