Molecular Therapy: Methods & Clinical Development (Mar 2024)

Whole-body galactose oxidation as a robust functional assay to assess the efficacy of gene-based therapies in a mouse model of Galactosemia

  • Bijina Balakrishnan,
  • Xinhua Yan,
  • Marshall D. McCue,
  • Olivia Bellagamba,
  • Aaron Guo,
  • Felicity Winkler,
  • Jason Thall,
  • Lisa Crawford,
  • Rain Dimen,
  • Sara Chen,
  • Sean McEnaney,
  • Yiman Wu,
  • Mike Zimmer,
  • Joe Sarkis,
  • Paolo G.V. Martini,
  • Patrick F. Finn,
  • Kent Lai

Journal volume & issue
Vol. 32, no. 1
p. 101191

Abstract

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Despite the implementation of lifesaving newborn screening programs and a galactose-restricted diet, many patients with classic galactosemia develop long-term debilitating neurological deficits and primary ovarian insufficiency. Previously, we showed that the administration of human GALT mRNA predominantly expressed in the GalT gene-trapped mouse liver augmented the expression of hepatic GALT activity, which decreased not only galactose-1 phosphate (gal-1P) in the liver but also peripheral tissues. Since each peripheral tissue requires distinct methods to examine the biomarker and/or GALT effect, this highlights the necessity for alternative strategies to evaluate the overall impact of therapies. In this study, we established that whole-body galactose oxidation (WBGO) as a robust, noninvasive, and specific method to assess the in vivo pharmacokinetic and pharmacodynamic parameters of two experimental gene-based therapies that aimed to restore GALT activity in a mouse model of galactosemia. Although our results illustrated the long-lasting efficacy of AAVrh10-mediated GALT gene transfer, we found that GALT mRNA therapy that targets the liver predominantly is sufficient to sustain WBGO. The latter could have important implications in the design of novel targeted therapy to ensure optimal efficacy and safety.

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