Abstract

Molecular diagnostic testing of the 11p15.5-associated imprinting disorders Silver-Russell and Beckwith-Wiedemann syndrome (SRS, BWS) is challenging due to the broad spectrum of molecular defects and their mosaic occurrence. Additionally, the decision on the molecular testing algorithm is hindered by their clinical heterogeneity. However, the precise identification of the type of defect is often a prerequisite for the clinical management and genetic counselling. Four major molecular alterations (epimutations, uniparental disomies, copy number variants, single nucleotide variants) have been identified, but their frequencies vary between SRS and BWS. Due to their molecular aetiology, epimutations in both disorders as well as upd(11)pat in BWS are particular prone to mosaicism which might additionally complicate the interpretation of testing results. We report on our experience of molecular analysis in a total cohort of 1448 patients referred for diagnostic testing of BWS and SRS, comprising a dataset from 737 new patients and from 711 cases from a recent study. Though the majority of positively tested patients showed the expected molecular results, we identified a considerable number of clinically unexpected molecular alterations as well as not yet reported changes and discrepant mosaic distributions. Additionally, the rate of multilocus imprinting disturbances among the patients with epimutations and uniparental diploidies could be further specified. Altogether, these cases show that comprehensive testing strategies have to be applied in diagnostic testing of SRS and BWS. The precise molecular diagnosis is required as the basis for a targeted management (e.g. ECG (electrocardiogram) and tumour surveillance in BWS, growth treatment in SRS). The molecular diagnosis furthermore provides the basis for genetic counselling. However, it has to be considered that recurrence risk calculation is determined by the phenotypic consequences of each molecular alteration and mechanism by which the alteration arose.Key messagesThe detection rates for the typical molecular defects of Beckwith-Wiedemann syndrome or Silver-Russell syndrome (BWS, SRS) are lower in routine cohorts than in clinically well-characterised ones.A broad spectrum of (unexpected) molecular alterations in both disorders can be identified.Multilocus imprinting disturbances (MLID) are less frequent in SRS than expected.The frequency of MLID and uniparental diploidy in BWS is confirmed.Mosaicism is a diagnostic challenge in BWS and SRS.The precise determination of the molecular defects affecting is the basis for a targeted clinical management and genetic counselling.

Highlights

  • The chromosomal region 11p15.5 harbours two differentially methylated regions (DMRs), the Imprinting Centre regions 1 and 2 (IC1, IC2) (Fig. 1)

  • In the group of 502 newly ascertained children referred for SRS testing, molecular alterations detectable by methylationspecific multiplex ligation-dependent probe amplification (MS MLPA) were identified in 21.0% (n = 106) (Table 1)

  • The majority consisted of IC1 LOM (69.8%); in two of them, Multilocus imprinting disturbances (MLID) was present

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Summary

Introduction

The chromosomal region 11p15.5 harbours two differentially methylated regions (DMRs), the Imprinting Centre regions 1 and 2 (IC1, IC2) (Fig. 1). In contrast to BWS, SRS is characterised by severe intrauterine and postnatal growth retardation, associated with relative macrocephaly, a typical triangular face due to a protruding forehead and a pointed chin, asymmetry, and feeding difficulties [2]. For both syndromes, the precise determination of the disease-causing molecular defect is crucial for clinical management, in particular as BWS, and some differential diagnoses of SRS are tumour predisposition syndromes [1, 3]

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