Complex genomic alterations and intellectual disability: an interpretative challenge.

BACKGROUND: Complex chromosomal rearrangements (CCRs) are structural rearrangements involving more than three chromosomes or having more than two breaks; approximately 70% are not associated with any clinical phenotype. Here, we describe a CCR segregating in a two-generation family. METHOD: A 4-year-old male was evaluated for developmental delay, mild intellectual disability and epicanthus. Karyotype, fluorescence in situ hybridisation (FISH) analysis and array comparative genomic hybridisation (aCGH) analysis were performed on the patient and of all family members. RESULT: Array CGH analysis of the proband detected two non-contiguous genomic gains of chromosome 2 at bands q32.3q33.2 and bands q36.1q36.3. Both karyotype and FISH analysis revealed a recombinant chromosome 2 with a direct insertion of regions q32.3q33.2 and q36.1q36.3 into region q12. Both of these regions were also present in their original location. Karyotype and FISH analysis of the father revealed a de novo direct insertion of regions q32.3q33.2 and q36.1q36.3 into region q12. Moreover, a de novo balanced translocation involving the q arm of the same chromosome 2 and the p arm of chromosome 10 was observed in the father of the proband. The single nucleotide polymorphism (SNP) array analysis and haplotype reconstruction confirmed the paternal origin of the duplications. Karyotype, FISH analysis and array CGH analysis of other family members were all normal. CONCLUSION: This report underlines the importance of using different methods to correctly evaluate the origin and the structure of CCRs in order to provide an appropriate management of the patients and a good estimation of the reproductive risk of the family.

Pure duplication of 19p13.3 in three members of a family with intellectual disability and literature review. Definition of a new microduplication syndrome.

This paper describes the presence of an interstitial pure duplication of 19p13.3 (4.95 Mb) in a patient with intellectual disability studied by array-CGH which was initially considered as a de novo alteration. The discovery of the same chromosomal alteration in a first-degree cousin of this patient led us to investigate the presence of insertional translocations, which were consequently found in three family generations. The same duplication was found in three intellectually disabled patients and among the translocation carrier family members a very high incidence of miscarriages are reported. A review of other published cases has allowed us to find three other patients with a similar pure duplication, all of them sharing some common clinical findings such as intrauterine growth retardation, microcephaly, motor and speech delay, moderate to severe intellectual disability, and dysmorphic features. These findings allow us to suggest the presence of a new microduplication syndrome in chromosomal region 19p13.3.

Brief report. Adult patient presenting an interstitial (9) (q21.32q31.1) direct duplication resulting from the malsegregation of a paternal balanced insertional translocation.

BACKGROUND: The partial trisomy 9q syndrome is a well-defined chromosomal disorder with over 40 reported cases in the literature. However, 9q duplications derived from an insertional translocation have rarely been reported. METHODS: Cytogenetic and molecular analyses using G-banding, fluorescence in situ hybridization, and single nucleotide polymorphism array were performed in a 25-year-old male patient with intellectual disability, behavioral abnormalities, speech delay, postnatal growth retardation, distinctive facial features, and pyloric stenosis. RESULTS: G-banding analysis showed an extra chromosome segment of unknown origin inserted into band 4q25. A 16,747,601 bp duplication of 9q21.32q31.1 inserted into band 4q25 and a balanced (4;9) insertional translocation were identified by single nucleotide polymorphism array and fluorescence in situ hybridization analysis respectively in the patient and his healthy father. A literature review was performed to refine genotype-phenotype correlation of the partial trisomy 9q syndrome. CONCLUSION: This is the first report on the molecular characterization of a partial trisomy 9q syndrome derived from an insertional translocation between nonhomologous chromosomes. Our findings provide important information for genetic counseling and prenatal diagnosis of future pregnancies in this family.

Clinical outcomes in carriers of insertional translocation: a retrospective analysis of comprehensive chromosome screening results.

Objective: To evaluate the clinical outcomes in the carriers of insertional translocation (IT). Design: Retrospective case series. Setting: University-affiliated reproductive medical center. Patients: Twenty-three couples with ITs. Intervention: No direct interventions were involved; however, this study included patients who underwent preimplantation genetic testing for structural chromosomal rearrangements (PGT-SR). Main Outcome Measure: Outcome of preimplantation genetic testing for structural chromosomal rearrangements and percentage of blastocysts available for transfer. Results: Among 23 IT carriers, 15 were simple interchromosome ITs (type A), 3 were intrachromosome IT carriers (type B), and 5 were interchromosome IT carriers combined with other translocations (type C). A total of 190 blastocysts from 30 cycles were biopsied, 187 embryos were tested successfully, and only 57 blastocysts (30.5%) from 21 patients were available for transfer (normal or balanced). The unbalanced rearrangement rate of type C was 79.2% (42/53), and the proportion of type A was 50.0% (57/114), which was significantly higher than that of type B (5%, 1/20). In type A, the probability of embryos harboring unbalanced rearrangement in female carriers was 56.0% (51/91), which was higher than that in male carriers (26.1%, 6/23). Furthermore, the haploid autosomal length value of the inserted fragment was correlated linearly with the incidence of abnormal embryos. In type A gametes, most gametes produced by 2:2 separation without crossover, and no 3:1 separation gamete was observed. Conclusions: The chance of identifying normal or balanced and mosaic blastocysts per mature oocytes in patients with ITs are 16.6% (67/404). Greater IT complexity results in fewer transferable embryos. For simple interchromosome ITs, female carriers and those with higher haploid autosomal length values have a higher risk of producing embryos with unbalanced rearrangement.

Insertional translocation leading to a 4q13 duplication including the EPHA5 gene in two siblings with attention-deficit hyperactivity disorder.

An insertional translocation (IT) can result in pure segmental aneusomy for the inserted genomic segment allowing to define a more accurate clinical phenotype. Here, we report on two siblings sharing an unbalanced IT inherited from the mother with a history of learning difficulty. An 8-year-old girl with developmental delay, speech disability, and attention-deficit hyperactivity disorder (ADHD), showed by GTG banding analysis a subtle interstitial alteration in 21q21. Oligonucleotide array comparative genomic hybridization (array-CGH) analysis showed a 4q13.1-q13.3 duplication spanning 8.6 Mb. Fluorescence in situ hybridization (FISH) with bacterial artificial chromosome (BAC) clones confirmed the rearrangement, a der(21)ins(21;4)(q21;q13.1q13.3). The duplication described involves 50 RefSeq genes including the EPHA5 gene that encodes for the EphA5 receptor involved in embryonic development of the brain and also in synaptic remodeling and plasticity thought to underlie learning and memory. The same rearrangement was observed in a younger brother with behavioral problems and also exhibiting ADHD. ADHD is among the most heritable of neuropsychiatric disorders. There are few reports of patients with duplications involving the proximal region of 4q and a mild phenotype. To the best of our knowledge this is the first report of a duplication restricted to band 4q13. This abnormality could be easily missed in children who have nonspecific cognitive impairment. The presence of this behavioral disorder in the two siblings reinforces the hypothesis that the region involved could include genes involved in ADHD.

Abnormal detection of Y-STR alleles at DYS385 from female DNA in forensic casework and interchromosomal insertional translocation of P4 palindrome (HSFY/DYS385) from AZFb region.

The unknown origin of DNA samples derived from crime scenes generates a considerable amount of uncertainty, as do unexpected short tandem repeat (STR) results caused by sample mix-ups, contamination, medical interventions, and transgender individuals (broad meaning). Genetic abnormalities such as somatic/germline mutations, mosaicism or chimerism, sex reversal cases, aneuploidies, and chromosomal structural rearrangements are also possible causes of such results. The evidence offered by the present study suggested that additional DYS385 alleles, as seen in mixed stain samples and in the potentially single-source DNA profile of a female, originated from the female DNA source only. For the case reported here, we propose an interchromosomal insertion hypothesis, in which a 768-kb segment including the P4 palindrome of the azoospermia factor (AZFb) region was deleted from the Y chromosome and inserted into the X chromosome or an autosome during male meiosis. Y-SNP data points from the AccuID platform and in-house PCR assays narrowed down the expected length of the target region. Bioinformatics analysis followed by whole genome amplification and whole genome sequencing showed that a 529-kb segment including the P4 palindrome (HSFY/DYS385)/DYS460 region from the female sample mapped to the Y reference sequence (GRCh37). To our knowledge, the interchromosomal insertional translocation event was identified as an unknown type of genomic rearrangement in the forensic genetic field.

Maternal interchromosomal insertional translocation leading to 1q43-q44 deletion and duplication in two siblings.

BACKGROUND: 1q43-q44 deletion syndrome is a well-defined chromosomal disorder which is characterized by moderate to severe mental retardation, and variable but characteristic facial features determined by the size of the segment and the number of genes involved. However, patients with 1q43-q44 duplication with a clinical phenotype comparable to that of 1q43-q44 deletion are rarely reported. Moreover, pure 1q43-q44 deletions and duplications derived from balanced insertional translocation within the same family with precisely identified breakpoints have not been reported. CASE PRESENTATION: The proband is a 6-year-old girl with profound developmental delay, mental retardation, microcephaly, epilepsy, agenesis of the corpus callosum and hearing impairment. Her younger brother is a 3-month-old boy with macrocephaly and mild developmental delay in gross motor functions. G-banding analysis of the subjects at the 400-band level did not reveal any subtle structural changes in their karyotypes. However, single-nucleotide polymorphism (SNP) array analysis showed a deletion and a duplication of approximately 6.0 Mb at 1q43-q44 in the proband and her younger brother, respectively. The Levicare analysis pipeline of whole-genome sequencing (WGS) further demonstrated that a segment of 1q43-q44 was inserted at 14q23.1 in the unaffected mother, which indicated that the mother was a carrier of a 46,XX,ins(14;1)(q23.1;q43q44) insertional translocation. Moreover, Sanger sequencing was used to assist the mapping of the breakpoints and the final validation of those breakpoints. The breakpoint on chromosome 1 disrupted the EFCAB2 gene in the first intron, and the breakpoint on chromosome 14 disrupted the PRKCH gene within the 12th intron. In addition, fluorescence in situ hybridization (FISH) further confirmed that the unaffected older sister of the proband carried the same karyotype as the mother. CONCLUSION: Here, we describe a rare family exhibiting pure 1q43-q44 deletion and duplication in two siblings caused by a maternal balanced insertional translocation. Our study demonstrates that WGS with a carefully designed analysis pipeline is a powerful tool for identifying cryptic genomic balanced translocations and mapping the breakpoints at the nucleotide level and could be an effective method for explaining the relationship between karyotype and phenotype.

Posterior amorphous corneal dystrophy in a patient with 12q21.33 deletion.

Posterior amorphous corneal dystrophy (PACD) (OMIM 612868) is a rare autosomal dominant disorder characterized by partial or complete posterior lamellar corneal opacification, decreased corneal thickness and flattening of the corneal curvature. PACD is associated with heterozygous deletions in chromosome band 12q21.33 harboring DCN, KERA, LUM, and EPYC which encode small leucine-rich proteoglycans. We report on a 7-year-old male patient with PACD who had an interstitial deletion of 1.3 Mb in 12q21.33. His mother carried a balanced insertional translocation involving this 12q21.33 segment which was inserted into the proximal part of the long arm of one chromosome 13. The patient corroborates previous observations that PACD is a contiguous gene syndrome caused by combined haploinsufficiency of DCN, KERA, LUM, and EPYC and provides the first example of a balanced chromosome rearrangement involving 12q21.33 in an unaffected parent.

Mapping breakpoints of a familial chromosome insertion (18,7) (q22.1; q36.2q21.11) to DPP6 and CACNA2D1 genes in an azoospermic male.

It is widely accepted that the incidence of chromosomal aberration is 10-15.2% in the azoospermic male; however, the exact genetic damages are currently unknown for more than 40% of azoospermia. To elucidate the causative gene defects, we used the next generation sequencing (NGS) to map the breakpoints of a chromosome insertion from an azoospermic male who carries a balanced, maternally inherited karyotype 46, XY, inv ins (18,7) (q22.1; q36.2q21.11). The analysis revealed that the breakage in chromosome 7 disrupts two genes, dipeptidyl aminopeptidase-like protein 6 (DPP6) and contactin-associated protein-like 2 (CACNA2D1), the former participates in regulation of voltage-gated potassium channels, and the latter is one of the components in voltage-gated calcium channels. The deletion and duplication were not identified equal or beyond 100 kb, but 4 homologous DNA elements were verified proximal to the breakpoints. One of the proband's sisters inherited the same aberrant karyotype and experienced recurrent miscarriages and consecutive fetus death, while in contrast, another sister with a normal karyotype experienced normal labor and gave birth to healthy babies. The insertional translocation is confirmed with FISH and the Y-chromosome microdeletions were excluded by genetic testing. This is the first report describing chromosome insertion inv ins (18,7) and attributes DPP6 and CACNA2D1 to azoospermia.

Acute promyelocytic leukaemia with a PML-RARA insertional translocation and a chromosome 21 abnormality in XYY syndrome: case report.

The concomitant presence of the XYY syndrome with haematological malignancies is rare. This report presents a case of acute promyelocytic leukaemia (APL) with the promyelocytic leukaemia-retinoic acid receptor alpha (PML-RARA) gene insertional translocation and a chromosome 21 abnormality in a 29-year-old XYY male patient. Karyotype analysis revealed an abnormal karyotype of 47,XYY [14]/46,XYY,-21[16]. Fluorescence in situ hybridization and reverse transcription-polymerase chain reaction analysis showed the existence of a PML-RARA fusion gene. The patient was treated by all-trans retinoic acid (ATRA) and chemotherapy. Laboratory results revealed that the coagulopathy improved and the patient achieved complete remission, based on bone-marrow morphology. The patient then received sequential monthly therapy using arsenic trioxide, followed by ATRA, followed by chemotherapy; he has survived disease-free for 36 months. Our findings suggest that the additional chromosomal abnormalities involving the sex chromosomes and chromosome 21 did not affect the prognosis of APL, and that the sequential treatment strategy had a good clinical effect without being associated with severe side-effects.

[Chromosomal location of submicroscopic duplications in patients with neurodevelopmental disorders to identify cases with high risk of familial recurrence]. / Localización cromosómica de duplicaciones submicroscópicas en pacientes con trastornos del neurodesarrollo para identificar casos con alto riesgo de recurrencia familiar.

BACKGROUND AND OBJECTIVE: An important proportion of neurodevelopmental disorders (NDDs) results from unbalanced genomic alterations (duplication or deletion). These chromosomal rearrangements may be considered as de novo, despite they arise as a result of a balanced rearrangement not detected in a phenotypically normal parent. Therefore, if the rearrangements are inherited, the recurrence risk and the genetic counseling of these cases change radically. Fluorescence in situ hybridization (FISH) is a technique that allows detecting both balanced and unbalanced rearrangements, identifying also the location of duplicated segments. We tried to locate in the genome the duplicated segments detected in patients with NDDs in order to identify those cases due to inherited rearrangements. PATIENTS AND METHOD: The study was conducted in 13 patients with NDDs and genomic duplications detected by compared genomic hybridization-array (CGH-array). Two approaches of FISH technique were taken: hybridization with painting chromosome probes and with specific probes for each duplication. RESULTS: In the studied series of 13 patients with duplication, 11 patients were found to carry tandem duplications, one with an intrachromosomal insertional translocation, and another with an interchromosomal insertional translocation. Therefore, 2 of the duplications considered de novo were actually an unbalanced rearrangement inherited from a parent who is a balanced carrier. CONCLUSION: The results illustrate the need to characterize by FISH technique the rearrangements that are detected by CGH-array to identify those cases with a high risk of recurrence.