A Novel Pathogenic Variant Identified in HIKESHI-Related Hypomyelinating Leukodystrophy Disrupts Heat Shock Response in iPSCs.

HIKESHI-related hypomyelinating leukodystrophy (HHL) is a life-threatening disorder caused by homozygous pathogenic variants in . Symptoms include infantile onset progressive spastic dystonic quadriplegia, nystagmus, failure to thrive, diffused hypomyelination, and severe morbidity or death following febrile illness. V54L variants in are particularly prevalent within the Ashkenazi Jewish population. Here, we identified a novel P78S disease-causing variant in in a patient of Christian Arab origin, presenting with clinical and radiologic features characteristic of HHL. In silico analysis suggests that the mutated residue may affect the HIKESHI protein's dimerization domain. We generated a comprehensive set of induced pluripotent stem cells (iPSCs) from the index case and two additional HHL patients. To investigate mechanisms potentially linked to febrile illness in HHL, we used these cells to study the heat shock (HS) response. HHL-iPSCs showed dramatically decreased levels of HIKESHI compared with healthy controls following HS. In addition, they exhibited increased mRNA levels in response to HS, suggesting an increased sensitivity. HHL-iPSCs had impaired HSP70 translocation to the nucleus. Our results provide a human-relevant model for HHL.