Mosaic Segmental and Whole-Chromosome upd(11)mat in Silver-Russell Syndrome

• Main Authors: Laura Pignata, Angela Sparago, Orazio Palumbo, Elena Andreucci, Elisabetta Lapi, Romano Tenconi, Massimo Carella, Andrea Riccio, Flavia Cerrato
• Format: Article
• Language: English
• Published: MDPI AG 2021-04-01
• Series: Genes
• Subjects: Silver–Russell syndrome; Beckwith–Wiedemann syndrome; genomic imprinting; imprinting disorders; uniparental disomy
• Online Access: https://www.mdpi.com/2073-4425/12/4/581

Molecular defects altering the expression of the imprinted genes of the 11p15.5 cluster are responsible for the etiology of two congenital disorders characterized by opposite growth disturbances, Silver–Russell syndrome (SRS), associated with growth restriction, and Beckwith–Wiedemann syndrome (BWS), associated with overgrowth. At the molecular level, SRS and BWS are characterized by defects of opposite sign, including loss (LoM) or gain (GoM) of methylation at the <i>H19/IGF2</i>:intergenic differentially methylated region (<i>H19/IGF2</i>:IG-DMR), maternal or paternal duplication (dup) of 11p15.5, maternal (mat) or paternal (pat) uniparental disomy (upd), and gain or loss of function mutations of <i>CDKN1C</i>. However, while upd(11)pat is found in 20% of BWS cases and in the majority of them it is segmental, upd(11)mat is extremely rare, being reported in only two SRS cases to date, and in both of them is extended to the whole chromosome. Here, we report on two novel cases of mosaic upd(11)mat with SRS phenotype. The upd is mosaic and isodisomic in both cases but covers the entire chromosome in one case and is restricted to 11p14.1-pter in the other case. The segmental upd(11)mat adds further to the list of molecular defects of opposite sign in SRS and BWS, making these two imprinting disorders even more specular than previously described.