Biallelic ZNF335 mutations cause basal ganglia abnormality with progressive cerebral/cerebellar atrophy.

To date, less than 10 pedigrees have been reported with ZNF335 mutations since it was discovered in 2012 and little is known about ZNF335-related clinical spectrum. We describe a 12 years old male patient who is only child of nonconsanguineous Turkish parents. Trio whole genome sequencing identified previously unreported compound heterozygous variants in ZNF335, namely, c.3889T > A p.(Ser1297Thr) and c.758G > A p.(Arg253Gln) where transmitted by his father and mother, respectively. Patient' magnetic resonance imaging findings were overlapping to those observed in the previous cases with ZNF335 mutations. Here we report the oldest patient with biallelic ZNF335 mutations. We recommend screening for ZNF335 defects in patients with basal ganglia anomaly, secondary white matter abnormalities and microcephaly.

Evaluation of hereditary/familial breast cancer patients with multigene targeted next generation sequencing panel and MLPA analysis in Turkey.

Breast cancer, a worldwide leading cause of cancer in women, may occur in familial cases. Germline mutations in BRCA1/2 genes are responsible for 15% of the familial cases. With the power of next generation sequencing (NGS) analysis, it is possible to analyze genes related to hereditary susceptibility to breast cancer and investigate the genetic etiology more thoroughly. In this study, we investigated 30 genes identified frequent pathogenic alleles in Turkish population. The study includes 495 unrelated individuals diagnosed with breast cancer who are selected for genetic testing according to NCCN criteria for hereditary breast cancer. All patients were analyzed by NGS for BRCA1/2 genes. Deletion/duplication investigation by Multiplex ligation-dependent probe amplification (MLPA) and massive sequencing of 30 breast cancer-related genes (Oncorisk Gene Panel) were performed in a stepwise manner. BRCA1/2 variants are the most frequent pathogenic variants which are found in 45 of 495 (9.1%) patients. Four previously unreported, novel, pathogenic variants of BRCA2 gene are identified. In four cases, exonic deletions of BRCA1/2 genes are determined and there is no duplication of these genes. NGS panel investigation involving other moderate-high risk genes contributed genetic diagnosis in an extra 39 out of 419 (9.3%) cases. Our study presents the cost effectiveness of the gene panel approach. We suggest that gene panels should be the first-tier genetic testing for hereditary breast cancer and MLPA analysis of BRCA1/2 genes should be investigated as a complementary method of NGS analysis.