AAV capsid prioritization in normal and steatotic human livers maintained by machine perfusion

Jae Jun Kim; Simone N.T. Kurial; Pervinder K. Choksi; Miguel Nunez; Tyler Lunow-Luke; Jan Bartel; Julia Driscoll; Chris L. Her; Simaron Dhillon; William Yue; Abhishek Murti; Tin Mao; Julian N. Ramos; Amita Tiyaboonchai; Markus Grompe; Aras N. Mattis; Shareef M. Syed; Bruce M. Wang; Jacquelyn J. Maher; Garrett R. Roll; Holger Willenbring

doi:10.1038/s41587-024-02523-6

AAV capsid prioritization in normal and steatotic human livers maintained by machine perfusion

Jae Jun Kim, Simone N.T. Kurial, Pervinder K. Choksi, Miguel Nunez, Tyler Lunow-Luke, Jan Bartel, Julia Driscoll, Chris L. Her, Simaron Dhillon, William Yue, Abhishek Murti, Tin Mao, Julian N. Ramos, Amita Tiyaboonchai, Markus Grompe, Aras N. Mattis, Shareef M. Syed, Bruce M. Wang, Jacquelyn J. Maher, Garrett R. RollHolger Willenbring

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Therapeutic efficacy and safety of adeno-associated virus (AAV) liver gene therapy depend on capsid choice. To predict AAV capsid performance under near-clinical conditions, we established side-by-side comparison at single-cell resolution in human livers maintained by normothermic machine perfusion. AAV-LK03 transduced hepatocytes much more efficiently and specifically than AAV5, AAV8 and AAV6, which are most commonly used clinically, and AAV-NP59, which is better at transducing human hepatocytes engrafted in immune-deficient mice. AAV-LK03 preferentially transduced periportal hepatocytes in normal liver, whereas AAV5 targeted pericentral hepatocytes in steatotic liver. AAV5 and AAV8 transduced liver sinusoidal endothelial cells as efficiently as hepatocytes. AAV capsid and steatosis influenced vector episome formation, which determines gene therapy durability, with AAV5 delaying concatemerization. Our findings inform capsid choice in clinical AAV liver gene therapy, including consideration of disease-relevant hepatocyte zonation and effects of steatosis, and facilitate the development of AAV capsids that transduce hepatocytes or other therapeutically relevant cell types in the human liver with maximum efficiency and specificity.

Original language	English (US)
Article number	2939
Journal	Nature biotechnology
DOIs	https://doi.org/10.1038/s41587-024-02523-6
State	Accepted/In press - 2025

ASJC Scopus subject areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology
Molecular Medicine
Biomedical Engineering

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Kim, J. J., Kurial, S. N. T., Choksi, P. K., Nunez, M., Lunow-Luke, T., Bartel, J., Driscoll, J., Her, C. L., Dhillon, S., Yue, W., Murti, A., Mao, T., Ramos, J. N., Tiyaboonchai, A., Grompe, M., Mattis, A. N., Syed, S. M., Wang, B. M., Maher, J. J., ... Willenbring, H. (Accepted/In press). AAV capsid prioritization in normal and steatotic human livers maintained by machine perfusion. Nature biotechnology, Article 2939. https://doi.org/10.1038/s41587-024-02523-6

Kim, JJ, Kurial, SNT, Choksi, PK, Nunez, M, Lunow-Luke, T, Bartel, J, Driscoll, J, Her, CL, Dhillon, S, Yue, W, Murti, A, Mao, T, Ramos, JN, Tiyaboonchai, A , Grompe, M, Mattis, AN, Syed, SM, Wang, BM, Maher, JJ, Roll, GR & Willenbring, H 2025, 'AAV capsid prioritization in normal and steatotic human livers maintained by machine perfusion', Nature biotechnology. https://doi.org/10.1038/s41587-024-02523-6

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abstract = "Therapeutic efficacy and safety of adeno-associated virus (AAV) liver gene therapy depend on capsid choice. To predict AAV capsid performance under near-clinical conditions, we established side-by-side comparison at single-cell resolution in human livers maintained by normothermic machine perfusion. AAV-LK03 transduced hepatocytes much more efficiently and specifically than AAV5, AAV8 and AAV6, which are most commonly used clinically, and AAV-NP59, which is better at transducing human hepatocytes engrafted in immune-deficient mice. AAV-LK03 preferentially transduced periportal hepatocytes in normal liver, whereas AAV5 targeted pericentral hepatocytes in steatotic liver. AAV5 and AAV8 transduced liver sinusoidal endothelial cells as efficiently as hepatocytes. AAV capsid and steatosis influenced vector episome formation, which determines gene therapy durability, with AAV5 delaying concatemerization. Our findings inform capsid choice in clinical AAV liver gene therapy, including consideration of disease-relevant hepatocyte zonation and effects of steatosis, and facilitate the development of AAV capsids that transduce hepatocytes or other therapeutically relevant cell types in the human liver with maximum efficiency and specificity.",

author = "Kim, \{Jae Jun\} and Kurial, \{Simone N.T.\} and Choksi, \{Pervinder K.\} and Miguel Nunez and Tyler Lunow-Luke and Jan Bartel and Julia Driscoll and Her, \{Chris L.\} and Simaron Dhillon and William Yue and Abhishek Murti and Tin Mao and Ramos, \{Julian N.\} and Amita Tiyaboonchai and Markus Grompe and Mattis, \{Aras N.\} and Syed, \{Shareef M.\} and Wang, \{Bruce M.\} and Maher, \{Jacquelyn J.\} and Roll, \{Garrett R.\} and Holger Willenbring",

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doi = "10.1038/s41587-024-02523-6",

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AU - Kim, Jae Jun

AU - Kurial, Simone N.T.

AU - Choksi, Pervinder K.

AU - Nunez, Miguel

AU - Lunow-Luke, Tyler

AU - Bartel, Jan

AU - Driscoll, Julia

AU - Her, Chris L.

AU - Dhillon, Simaron

AU - Yue, William

AU - Murti, Abhishek

AU - Mao, Tin

AU - Ramos, Julian N.

AU - Tiyaboonchai, Amita

AU - Grompe, Markus

AU - Mattis, Aras N.

AU - Syed, Shareef M.

AU - Wang, Bruce M.

AU - Maher, Jacquelyn J.

AU - Roll, Garrett R.

AU - Willenbring, Holger

PY - 2025

Y1 - 2025

N2 - Therapeutic efficacy and safety of adeno-associated virus (AAV) liver gene therapy depend on capsid choice. To predict AAV capsid performance under near-clinical conditions, we established side-by-side comparison at single-cell resolution in human livers maintained by normothermic machine perfusion. AAV-LK03 transduced hepatocytes much more efficiently and specifically than AAV5, AAV8 and AAV6, which are most commonly used clinically, and AAV-NP59, which is better at transducing human hepatocytes engrafted in immune-deficient mice. AAV-LK03 preferentially transduced periportal hepatocytes in normal liver, whereas AAV5 targeted pericentral hepatocytes in steatotic liver. AAV5 and AAV8 transduced liver sinusoidal endothelial cells as efficiently as hepatocytes. AAV capsid and steatosis influenced vector episome formation, which determines gene therapy durability, with AAV5 delaying concatemerization. Our findings inform capsid choice in clinical AAV liver gene therapy, including consideration of disease-relevant hepatocyte zonation and effects of steatosis, and facilitate the development of AAV capsids that transduce hepatocytes or other therapeutically relevant cell types in the human liver with maximum efficiency and specificity.

AB - Therapeutic efficacy and safety of adeno-associated virus (AAV) liver gene therapy depend on capsid choice. To predict AAV capsid performance under near-clinical conditions, we established side-by-side comparison at single-cell resolution in human livers maintained by normothermic machine perfusion. AAV-LK03 transduced hepatocytes much more efficiently and specifically than AAV5, AAV8 and AAV6, which are most commonly used clinically, and AAV-NP59, which is better at transducing human hepatocytes engrafted in immune-deficient mice. AAV-LK03 preferentially transduced periportal hepatocytes in normal liver, whereas AAV5 targeted pericentral hepatocytes in steatotic liver. AAV5 and AAV8 transduced liver sinusoidal endothelial cells as efficiently as hepatocytes. AAV capsid and steatosis influenced vector episome formation, which determines gene therapy durability, with AAV5 delaying concatemerization. Our findings inform capsid choice in clinical AAV liver gene therapy, including consideration of disease-relevant hepatocyte zonation and effects of steatosis, and facilitate the development of AAV capsids that transduce hepatocytes or other therapeutically relevant cell types in the human liver with maximum efficiency and specificity.

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AAV capsid prioritization in normal and steatotic human livers maintained by machine perfusion

Abstract

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