Cancer incidence and spectrum among children with genetically confirmed Beckwith-Wiedemann spectrum in Germany: a retrospective cohort study.

BACKGROUND: Beckwith-Wiedemann syndrome (BWS) is a cancer predisposition syndrome caused by defects on chromosome 11p15.5. The quantitative cancer risks in BWS patients depend on the underlying (epi)genotype but have not yet been assessed in a population-based manner. METHODS: We identified a group of 321 individuals with a molecularly confirmed diagnosis of BWS and analysed the cancer incidence up to age 15 years and cancer spectrum by matching their data with the German Childhood Cancer Registry. RESULTS: We observed 13 cases of cancer in the entire BWS cohort vs 0.4 expected. This corresponds to a 33-fold increased risk (standardised incidence ratio (SIR) = 32.6; 95% confidence interval = 17.3-55.7). The specific cancers included hepatoblastoma (n = 6); nephroblastoma (n = 4); astrocytoma (n = 1); neuroblastoma (n = 1) and adrenocortical carcinoma (n = 1). The cancer SIR was highest in patients with a paternal uniparental disomy of 11p15.5 (UPDpat). A high cancer risk remained when cases of cancer diagnosed prior to the BWS diagnosis were excluded. CONCLUSIONS: This study confirms an increased cancer risk in children with BWS. Our findings suggest that the highest cancer risk is associated with UPDpat. We were unable to confirm an excessive cancer risk in patients with IC1 gain of methylation (IC1-GOM) and this finding requires further investigation.

Biallelic PADI6 variants cause multilocus imprinting disturbances and miscarriages in the same family.

The term multilocus imprinting disturbance (MLID) describes the aberrant methylation of multiple imprinted loci in the genome, and MLID occurs in patients suffering from imprinting disorder carrying methylation defects. First data indicate that functional variants in factors expressed from both the fetal as well as the maternal genome cause MLID. Molecular changes in such genes of the maternal genome are called maternal effect variants, they affect members of the subcortical maternal complex (SCMC) in the oocyte which plays an important role during early embryonic development. Whereas the contribution of variants in the SCMC genes NLRP2, NLRP5, NLRP7, and KHDC3L to the etiology of reproductive failure and aberrant imprinting is widely accepted, the involvement of PADI6 variants in the formation of MLID is in discussion. We now report on the identification of biallelic variants in a woman suffering from different miscarriages and giving birth to two children with MLID. Thereby the role of PADI6 in maintaining the proper imprinting status during early development is confirmed. Thus, PADI6 variants do not only cause (early) pregnancy losses, but maternal effect variants in this gene cause the same spectrum of pregnancy outcomes as variants in other SCMC encoding genes, including chromosomal aberrations and disturbed imprinting. The identification of maternal effect variants requires genetic and reproductive counseling as carriers of these variants are at high risks for reproductive failure.