Modeling Niemann–Pick disease type C in a human haploid cell line allows for patient variant characterization and clinical interpretation

S Erwood, RA Brewer, TMI Bily, E Maino… - Genome …, 2019 - genome.cshlp.org
Genome Research, 2019genome.cshlp.org
The accurate clinical interpretation of human sequence variation is foundational to
personalized medicine. This remains a pressing challenge, however, as genome
sequencing becomes routine and new functionally undefined variants rapidly accumulate.
Here, we describe a platform for the rapid generation, characterization, and interpretation of
genomic variants in haploid cells focusing on Niemann–Pick disease type C (NPC) as an
example. NPC is a fatal neurodegenerative disorder characterized by a lysosomal …
The accurate clinical interpretation of human sequence variation is foundational to personalized medicine. This remains a pressing challenge, however, as genome sequencing becomes routine and new functionally undefined variants rapidly accumulate. Here, we describe a platform for the rapid generation, characterization, and interpretation of genomic variants in haploid cells focusing on Niemann–Pick disease type C (NPC) as an example. NPC is a fatal neurodegenerative disorder characterized by a lysosomal accumulation of unesterified cholesterol and glycolipids. In 95% of cases, NPC is caused by mutations in the NPC1 gene, for which more than 200 unique disease-causing variants have been reported to date. Furthermore, the majority of patients with NPC are compound heterozygotes that often carry at least one private mutation, presenting a challenge for the characterization and classification of individual variants. Here, we have developed the first haploid cell model of NPC. This haploid cell model recapitulates the primary biochemical and molecular phenotypes typically found in patient-derived fibroblasts, illustrating its utility in modeling NPC. Additionally, we show the power of CRISPR/Cas9-mediated base editing in quickly and efficiently generating haploid cell models of individual patient variants in NPC. These models provide a platform for understanding the disease mechanisms underlying individual NPC1 variants while allowing for definitive clinical variant interpretation for NPC.
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