Editing T cell specificity towards leukemia by zinc finger nucleases and lentiviral gene transfer

Elena Provasi; Pietro Genovese; Angelo Lombardo; Zulma Magnani; Pei Qi Liu; Andreas Reik; Victoria Chu; David E. Paschon; Lei Zhang; Jurgen Kuball; Barbara Camisa; Attilio Bondanza; Giulia Casorati; Maurilio Ponzoni; Fabio Ciceri; Claudio Bordignon; Philip D. Greenberg; Michael C. Holmes; Philip D. Gregory; Luigi Naldini; Chiara Bonini

doi:10.1038/nm.2700

Editing T cell specificity towards leukemia by zinc finger nucleases and lentiviral gene transfer

Elena Provasi, Pietro Genovese, Angelo Lombardo, Zulma Magnani, Pei Qi Liu, Andreas Reik, Victoria Chu, David E. Paschon, Lei Zhang, Jurgen Kuball, Barbara Camisa, Attilio Bondanza, Giulia Casorati, Maurilio Ponzoni, Fabio Ciceri, Claudio Bordignon, Philip D. Greenberg, Michael C. Holmes, Philip D. Gregory, Luigi NaldiniChiara Bonini

IRCCS Ospedale San Raffaele

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

Abstract

The transfer of high-avidity T cell receptor (TCR) genes isolated from rare tumor-specific lymphocytes into polyclonal T cells is an attractive cancer immunotherapy strategy. However, TCR gene transfer results in competition for surface expression and inappropriate pairing between the exogenous and endogenous TCR chains, resulting in suboptimal activity and potentially harmful unpredicted antigen specificities of the resultant TCRs. We designed zinc-finger nucleases (ZFNs) that promoted the disruption of endogenous TCR β-and Î ±-chain genes. Lymphocytes treated with ZFNs lacked surface expression of CD3-TCR and expanded with the addition of interleukin-7 (IL-7) and IL-15. After lentiviral transfer of a TCR specific for the Wilms tumor 1 (WT1) antigen, these TCR-edited cells expressed the new TCR at high levels, were easily expanded to near purity and were superior at specific antigen recognition compared to donor-matched, unedited TCR-transferred cells. In contrast to unedited TCR-transferred cells, the TCR-edited lymphocytes did not mediate off-target reactivity while maintaining their anti-tumor activity in vivo, thus showing that complete editing of T cell specificity generates tumor-specific lymphocytes with improved biosafety profiles.

Original language	English
Pages (from-to)	807-815
Number of pages	9
Journal	Nature Medicine
Volume	18
Issue number	5
DOIs	https://doi.org/10.1038/nm.2700
Publication status	Published - May 2012

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)
Medicine(all)

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Provasi, E., Genovese, P., Lombardo, A., Magnani, Z., Liu, P. Q., Reik, A., Chu, V., Paschon, D. E., Zhang, L., Kuball, J., Camisa, B., Bondanza, A., Casorati, G., Ponzoni, M., Ciceri, F., Bordignon, C., Greenberg, P. D., Holmes, M. C., Gregory, P. D., ... Bonini, C. (2012). Editing T cell specificity towards leukemia by zinc finger nucleases and lentiviral gene transfer. Nature Medicine, 18(5), 807-815. https://doi.org/10.1038/nm.2700

Provasi, E, Genovese, P, Lombardo, A, Magnani, Z, Liu, PQ, Reik, A, Chu, V, Paschon, DE, Zhang, L, Kuball, J, Camisa, B, Bondanza, A, Casorati, G , Ponzoni, M, Ciceri, F, Bordignon, C, Greenberg, PD, Holmes, MC, Gregory, PD, Naldini, L & Bonini, C 2012, 'Editing T cell specificity towards leukemia by zinc finger nucleases and lentiviral gene transfer', Nature Medicine, vol. 18, no. 5, pp. 807-815. https://doi.org/10.1038/nm.2700

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title = "Editing T cell specificity towards leukemia by zinc finger nucleases and lentiviral gene transfer",

abstract = "The transfer of high-avidity T cell receptor (TCR) genes isolated from rare tumor-specific lymphocytes into polyclonal T cells is an attractive cancer immunotherapy strategy. However, TCR gene transfer results in competition for surface expression and inappropriate pairing between the exogenous and endogenous TCR chains, resulting in suboptimal activity and potentially harmful unpredicted antigen specificities of the resultant TCRs. We designed zinc-finger nucleases (ZFNs) that promoted the disruption of endogenous TCR β-and {\^I} ±-chain genes. Lymphocytes treated with ZFNs lacked surface expression of CD3-TCR and expanded with the addition of interleukin-7 (IL-7) and IL-15. After lentiviral transfer of a TCR specific for the Wilms tumor 1 (WT1) antigen, these TCR-edited cells expressed the new TCR at high levels, were easily expanded to near purity and were superior at specific antigen recognition compared to donor-matched, unedited TCR-transferred cells. In contrast to unedited TCR-transferred cells, the TCR-edited lymphocytes did not mediate off-target reactivity while maintaining their anti-tumor activity in vivo, thus showing that complete editing of T cell specificity generates tumor-specific lymphocytes with improved biosafety profiles.",

author = "Elena Provasi and Pietro Genovese and Angelo Lombardo and Zulma Magnani and Liu, {Pei Qi} and Andreas Reik and Victoria Chu and Paschon, {David E.} and Lei Zhang and Jurgen Kuball and Barbara Camisa and Attilio Bondanza and Giulia Casorati and Maurilio Ponzoni and Fabio Ciceri and Claudio Bordignon and Greenberg, {Philip D.} and Holmes, {Michael C.} and Gregory, {Philip D.} and Luigi Naldini and Chiara Bonini",

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AU - Genovese, Pietro

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AU - Magnani, Zulma

AU - Liu, Pei Qi

AU - Reik, Andreas

AU - Chu, Victoria

AU - Paschon, David E.

AU - Zhang, Lei

AU - Kuball, Jurgen

AU - Camisa, Barbara

AU - Bondanza, Attilio

AU - Casorati, Giulia

AU - Ponzoni, Maurilio

AU - Ciceri, Fabio

AU - Bordignon, Claudio

AU - Greenberg, Philip D.

AU - Holmes, Michael C.

AU - Gregory, Philip D.

AU - Naldini, Luigi

AU - Bonini, Chiara

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AB - The transfer of high-avidity T cell receptor (TCR) genes isolated from rare tumor-specific lymphocytes into polyclonal T cells is an attractive cancer immunotherapy strategy. However, TCR gene transfer results in competition for surface expression and inappropriate pairing between the exogenous and endogenous TCR chains, resulting in suboptimal activity and potentially harmful unpredicted antigen specificities of the resultant TCRs. We designed zinc-finger nucleases (ZFNs) that promoted the disruption of endogenous TCR β-and Î ±-chain genes. Lymphocytes treated with ZFNs lacked surface expression of CD3-TCR and expanded with the addition of interleukin-7 (IL-7) and IL-15. After lentiviral transfer of a TCR specific for the Wilms tumor 1 (WT1) antigen, these TCR-edited cells expressed the new TCR at high levels, were easily expanded to near purity and were superior at specific antigen recognition compared to donor-matched, unedited TCR-transferred cells. In contrast to unedited TCR-transferred cells, the TCR-edited lymphocytes did not mediate off-target reactivity while maintaining their anti-tumor activity in vivo, thus showing that complete editing of T cell specificity generates tumor-specific lymphocytes with improved biosafety profiles.

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Editing T cell specificity towards leukemia by zinc finger nucleases and lentiviral gene transfer

Abstract

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