TY - JOUR
T1 - High-sensitivity sequencing reveals multi-organ somatic mosaicism causing DICER1 syndrome
AU - de Kock, Leanne
AU - Wang, Yu Chang
AU - Revil, Timothée
AU - Badescu, Dunarel
AU - Rivera, Barbara
AU - Sabbaghian, Nelly
AU - Wu, Mona
AU - Weber, Evan
AU - Sandoval, Claudio
AU - Hopman, Saskia M J
AU - Merks, Johannes H M
AU - van Hagen, Johanna M.
AU - Bouts, Antonia H M
AU - Plager, David A.
AU - Ramasubramanian, Aparna
AU - Forsmark, Linus
AU - Doyle, Kristine L.
AU - Toler, Tonja
AU - Callahan, Janine
AU - Engelenberg, Charlotte
AU - Soglio, Dorothée Bouron Dal
AU - Priest, John R.
AU - Ragoussis, Jiannis
AU - Foulkes, William D.
PY - 2016
Y1 - 2016
N2 - Background Somatic mosaicism is being increasingly recognised as an important cause of non-Mendelian presentations of hereditary syndromes. A previous wholeexome sequencing study using DNA derived from peripheral blood identified mosaic mutations in DICER1 in two children with overgrowth and developmental delay as well as more typical phenotypes of germline DICER1 mutation. However, very-low-frequency mosaicism is difficult to detect, and thus, causal mutations can go unnoticed. Highly sensitive, costeffective approaches are needed to molecularly diagnose these persons. We studied four children with multiple primary tumours known to be associated with the DICER1 syndrome, but in whom germline DICER1 mutations were not detected by conventional mutation detection techniques. Methods and results We observed the same missense mutation within the DICER1 RNase IIIb domain in multiple tumours from different sites in each patient, raising suspicion of somatic mosaicism. We implemented three different targeted-capture technologies, including the novel HaloPlexHS (Agilent Technologies), followed by deep sequencing, and confirmed that the identified mutations are mosaic in origin in three patients, detectable in 0.24-31% of sequencing reads in constitutional DNA. The mosaic origin of patient 4's mutation remains to be unequivocally established. We also discovered likely pathogenic second somatic mutations or loss of heterozygosity (LOH) in tumours from all four patients. Conclusions Mosaic DICER1 mutations are an important cause of the DICER1 syndrome in patients with severe phenotypes and often appear to be accompanied by second somatic truncating mutations or LOH in the associated tumours. Furthermore, the molecular barcode-containing HaloPlexHS provides the sensitivity required for detection of such low-level mosaic mutations and could have general applicability.
AB - Background Somatic mosaicism is being increasingly recognised as an important cause of non-Mendelian presentations of hereditary syndromes. A previous wholeexome sequencing study using DNA derived from peripheral blood identified mosaic mutations in DICER1 in two children with overgrowth and developmental delay as well as more typical phenotypes of germline DICER1 mutation. However, very-low-frequency mosaicism is difficult to detect, and thus, causal mutations can go unnoticed. Highly sensitive, costeffective approaches are needed to molecularly diagnose these persons. We studied four children with multiple primary tumours known to be associated with the DICER1 syndrome, but in whom germline DICER1 mutations were not detected by conventional mutation detection techniques. Methods and results We observed the same missense mutation within the DICER1 RNase IIIb domain in multiple tumours from different sites in each patient, raising suspicion of somatic mosaicism. We implemented three different targeted-capture technologies, including the novel HaloPlexHS (Agilent Technologies), followed by deep sequencing, and confirmed that the identified mutations are mosaic in origin in three patients, detectable in 0.24-31% of sequencing reads in constitutional DNA. The mosaic origin of patient 4's mutation remains to be unequivocally established. We also discovered likely pathogenic second somatic mutations or loss of heterozygosity (LOH) in tumours from all four patients. Conclusions Mosaic DICER1 mutations are an important cause of the DICER1 syndrome in patients with severe phenotypes and often appear to be accompanied by second somatic truncating mutations or LOH in the associated tumours. Furthermore, the molecular barcode-containing HaloPlexHS provides the sensitivity required for detection of such low-level mosaic mutations and could have general applicability.
UR - http://www.scopus.com/inward/record.url?scp=84959016872&partnerID=8YFLogxK
U2 - 10.1136/jmedgenet-2015-103428
DO - 10.1136/jmedgenet-2015-103428
M3 - Article
C2 - 26475046
AN - SCOPUS:84959016872
SN - 0022-2593
VL - 53
SP - 43
EP - 52
JO - Journal of Medical Genetics
JF - Journal of Medical Genetics
IS - 1
ER -