Molecular Therapy: Methods & Clinical Development (Dec 2023)

Predicted deleterious variants in the human genome relevant to gene therapy with adeno-associated virus vectors

  • Mahboubeh R. Rostami,
  • Philip L. Leopold,
  • Jenifer M. Vasquez,
  • Miguel de Mulder Rougvie,
  • Alya Al Shakaki,
  • Ali Ait Hssain,
  • Amal Robay,
  • Neil R. Hackett,
  • Jason G. Mezey,
  • Ronald G. Crystal

Journal volume & issue
Vol. 31
p. 101136

Abstract

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Based on the observation that humans have variable responses of gene expression with the same dose of an adeno-associated vector, we hypothesized that there are deleterious variants in genes coding for processes required for adeno-associated virus (AAV)-mediated gene transfer/expression that may hamper or enhance the effectiveness of AAV-mediated gene therapy. To assess this hypothesis, we evaluated 69,442 whole genome sequences from three populations (European, African/African American, and Qatari) for predicted deleterious variants in 62 genes known to play a role in AAV-mediated gene transfer/expression. The analysis identified 5,564 potentially deleterious mutations of which 27 were classified as common based on an allele frequency ≥1% in at least one population studied. Many of these deleterious variants are predicated to prevent while others enhance effective AAV gene transfer/expression, and several are linked to known hereditary disorders. The data support the hypothesis that, like other drugs, human genetic variability contributes to the person-to-person effectiveness of AAV gene therapy and the screening for genetic variability should be considered as part of future clinical trials.

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