Exploring the Genetic Causality of Discordant Phenotypes in Familial Apparently Balanced Translocation Cases Using Whole Exome Sequencing.

Familial apparently balanced translocations (ABTs) are usually not associated with a phenotype; however, rarely, ABTs segregate with discordant phenotypes in family members carrying identical rearrangements. The current study was a follow-up investigation of four familial ABTs, where whole exome sequencing (WES) was implemented as a diagnostic tool to identify the underlying genetic aetiology of the patients' phenotypes. Data were analysed using an in-house bioinformatics pipeline alongside VarSome Clinical. WES findings were validated with Sanger sequencing, while the impact of splicing and missense variants was assessed by reverse-transcription PCR and in silico tools, respectively. Novel candidate variants were identified in three families. In family 1, it was shown that the de novo pathogenic STXBP1 variant (NM_003165.6:c.1110+2T>G) affected splicing and segregated with the patient's phenotype. In family 2, a likely pathogenic TUBA1A variant (NM_006009.4:c.875C>T, NP_006000.2:p.(Thr292Ile)) could explain the patient's symptoms. In family 3, an SCN1A variant of uncertain significance (NM_006920.6:c.5060A>G, NP_008851.3:p.(Glu1687Gly)) required additional evidence to sufficiently support causality. This first report of WES application in familial ABT carriers with discordant phenotypes supported our previous findings describing such rearrangements as coincidental. Thus, WES can be recommended as a complementary test to find the monogenic cause of aberrant phenotypes in familial ABT carriers.

21 Mb deletion in chromosome band 13q22.2q32.1 associated with mild/moderate psychomotor retardation, growth hormone insufficiency, short neck, micrognathia, hypotonia, dysplastic ears and other dysmorphic features.

We report on a 9-month old boy carrying a 21 Mb de novo 13q interstitial deletion. The imbalance was detected by chromosomal analysis and investigated by Fluorescence In Situ Hybridization (FISH) and Comparative Genomic Hybridization (array-CGH) using two different platforms: a BAC microarray with 516 kb resolution (Cytochip) and a 15 kb resolution oligonucleotide microarray (Agilent 244K). The deletion has been estimated to span 21.46 Mb on chromosomal bands 13q22.2-13q32.1. The patient has mild/moderate psychomotor retardation, growth hormone insufficiency, hypertelorism, short neck, micrognathia, hypotonia, dysplastic ears and other dysmorphic features. Further investigation revealed that the abnormality is de novo and causative of the patient's phenotype. The described patient is unique among similar rare cases with different deletion breakpoints. It is the first case of 13q22.2q32.1 deletion where the breakpoints are clearly defined, indicating the importance of detailed clinical description and high-resolution genomic analysis for characterization of rare genetic syndromes.

Cryptic genomic imbalances in patients with de novo or familial apparently balanced translocations and abnormal phenotype.

BACKGROUND: Carriers of apparently balanced translocations are usually phenotypically normal; however in about 6% of de novo cases, an abnormal phenotype is present. In the current study we investigated 12 patients, six de novo and six familial, with apparently balanced translocations and mental retardation and/or congenital malformations by applying 1 Mb resolution array-CGH. In all de novo cases, only the patient was a carrier of the translocation and had abnormal phenotype. In five out of the six familial cases, the phenotype of the patient was abnormal, although the karyotype appeared identical to other phenotypically normal carriers of the family. In the sixth familial case, all carriers of the translocations had an abnormal phenotype. RESULTS: Chromosomal and FISH analyses suggested that the rearrangements were "truly balanced" in all patients. However, array-CGH, revealed cryptic imbalances in three cases (3/12, 25%), two de novo (2/12, 33.3%) and one familial (1/12, 16.6%). The nature and type of abnormalities differed among the cases. In the first case, what was identified as a de novo t(9;15)(q31;q26.1), a complex rearrangement was revealed involving a ~6.1 Mb duplication on the long arm of chromosome 9, an ~10 Mb deletion and an inversion both on the long arm of chromosome 15. These imbalances were located near the translocation breakpoints. In the second case of a de novo t(4;9)(q25;q21.2), an ~6.6 Mb deletion was identified on the short arm of chromosome 7 which is unrelated to the translocation. In the third case, of a familial, t(4;7)(q13.3;p15.3), two deletions of ~4.3 Mb and ~2.3 Mb were found, each at one of the two translocation breakpoints. In the remaining cases the translocations appeared balanced at 1 Mb resolution. CONCLUSION: This study investigated both de novo and familial apparently balanced translocations unlike other relatively large studies which are mainly focused on de novo cases. This study provides additional evidence that cryptic genomic imbalances are common in patients with abnormal phenotype and "apparently balanced" translocations not only in de novo but can also occur in familial cases. The use of microarrays with higher resolution such as oligo-arrays may reveal that the frequency of cryptic genomic imbalances among these patients is higher.

Prenatal diagnosis of a cervical teratoma with a cytogenetic study.

We describe a cervical teratoma revealed in the prenatal period that was studied cytogenetically. We were recently confronted with the case of a fetal solid neck mass suggestive of a teratoma. After termination of pregnancy the tumor was studied cytogenetically. This is the first case in the recent literature where a clone of cells with an additional chromosome marker has been detected. Cytogenetic study of the fetal blood in addition to cytogenetic study of the tumor after the termination of pregnancy showed the karyotypes 46,XY and 46,XY/47,XY + m, respectively. Fetal cervical teratoma is a rare condition. Genetic investigation in the case should be considered in order to reveal chromosome rearrangements.