Editing of ADA2 Point Mutation in Human Hematopoietic Stem Cells

  1. Pavel Kopcil
  2. Carolina W. Ervik
  3. Ganna Reint
  4. Katariina Mamia
  5. Monika Szymanska
  6. Shiva Dahal-Koirala
  7. Jacob Conradi
  8. Sigrid Fu Skjelbostad
  9. Oda A. Dønåsen
  10. Xiaojun Jiang
  11. Cecilia Fahlquist-Hagert
  12. Oddrun Kristiansen
  13. Trond M. Michelsen
  14. Espen Melum
  15. Rasmus O. Bak
  16. Anna Komisarczuk
  17. Emma Haapaniemi
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Abstract

Background

The homozygous ADA2 : c.506G>A (p.Arg169Gln; p.R169Q) variant accounts for majority of Deficiency in Adenosine Deaminase 2 (DADA2). This monogenic disorder may be amenable to ex vivo gene therapy by correcting the pathogenic mutation in CD34+ hematopoietic stem and progenitor cells (HSPCs).

Objective

To apply CRISPR-Cas9 and homology-directed repair (HDR) as a surrogate strategy to model correction of the pathogenic ADA2 c.506G>A variant in healthy cord blood HSPCs.

Methods

HSPCs were electroporated with optimised CRISPR-Cas9 editing reagents, and editing outcomes, including HDR and on-target deletions, were quantified by ddPCR. Cell functionality was assessed through colony-forming unit (CFU) assays and by xenotransplantation into NOD SCID Gamma (NSG) mice. Two HDR enhancement strategies were tested: (1) genetic inhibitors of p53 and non-homologous end joining (NHEJ) pathways, and (2) pharmacological NHEJ inhibition.

Results

Small-molecule NHEJ inhibitors increased HDR efficiency approximately two-fold (from ∼40 % to ∼80 %). Edited HSPCs retained normal CFU capacity and successfully engrafted in NSG mice. However, up to 8 % of edited cells exhibited on-target chromosome loss, though this declined over time. Up to 40 % of T cells and fibroblasts demonstrated similar losses under NHEJ inhibitors treatment. In contrast, genetically encoded inhibitors did not improve HDR.

Conclusion

The ADA2 p. c.506G>A variant can be effectively edited employing surrogate strategy in HSPCs without impairing functionality. Although pharmacological inhibition of NHEJ enhances HDR efficiency, it also increases the risk of on-target chromosome aberrations, highlighting the need for careful consideration of the associated risks and benefits in therapeutic gene editing.

Key messages

  • 1)

    The ADA2 p.R169Q variant can be efficiently corrected via HDR, and the edited CD34+ HSPCs retain their engraftment capability in NSG mice.

  • 2)

    Pharmacological inhibition of NHEJ using small-molecule inhibitors increases HDR efficiency but is associated with significant on-target deletions and chromosomal arm loss, particularly in differentiated cell types, and in a donor-dependent manner.

    • Capsule summary

    The ADA2 p.R169Q variant is a viable target for precision gene editing in hematopoietic stem cells. Although inhibition of NHEJ improves HDR efficiency, it concomitantly increases the risk of large on-target deletions, particularly in differentiated cells.

    Article activity feed

    1. Version published to 10.1101/2025.08.14.670303 on bioRxiv