Partial trisomy 3p/monosomy 9p with sex reversal

A brother and sister with the same karyotype: Case report of two siblings with partial 3p duplication and partial 9p deletion and sex reversal

Two siblings with the same male unbalanced karyotype demonstrate sex reversal. The older sib appeared phenotypically female and the younger sib demonstrated a male gender. The female had gonadal dysgenesis with bilateral ovatestes. The male had bilateral testes. The report discusses the phenotypical differences and genes associated with sex reversal.

[Clinical and cytogenetic study in a child with de novo chromosome 9 abnormality]

This study aimed to analyze the clinical phenotype of chromosome 9p deletion or duplication and its relationship with karyotype. A patient, female, aged 6 months, visited the hospital due to motor developmental delay. Karyotype analysis identified abnormalities of chromosome 9 short arm, and high-throughput sequencing found 9p24.3-9p23 deletion and 9p23-9p13.1 duplication. Her parents had a normal karyotype. Karyotype analysis combined with high-throughput sequencing is of great significance for improving the efficiency of etiological diagnosis in children with motor developmental delay or multiple congenital deformities and mental retardation.

Clinical findings and molecular cytogenetic study of de novo pure chromosome 9p deletion: Pre- and postnatal diagnosis

OBJECTIVE

The aim of this report is to describe the phenotype-genotype correlation of chromosome 9p deletion syndrome cases, particularly the prenatal cases.

MATERIALS AND METHODS

A 30-year-old woman was referred to a hospital at 19⁺¹ weeks of gestation because of omphalocele detected in the fetus. The conventional karyotyping analysis and array comparative genomic hybridization (aCGH) were utilized for the prenatal diagnosis and genetic counseling in the fetus. The prenatal abnormality and cytogenetic findings in the fetus were compared with other patients with 9p deletion.

RESULTS

Karyotype analysis of the fetus cell showed a karyotype of 46,XX,del(9)(p22). aCGH analysis detected a deletion as arr[hg19] 9p24.2p22.2(226,7812-1,7466,907)×1. Individuals with 9p deletions tend to have features with widely variable expressivity. The common clinical manifestations of the 9p deletion include development delay, learning difficulties, hypotonia and trigonocephaly.

CONCLUSION

Phenotypes of 9p deletion cases are broadly in line. The prenatal diagnosis of the omphalocele provides evidence for a correlation with distal 9q deletion.

Prenatal diagnosis and molecular cytogenetic characterization of a de novo unbalanced reciprocal translocation of der(9)t(9;14)(p24.2;q32.11) associated with 9p terminal deletion and 14q distal duplication

OBJECTIVE

We present molecular cytogenetic characterization of a prenatally detected derivative chromosome 9 [der(9)] of unknown origin.

CASE REPORT

A 35-year-old woman underwent amniocentesis at 18 weeks of gestation because of advanced maternal age, which revealed a der(9) chromosome of unknown origin. The parental karyotypes were normal. Array comparative genomic hybridization (aCGH) analysis revealed a 2.593 Mb deletion of 9p24.3-p24.2 encompassing DOCK8, KANK1, DMRT1, and VLDLR and a 16.65 Mb duplication of 14q32.11-q32.33 encompassing DLK1, RTL1, MEG3, RTL1as, and MEG8. Quantitative fluorescent polymerase chain reaction (QF-PCR) analysis using D9S937 (9p24.2) and D14S605 (14q32.2) showed a paternal origin of 9p24.2 deletion and a paternal origin of 14q32.2 duplication consistent with a paternal origin of the de novo aberrant chromosome of der(9)t(9p;14q). The fetal karyotype was 46,XX,der(9)t(9;14) (p24.2;q32.11). Metaphase fluorescence in situ hybridization (FISH) analysis using RP11-57K23 (14q32.33), RP11-31F19 (9p24.3), RP11-30O14 (9p21.1), and RP11-1105I14 (14q11.2) confirmed an unbalanced reciprocal translocation of der(9)t(9p;14q). We discuss 9p deletion syndrome and 14q duplication syndrome in this case.

CONCLUSION

Molecular cytogenetic techniques such as aCGH, FISH, and QF-PCR are useful in the determination of the origin and nature of a prenatally detected de novo derivative chromosome of unknown origin.

Prenatal diagnosis and molecular cytogenetic characterization of a de novo pure distal 9p deletion and literature review

We present rapid aneuploidy diagnosis of distal 9p deletion by array comparative genomic hybridization using uncultured amniocytes in a pregnancy associated with an abnormal maternal serum screening result and intrauterine growth restriction (IUGR) in the fetus. We review the literature of prenatal diagnosis of distal 9p deletion, and add abnormal maternal serum biochemistry and fetal IUGR in the distinctive prenatal findings in pregnancy with fetal distal 9p deletion. We discuss the consequence of haploinsufficiency of DOCK8, KANK1, VLDLR and DMRT1 in this case.

Global survey of protein expression during gonadal sex determination in mice

The development of an embryo as male or female depends on differentiation of the gonads as either testes or ovaries. A number of genes are known to be important for gonadal differentiation, but our understanding of the regulatory networks underpinning sex determination remains fragmentary. To advance our understanding of sexual development beyond the transcriptome level, we performed the first global survey of the mouse gonad proteome at the time of sex determination by using two-dimensional nanoflow LC-MS/MS. The resulting data set contains a total of 1037 gene products (154 non-redundant and 883 redundant proteins) identified from 620 peptides. Functional classification and biological network construction suggested that the identified proteins primarily serve in RNA post-transcriptional modification and trafficking, protein synthesis and folding, and post-translational modification. The data set contains potential novel regulators of gonad development and sex determination not revealed previously by transcriptomics and proteomics studies and more than 60 proteins with potential links to human disorders of sexual development.

Characterization of deletions at 9p affecting the candidate regions for sex reversal and deletion 9p syndrome by MLPA

The distal region on the short arm of chromosome 9 is of special interest for scientists interested in sex development as well as in the clinical phenotype of patients with the 9p deletion syndrome, characterized by mental retardation, trigonocephaly and other dysmorphic features. Specific genes responsible for different aspects of the phenotype have not been identified. Distal 9p deletions have also been reported in patients with 46,XY sex reversal, with or without 9p deletion syndrome. Within this region the strongest candidates for the gonadal dysgenesis phenotype are the DMRT genes; however, the genetic mechanism is not clear yet. Multiple ligation-dependent probe amplification represents a useful technique to evaluate submicroscopic interstitial or distal deletions that would help the definition of the minimal sex reversal region on 9p and could lead to the identification of gene(s) responsible of the 46,XY gonadal disorders of sex development (DSD). We designed a synthetic probe set that targets genes within the 9p23-9p24.3 region and analyzed a group of XY patients with impaired gonadal development. We characterized a deletion distal to the DMRT genes in a patient with isolated 46,XY gonadal DSD and narrowed down the breakpoint in a patient with a 46,XY del(9)(p23) karyotype with gonadal DSD and mild symptoms of 9p deletion syndrome. The results are compared with other patients described in the literature, and new aspects of sex reversal and the 9p deletion syndrome candidate regions are discussed.

Larsen-like phenotype associated with partial trisomy 3p and monosomy 5p

BACKGROUND

We report on a fetus with radiographic features of Larsen Syndrome (LS) and unbalanced 3;5 translocation. Recently LS was shown to be caused by mutations in FLNB gene which maps on 3p14.3.

METHODS

Comparative genomic hybridization (CGH) was performed to search for genomic imbalances. Fluorescence in situ analysis (FISH) was done with BAC clone RP11-754F19 probe from the FLNB gene region (3p14.3).

RESULTS

CGH showed a large loss of the chromosome 5 short arm and a gain of half of the short arm of chromosome 3 resulting from a derivative chromosome 5. FISH analysis with FLNB probe demonstrated that it was not triplicated. Thus, we excluded the role of a gene dosage effect of FLNB in abnormal craniofacial development in this fetus.

CONCLUSIONS

To our knowledge, this is the first report of Larsen-like phenotype associated with unbalanced translocation resulting in partial trisomy 3p and monosomy 5p.