Mayer-Rokitansky-Küster-Hauser syndrome (MRKHS) is a well-known malformation pattern of the Müllerian ducts (MDs) characterized by congenital absence of the uterus and vagina. To date, most cases remain unexplained at molecular level. As female Wnt9b-/- mice show a MRKHS-like phenotype, WNT9B has emerged as a promising candidate gene for this disease. We performed retrospective sequence analyses of WNT9B in 226 female patients with disorders of the MDs, including 109 patients with MRKHS, as well as in 135 controls. One nonsense mutation and five likely pathogenic missense mutations were detected in WNT9B. Five of these mutations were found in cases with MRKHS accounting for 4.6% of the patients with this phenotype. No pathogenic mutations were detected in the control group (p = 0.017). Interestingly, all of the MRKHS patients with a WNT9B mutation were classified as MRKHS type 1, representing 8.5% of the cases from this subgroup. In previous studies, two of the patients with a WNT9B mutation were found to carry either an additional deletion of LHX1 or a missense mutation in TBX6. We conclude that mutations in WNT9B were frequently associated with MRKHS in our cohort and some cases may be explained by a digenic disease model.
Definitions: Mutation detection rate refers to the detection of expected mutations according to pretest risk calculations; Mutation prevalence refers to the proportion of patients with a mutation of the whole cohort.
AbstractTo date, a disease-causing mutation can be found in 15-30% of families with hereditary breast and ovarian cancer (HBOC) and it is believed that more than half of the cases still remain unsolved. Usually it is intended to perform genetic analyses in the family member with the most severe phenotype, which, however, may not always be possible. Moreover, no standard criteria have been established to define the person who is most suitable for genetic testing within a family: 'the best index case'.We therefore established clinical criteria to identify the best index case in HBOC and analyzed the impact on genetic testing. 130 patients who presented at our department from 2016 to 2018 were divided into two groups. In group A (N = 98) genetic analyses were performed in the best index case based on our criteria. In group B (N = 32) at least one other family member was considered a better index case. The detection rate of expected mutations was significantly higher for group A (64.3% vs. 32.0%, p = 0.034) while there was no significant difference of calculated mutation carrier risks between these groups. We conclude that the mutation detection rate in families with HBOC is notably higher after identifying the best index case for genetic testing according to the clinical selection criteria reported here.
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