Mutations in BRAT1, encoding BRCA1-associated ATM
activator 1, are associated with a severe phenotype known as rigidity and
multifocal seizure syndrome, lethal neonatal (RMFSL; OMIM # 614498),
characterized by intractable seizures, hypertonia, autonomic instability, and
early death. We expand the phenotypic spectrum of BRAT1 related
disorders by reporting on four individuals with various BRAT1
mutations resulting in clinical severity that is either mild or moderate
compared to the severe phenotype seen in RMFSL. Representing mild severity are
three individuals (Patients 1–3), who are girls (including two sisters,
Patients 1–2) between 4–10 years old, with subtle dysmorphisms,
intellectual disability, ataxia or dyspraxia, and cerebellar atrophy on brain
MRI; additionally, Patient 3 has well-controlled epilepsy and microcephaly.
Representing moderate severity is a 15 month old boy (Patient 4) with severe
global developmental delay, refractory epilepsy, microcephaly, spasticity,
hyperkinetic movements, dysautonomia, and chronic lung disease. In contrast to
RMFSL, his seizure onset occurred later at 4 months of age, and he is still
alive. All four of the individuals have compound heterozygous
BRAT1 mutations discovered via whole exome sequencing:
c.638dupA (p.Val214Glyfs*189); c.803+1G>C (splice site
mutation) in Patients 1–2; c.638dupA (p.Val214Glyfs*189);
c.419T>C (p.Leu140Pro) in Patient 3; and c.171delG (p.Glu57Aspfs*7);
c.419T>C (p.Leu140Pro) in Patient 4. Only the c.638dupA
(p.Val214Glyfs*189) mutation has been previously reported in association
with RMFSL. These patients illustrate that, compared with RMFSL,
BRAT1 mutations can result in both moderately severe
presentations evident by later-onset epilepsy and survival past infancy, as well
as milder presentations that include intellectual disability, ataxia/dyspraxia,
and cerebellar atrophy.
