Lilia Kraoua

Testis development in the absence of SRY: chromosomal rearrangements at SOX9 and SOX3

Duplications in the ~2 Mb desert region upstream of SOX9 at 17q24.3 may result in familial 46,XX disorders of sex development (DSD) without any effects on the XY background. A balanced translocation with its breakpoint falling within the same region has also been described in one XX DSD subject. We analyzed, by conventional and molecular cytogenetics, 19 novel SRY-negative unrelated 46,XX subjects both familial and sporadic, with isolated DSD. One of them had a de novo reciprocal t(11;17) translocation. Two cases carried partially overlapping 17q24.3 duplications ~500 kb upstream of SOX9, both inherited from their normal fathers. Breakpoints cloning showed that both duplications were in tandem, whereas the 17q in the reciprocal translocation was broken at ~800 kb upstream of SOX9, which is not only close to a previously described 46,XX DSD translocation, but also to translocations without any effects on the gonadal development. A further XX male, ascertained because of intellectual disability, carried a de novo cryptic duplication at Xq27.1, involving SOX3. CNVs involving SOX3 or its flanking regions have been reported in four XX DSD subjects. Collectively in our cohort of 19 novel cases of SRY-negative 46,XX DSD, the duplications upstream of SOX9 account for ~10.5% of the cases, and are responsible for the disease phenotype, even when inherited from a normal father. Translocations interrupting this region may also affect the gonadal development, possibly depending on the chromatin context of the recipient chromosome. SOX3 duplications may substitute SRY in some XX subjects.

Only two mutations detected in 15 Tunisian patients with 11β-hydroxylase deficiency: the p.Q356X and the novel p.G379V.

Kharrat M, Trabelsi S, Chaabouni M, Maazoul F, Kraoua L, Ben Jemaa L, Gandoura N, Barsaoui S, Morel Y, M’rad R, Chaabouni H. Only two mutations detected in 15 Tunisian patients with 11β‐hydroxylase deficiency: the p.Q356X and the novel p.G379V.

A novel frame shift mutation in the PQBP1 gene identified in a Tunisian family with X-linked mental retardation.

Mental retardation (MR) is the most frequent cause of serious handicap in children and young adults. Despite recent progress, in most cases the molecular defects underlying this disorder remain unknown. Linkage studies followed by mutational analysis of known X-chromosomal genes related to mental retardation (MRX genes) localized within defined genetic intervals represent a rational strategy to identify a genetic cause of the disorder. Here, we report a Tunisian family including 3 males with severe to mild mental retardation, short stature, lean body and microcephaly; we mapped the disease to a unique interval encompassing Xp21.1-Xq21.33 (with a maximum LOD score of 0.90). Subsequent mutation analysis of genes located in this interval allowed us to identify a truncating mutation in the PQBP1 gene. This mutation is an insertion of an adenosine residue in exon 5 (c.631insA). This frameshift insertion causes premature stop codon at amino acid position 226. The observed mutation was found in all males with MR in this family. Together with previously reported observations, our data further confirm that PQBP1 gene should be tested for males showing mental retardation, short stature, lean body and microcephaly.

Hexasomy of the Prader-Willi/Angelman critical region, including the OCA2 gene, in a patient with pigmentary dysplasia: case report.

Derivatives of chromosome 15, often referred to as inv dup(15), represent the most common supernumerary marker chromosome (SMC). SMC(15)s can be classified into two major groups according to their length: small SMC(15) and large ones. Depending on the amount of euchromatin, the carriers may either present with a normal phenotype or with a recognizable syndrome. Here we describe a patient with severe mental retardation, epilepsy, dysmorphic features and pigmentary dysplasia. His karyotype was 47,XY,+mar[41]/46,XY[9]. Chromosomal fluorescence in situ hybridization (FISH) showed the SMC to be originating from chromosome 15, dicentric and containing four copies of the Prader-Willi/Angelman Syndrome Critical Region (PWACR), including the OCA2 gene. Molecular studies indicated that it is maternally derived. This report supports the previous observations assuming that severity of phenotype in patients with SMC(15) depends on the dosage of the PWACR and that skin pigmentation is correlated to OCA2 gene copy number.

3-Phosphoglycerate Dehydrogenase Deficiency: Description of Two New Cases in Tunisia and Review of the Literature

3-Phosphoglycerate dehydrogenase (3-PGDH) deficiency is a rare autosomal recessive disorder of serine biosynthesis. It is typically characterized by congenital microcephaly, intractable seizures of infantile onset, and severe psychomotor retardation. Diagnosis is suspected on decreased l-serine levels in plasma and cerebrospinal fluid (CSF) and confirmed by genetic study. Early diagnosis in index cases allows supplementation in serine and prevention of fixed lesions. Prenatal diagnosis and genetic counseling allows prevention of secondary cases. We report on the two first unrelated Tunisian families with 3-PGDH deficiency confirmed by biochemical and genetic study. We discuss clinical, biochemical, imaging, electroencephalographic, and therapeutic aspects and review the literature.

Novel ALPK3 mutation in a Tunisian patient with pediatric cardiomyopathy and facio-thoraco-skeletal features

Pediatric cardiomyopathy is a complex disease with clinical and genetic heterogeneity. Recently, the ALPK3 gene was described as a new hereditary cardiomyopathy gene underlying pediatric cardiomyopathies. Only eight patients carrying mutations in ALPK3 have been reported to date. Here, we report a 3-year-old male patient with both hypertrophic and dilated cardiomyopathy. The patient presented dysmorphic features and skeletal deformities of hands and feet, pectus excavatum, and cleft palate. The genetic investigation was performed by whole-exome sequencing in the patient and his parents. We identified a novel homozygous mutation in ALPK3 (c.1531_1532delAA; p.Lys511Argfs*12). Our work extends the phenotypic spectrum of the ALPK3-associated cardiomyopathy by reporting additional clinical features. This is the first study of a Tunisian patient with mutation in the ALPK3 gene. In conclusion, ALPK3 should be included in the list of genes to be considered in genetic studies for patients affected with pediatric syndromic cardiomyopathy.

WDR73-related galloway mowat syndrome with collapsing glomerulopathy

Galloway-Mowat syndrome (GAMOS [MIM 251300]) is a rare autosomal recessive disorder that manifests as a combination of nephrotic syndrome, brain abnormalities and developmental delay. It is a clinically and genetically heterogeneous disease. The WDR73 variations are associated with GAMOS1. Here we report two consanguineous families affected by GAMOS1. In the first family, three sisters are affected and in the second family, only one index case is identified. They all show a nephrotic syndrome, a neurological involvement and a collapsing glomerulopathy. The analysis of mutations of WDR73 revealed a new homozygous missense mutation NM_032856.3 c.293T > C; p.(Leu98Pro) in two patients from the first family, and a new homozygous missense mutation NM_032856.3: c.767G > A; p.(Arg256Gln) in the second one. This study extended the clinical and molecular spectrum of GAMOS1 with other cases associated with collapsing glomerulopathy and two novel WDR73 variations that are most likely pathogenic.

TOP3B: A Novel Candidate Gene in Juvenile Myoclonic Epilepsy?

Juvenile myoclonic epilepsy (JME) is characterized by seizures, severe cognitive abnormalities, and behavior impairments. These features could evolve over time and get worse, especially when the encephalopathy is pharmacoresistant. Thus, genetic studies should provide a better understanding of infantile epilepsy syndromes. Herein, we investigate the genetics of JME in a consanguineous family analyzing the copy number variations detected using over 700 K SNP arrays. We identified a 254-kb deletion in the 22q11.2 region, including only the TOP3B gene, detected in the patient and her father. TOP3B encodes a topoisomerase DNA (III) β protein and has been implicated in several neurological diseases such as schizophrenia and autism. In this study, we discuss the implication of the 22q11.2 region in neurodevelopmental disorders and the association of TOP3B with epilepsy.

Further Evidence for the Implication of LZTR1 , a Gene not Associated with the Ras-Mapk Pathway, in the Pathogenesis of Noonan Syndrome

Background: Noonan Syndrome (NS) is a relatively common autosomal dominant condition, caused by germline mutations in different genes involved in the RAS MAP Kinase signaling pathway. Although clinically heterogeneous, characteristic findings include typical facial features, short stature, chest deformity and congenital heart diseases. Methods: Here, we present the clinical and molecular characterization of a Tunisian patient with NS. A comprehensive mutations analysis of 29 genes belonging to the RAS pathway or encoding for interactors was performed, using targeted next generation sequencing. Results: The results revealed a novel pathogenic substitution affecting the LZTR1, whose mutations have been described only in 5 cases of NS. Conclusion: This report supports the implication of LZTR1 in Noonan syndrome. Next Generation Sequencing seems a suitable method for mutation detection in clinically and genetically heterogeneous syndromes such as NS.