Report of a young patient with brain calcifications with a novel homozygous MYORG variant.

Primary familial brain calcifications (PFBC) is characterized by bilateral and symmetrical deposition of inorganic phosphate, mainly in the basal ganglia, thalamus, cerebellum, and dentate nucleus. The symptoms resemble other neuropsychiatric conditions, such as Parkinsonism, dementia, migraine, and mood disorders. Pathogenic variants in six genes have been associated with this disorder, four linked to the autosomal dominant mode (SLC20A2, PDGFRB, PDGFB, and XPR1) and two linked to the recessive fashion (MYORG and JAM2). Herein, we report a young 24-year-old patient with a medical history of bilateral and symmetrical brain calcification and neuropsychiatric symptoms that include movement disturbances (chorea and dystonia), chronic migraine, unexplained tinnitus, and mood swings. After whole-exome sequencing, she was diagnosed with a novel homozygous MYORG variant (c.912_914del; p.(Ser305del)). In silico analysis showed that the variant is located on the extracellular domain of MYORG protein and is predicted to be disease-causing (likely pathogenic), implying that protein features might be affected. This study describes the second Brazilian case of MYORG PFBC-causative gene. Furthermore, it highlights the early age and onset of symptoms of the proband, especially in regard to movement disorders.

Evaluation of oxidative stress-related genetic variants for predicting stroke in patients with sickle cell anemia.

Overt stroke in adults with sickle cell anemia (SCA) continues to be a major cause of morbidity and mortality, while no evidence-based strategy for prevention has been reached so far. Although transcranial Doppler ultrasonography represents the most important tool for identifying young patients with SCA at risk of primary stroke, strategies for stroke prediction in adulthood remain challenging. Emerging data suggest that oxidative stress may exert a pivotal role in the pathogenesis of ischemic brain injury. Combining these pieces of evidences with the well-known genetic contribution to the development of stroke in SCA, we hypothesized that genetic variants related to the biology of oxidative stress could be used to identify adult patients at higher risk of stroke. Overall, 499 unrelated patients with SCA aged >18 years were genotyped for SOD2 Val16Ala (rs4880), GPX3 T-568C (rs8177404), GPX3 T-518C (rs8177406), GPX3 T-65C (rs8177412), and CAT01 C-262 T (rs1001179) polymorphisms, along with α-thalassemia status and ß-globin gene haplotypes. Of these, only the SOD2 Val16Ala polymorphism was associated with stroke. SOD2 Val16Ala polymorphism was independently associated with risk of stroke (odds ratio: 1.98; 95% confidence interval [CI]: 1.18-3.32; P = .009) and with the long-term cumulative incidence of stroke (hazard ratio: 2.24, 95% CI: 1.3-3.9; P = .004). In summary, we provide evidence that oxidative stress-related genetic variants, in particular, the SOD2 Val16Ala polymorphism, may represent a simple and inexpensive alternative for identifying patients at risk of stroke.

Expansion of the Primrose syndrome phenotype through the comparative analysis of two new case reports with ZBTB20 variants.

Primrose syndrome (PRIMS), a rare genetic disorder with several clinical findings including intellectual disability, macrocephaly, typical facial features, and muscle wasting, is caused by heterozygous variants in the ZBTB20 gene. We report the cases of two males diagnosed with PRIMS at different ages, emphasizing the likely progressive nature of the disorder, as well as the differences and similarities of presentation during infancy and adulthood. Patient 1 is a 2-year-old American male with a medical history marked by impaired hearing, developmental delays, and fainting spells. Patient 2 is a 28-year-old Brazilian male, who presents with a phenotype similar to that seen in Patient 1 with additional features of ectopic calcifications and prominent muscular and skeletal abnormalities. Additionally, Patient 2 has a history of fainting spells and diminished body height and weight, with the latter features having only been reported in one PRIMS patient so far. Both Patients 1 and 2 were found to carry heterozygous likely pathogenic missense variants, detected in the last coding exon of ZBTB20 (c.1822T>C, p.Cys608Arg, de novo, and c.1873A>G, p.Met625Val, respectively), consistent with PRIMS. Overall, these case reports highlight PRIMS's likely progressive nature and contribute to the understanding of the natural history of this condition.