Liver biopsy confirms precise and efficient correction of SERPINA1 after in vivo Base Editing in a Patient with Alpha-1 Antitrypsin Deficiency

  1. Simon Alexander Krooss
  2. Taihua Yang
  3. Qinggong Yuan
  4. Nora Drick
  5. Malte Sgodda
  6. Julia Held
  7. Patrick Behrendt
  8. Björn Hartleben
  9. Rembert Koczulla
  10. Xiaoying Ma
  11. Ying Liu
  12. Heiner Wedemeyer
  13. Sabina Janciauskiene
  14. Nataliya Di Donato
  15. Tobias Cantz
  16. ZiJun Wang
  17. Yuxuan Wu
  18. Marius Hoeper
  19. Qiang Xia
  20. Michael Ott
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Abstract

Background

Alpha-1 antitrypsin deficiency (AATD) caused by the PI*ZZ mutation (Glu342Lys) results in hepatic accumulation of misfolded AAT-Z protein and reduced circulating AAT levels, leading to progressive liver disease and emphysema. Gene correction therapy represents a potentially curative approach by directly correcting the underlying genetic defect. We report the first case of successful hepatic gene correction with early histological and functional assessment.

Methods/Case presentation

We report the case of a 66-year-old male patient with PI*ZZ AATD who underwent gene correction therapy within the YOLT-202 phase I/Ia clinical trial ( clinicaltrial.gov ID NCT07193615 ). Ten weeks post treatment a liver biopsy was performed to re-evaluate pre-existing F2 liver fibrosis as measured by elastography before entering the study. Serum samples allowed functional assessment of the AAT-mediated elastase inhibition.

Results

Liver biopsy did not show signs of hepatic inflammation and demonstrated 54% (Sanger) and 57% (Illumina) gene correction rate of the PI*ZZ variant on the DNA level with no bystander edits or off-target effects. Following a transient elevation of transaminases during the early post-treatment period, liver enzymes normalized. Monthly serum AAT measurements demonstrated biologically active and stable therapeutic levels throughout follow-up.

Conclusions

This case demonstrates efficient and precise hepatic gene correction without concerning histological alterations and with substantial improvement of functional parameters, supporting the feasibility and safety of gene editing approaches for AATD.

One-sentence summary

Liver biopsy after PI*ZZ gene correction therapy reveals efficient and accurate base editing.

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  1. Version published to 10.64898/2026.06.01.26354551 on medRxiv