A novel missense mutation in the high mobility group domain of SRY drastically reduces its DNA-binding capacity and causes paternally transmitted 46,XY complete gonadal dysgenesis.

OBJECTIVE: To investigate the familial segregation, role, and function of a novel SRY missense mutation c.347T>C in two half-sisters affected by 46,XY complete gonadal dysgenesis (CDG) compatible with a successful pregnancy outcome. DESIGN: Phenotypic, mutational, and functional study. SETTING: Academic research unit. PATIENT(S): Two half-sisters, their common father, and 100 healthy control individuals. INTERVENTION(S): Chromosome, molecular cytogenetic analysis, and Sanger sequencing of the SRY gene in blood lymphocytes of the proband, her affected half-sister, and in inflammatory tissue of the father postmortem. Cloning and expression of high mobility group box carboxy-terminal domains of Sry and electrophoretic mobility shift assay were performed. MAIN OUTCOME MEASURE(S): Not applicable. RESULT(S): A novel SRY missense mutation c.347T>C (p.Leu116Ser) was identified in two half-sisters and segregates with the CGD phenotype. It is present in the common healthy father in a mosaic state. Functional analyses demonstrate the pathogenic effect of the mutation by a strong reduction of DNA affinity for the mutant p.Leu116Ser SRY protein. CONCLUSION(S): The missense mutation c.347T>C in the high mobility group domain of SRY causes 46,XY CGD. Paternal gonadal mosaicism is likely to explain the familial occurrence of 46,XY CGD suggesting a de novo mutational event during the early stages of embryonic development. This novel mutation is compatible with a successful pregnancy outcome.

Early occurrence of lung adenocarcinoma and breast cancer after radiotherapy of a chest wall sarcoma in a patient with a de novo germline mutation in TP53.

We report a 26-year-old female patient who was diagnosed within 4 years with chest sarcoma, lung adenocarcinoma, and breast cancer. While her family history was unremarkable, DNA sequencing of TP53 revealed a germline de novo non-sense mutation in exon 6 p.Arg213X. One year later, she further developed a contralateral ductal carcinoma in situ, and 18 months later a jaw osteosarcoma. This case illustrates the therapeutic pitfalls in the care of a young cancer patient with TP53 de novo germline mutations and the complications related to her first-line therapy. Suggestion is made to use the less stringent Chompret criteria for germline TP53 mutation screening. Our observation underlines the possibly negative effect of radiotherapy in generating second tumors in patients with a TP53 mutation. We also present a review of six previously reported cases, comparing their cancer phenotypes with those generally produced by TP53 mutations.

Interstitial deletion 1q42 in a patient with agenesis of corpus callosum: Phenotype-genotype comparison to the 1q41q42 microdeletion suggests a contiguous 1q4 syndrome.

Interstitial deletions of 1q4 are rare and present with different deletion breakpoints and variable phenotype. We report on the clinical and molecular cytogenetic findings in a girl with minor anomalies, midline defects including prenatally ascertained agenesis of the corpus callosum, epilepsy and developmental delay. A de novo 5.45 Mb deletion almost exclusively located within 1q42 was found to cause this phenotype, which shows significant overlap with the microdeletion 1q41q42 syndrome reported in a few patients except for the agenesis of the corpus callosum. However, deletions in patients with the 1q41q42 syndrome mainly extend into the 1q41 region with a region of overlap including the DISP1 gene involved in the SHH pathway, which is not part of the 1q42 deletion in our patient. We suggest that an interaction of genes involved in pathways of embryonic development rather than haploinsufficiency of single genes in the so-called critical regions is causing complex malformation syndromes due to cytogenetic microaberrations in the 1q4 region.

Familial 14.5 Mb interstitial deletion 13q21.1-13q21.33: clinical and array-CGH study of a benign phenotype in a three-generation family.

We report on the clinical and cytogenetic findings as well as the array-based characterization of an interstitial familial 13q21 deletion initially recognized by standard karyotyping. Although 13q deletions are known to imply a wide variability of clinical consequences, the deletion carriers of the familial deletion in three generations did not reveal a relevant phenotype. The breakpoints and the deletion size in all three carrier individuals were determined by molecular karyotyping confirming a large 14.5 Mb deletion encompassing the 13q21.1-13q21.33 region identical in all three carriers. Gene paucity and the lack of dosage-sensitive genes in the delineated region might explain the apparently innocuous nature of this chromosomal anomaly. The example of this family presents evidence for describing the chromosomal region 13q21.1-13q21.33 as a large euchromatic variant or benign copy number variation without phenotypic consequences. Our data underline the importance of a phenogenetic approach combining clinical and laboratory evidence in the interpretation of segmental chromosomal anomalies especially in genetic counseling related to prenatal diagnosis.

A de novo PABPN1 germline mutation in a patient with oculopharyngeal muscular dystrophy.

BACKGROUND: Oculopharyngeal muscular dystrophy (OPMD) is a late-onset autosomal dominantly inherited disorder characterized by dysphagia, ptosis, and proximal limb weakness and is caused by germline mutations (triplet repeat expansions) in the polyadenylate binding protein nuclear 1 (PABPN1) gene. OBJECTIVE: To describe a 70-year-old female patient with OPMD on the clinical and molecular genetic level and to develop a rapid and efficient molecular genetic screening method to study large patient groups. METHODS: Detailed family history and clinical assessment of the OPMD patient were followed by mutation analysis of the PABPN1 gene by direct DNA sequencing and by our newly developed method, fluorescent PABPN1 polymerase chain reaction (PCR) product (flPPP) method. A cohort of 50 healthy Swiss probands was screened using the flPPP to assess the frequency of the (GCG)7 allele in the Swiss population. Cricopharyngeal myotomy was performed as treatment for dysphagia. RESULTS: A heterozygous (GCG)9 triplet repeat expansion in PABPN1 was identified. Since the family history proved to be negative, the mutation is likely to have occurred de novo. The frequency of the (GCG)7 allele among healthy Swiss controls amounted to 1%. The flPPP method showed a sensitivity and specificity of 100%. Two years after cricopharyngeal myotomy, the patient is still relieved of dysphagia. CONCLUSIONS: An otolaryngologist should include OPMD in the differential diagnosis of a patient presenting with dysphagia, as this symptom can be the first sign of the disease and family history can be negative. Molecular genetic testing represents a highly accurate and rapid way to confirm the clinical diagnosis of OPMD. Cricopharyngeal myotomy relieves the patient of dysphagia in the majority of cases.