Wolfram syndrome is a rare autosomal recessive genetic disorder with clinical signs apparent in early childhood. This condition is characterized by childhood-onset diabetes, optic nerve atrophy, deafness, diabetes insipidus, and neurodegeneration, and it results in death in middle adulthood (1-3). Genetic and experimental evidence strongly suggest that endoplasmic reticulum (ER) dysfunction is a critical pathogenic component of Wolfram syndrome (4,5). However, there is a lack of complete understanding of the pathways and biomarkers involved in the disease process due to the limitations of animal models that do not accurately reflect human patients. As a result, despite the underlying importance of ER dysfunction in Wolfram syndrome, there are currently no therapies that target the ER, a deficiency that points to the urgent need to develop a human cell model of this condition. In this issue, Shang et al. (6) report that this has been successfully accomplished.
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