Expansion of the clinical and neuroimaging spectrum associated with NDUFS8‐related disorder
Milena M. Andzelm,
Shanti Balasubramaniam,
Edward Yang,
Alison G. Compton,
Kate Millington,
Jia Zhu,
Irina Anselm,
Lance H. Rodan,
David R. Thorburn,
John Christodoulou,
Siddharth Srivastava
Affiliations
Milena M. Andzelm
Department of Neurology Children's Hospital Boston Boston Massachusetts USA
Shanti Balasubramaniam
Western Sydney Genetics Program The Children's Hospital at Westmead Sydney New South Wales Australia
Edward Yang
Department of Radiology Children's Hospital Boston Boston Massachusetts USA
Alison G. Compton
Murdoch Children's Research Institute Melbourne Victoria Australia
Kate Millington
Division of Endocrinology, Department of Pediatrics Children's Hospital Boston Boston Massachusetts USA
Jia Zhu
Division of Endocrinology, Department of Pediatrics Children's Hospital Boston Boston Massachusetts USA
Irina Anselm
Department of Neurology Children's Hospital Boston Boston Massachusetts USA
Lance H. Rodan
Division of Genetics and Genomics, Manton Center for Orphan Disease Research, Department of Pediatrics Children's Hospital Boston Boston Massachusetts USA
David R. Thorburn
Murdoch Children's Research Institute Melbourne Victoria Australia
John Christodoulou
Murdoch Children's Research Institute Melbourne Victoria Australia
Siddharth Srivastava
Department of Neurology Children's Hospital Boston Boston Massachusetts USA
Abstract Biallelic pathogenic variants in NDUFS8, a nuclear gene encoding a subunit of mitochondrial complex I, result in a mitochondrial disorder characterized by varying clinical presentations and severity. Here, we expand the neuroimaging and clinical spectrum of NDUFS8‐related disorder. We present three cases from two unrelated families (a girl and two brothers) homozygous for a recurrent pathogenic NDUFS8 variant [c.460G>A, p.(Gly154Ser)], located in the [4Fe‐4S] domain of the protein. One of the patients developed auto‐antibody positive diabetic ketoacidosis. Brain MRIs performed in two of the three patients demonstrated diffuse cerebral and cerebellar white matter involvement including corticospinal tracts, but notably had sparing of deep gray matter structures. Our report expands the neuroimaging phenotype of NDUFS8‐related disorder to include progressive leukodystrophy with increasing brainstem and cerebellar involvement, with relative sparing of the basal ganglia. In addition, we describe autoimmune diabetes in association with NDUFS8‐related disorder, though the exact mechanism of this association is unclear. This paper provides a comprehensive review of case presentation and progressive neuroimaging findings of three patients from two unrelated families that have an identical pathogenic NDUFS8 variant, which expands the clinical spectrum of NDUFS8‐associated neurological disease.
