4.6 Article

Recapture Lysosomal Enzyme Deficiency via Targeted Gene Disruption in the Human Near-Haploid Cell Line HAP1

期刊

GENES
卷 12, 期 7, 页码 -

出版社

MDPI
DOI: 10.3390/genes12071076

关键词

beta-glucocerebrosidase; Gaucher disease; lysosomal storage disorder; disease model; CRISPR-Cas9

资金

  1. School of Engineering at Santa Clara University
  2. National Institute of General Medical Sciences of the National Institute of Health [R15GM137449]

向作者/读者索取更多资源

Targeted gene disruption in human HAP1 cells using CRISPR-Cas9 technology allowed rapid establishment of the Gaucher disease model, demonstrating key pathological features and potential for evaluating replacement therapies. This approach may be applicable for generating disease models of other LSDs and testing specific treatments.
Background: Advancement in genome engineering enables rapid and targeted disruption of any coding sequences to study gene functions or establish human disease models. We explored whether this approach can be used to study Gaucher disease, one of the most common types of lysosomal storage diseases (LSDs) in a near-haploid human cell line (HAP1). Results: CRISPR-Cas9 targeting to coding sequences of beta-glucocerebrosidase (GBA), the causative gene of Gaucher disease, resulted in an insertional mutation and premature termination of GBA. We confirmed the GBA knockout at both the gene and enzyme levels by genotyping and GBA enzymatic assay. Characterization of the knockout line showed no significant changes in cell morphology and growth. Lysosomal staining revealed more granular lysosomes in the cytosol of the GBA-knockout line compared to its parental control. Flow cytometry analysis further confirmed that more lysosomes accumulated in the cytosol of the knockout line, recapturing the disease phenotype. Finally, we showed that this knockout cell line could be used to evaluate a replacement therapy by recombinant human GBA. Conclusions: Targeted gene disruption in human HAP1 cells enables rapid establishment of the Gaucher model to capture the key pathology and to test replacement therapy. We expect that this streamlined method can be used to generate human disease models of other LSDs, most of which are still lacking both appropriate human disease models and specific treatments to date.

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