Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents

Antonia Cagnetta; Debora Soncini; Stefania Orecchioni; Giovanna Talarico; Paola Minetto; Fabio Guolo; Veronica Retali; Nicoletta Colombo; Enrico Carminati; Marino Clavio; Maurizio Miglino; Micaela Bergamaschi; Aimable Nahimana; Michael Duchosal; Katia Todoerti; Antonino Neri; Mario Passalacqua; Santina Bruzzone; Alessio Nencioni; Francesco Bertolini; Marco Gobbi; Roberto M Lemoli; Michele Cea

doi:10.3324/haematol.2017.176248

Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents

Antonia Cagnetta, Debora Soncini, Stefania Orecchioni, Giovanna Talarico, Paola Minetto, Fabio Guolo, Veronica Retali, Nicoletta Colombo, Enrico Carminati, Marino Clavio, Maurizio Miglino, Micaela Bergamaschi, Aimable Nahimana, Michael Duchosal, Katia Todoerti, Antonino Neri, Mario Passalacqua, Santina Bruzzone, Alessio Nencioni, Francesco BertoliniMarco Gobbi, Roberto M Lemoli, Michele Cea

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

Abstract

Genomic instability plays a pathological role in various malignancies, including acute myeloid leukemia, and thus represents potential therapeutic target. Recent studies demonstrate that SIRT6, a NAD+-dependent nuclear deacetylase, functions as genome-guardian by preserving DNA integrity in different tumor cells. Here, we demonstrate that also CD34+ blasts from Acute Myeloid Leukemia patients show ongoing DNA damage and SIRT6 overexpression. Indeed, we identified a poor-prognostic subset of patients, with widespread instability, which relies on SIRT6 to compensate for DNA-replication stress. As result, SIRT6 depletion compromises the ability of leukemia cells to repair DNA double-strand breaks that, in turn, increases their sensitivity to daunorubicin and Ara-C, both in vitro and in vivo. In contrast, low SIRT6 levels observed in normal CD34+ hematopoietic progenitors explain their weaker sensitivity to genotoxic stress. Intriguingly, we have identified DNA-PKcs and CtIP deacetylation as crucial for SIRT6-mediated DNA repair. Together, our data suggest that inactivation of SIRT6 in leukemia cells leads to DNA-repair mechanisms disruption, genomic instability and aggressive Acute Myeloid Leukemia. This synthetic lethal approach, enhancing DNA damage while concomitantly blocking repair responses, provides the rationale for the clinical evaluation of SIRT6 modulators in leukemia treatment.

Original language	English
Journal	Haematologica
DOIs	https://doi.org/10.3324/haematol.2017.176248
Publication status	E-pub ahead of print - Oct 12 2017

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Cagnetta, A., Soncini, D., Orecchioni, S., Talarico, G., Minetto, P., Guolo, F., Retali, V., Colombo, N., Carminati, E., Clavio, M., Miglino, M., Bergamaschi, M., Nahimana, A., Duchosal, M., Todoerti, K., Neri, A., Passalacqua, M., Bruzzone, S., Nencioni, A., ... Cea, M. (2017). Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents. Haematologica. https://doi.org/10.3324/haematol.2017.176248

Cagnetta, A, Soncini, D, Orecchioni, S, Talarico, G, Minetto, P, Guolo, F, Retali, V, Colombo, N, Carminati, E, Clavio, M, Miglino, M, Bergamaschi, M, Nahimana, A, Duchosal, M, Todoerti, K, Neri, A, Passalacqua, M, Bruzzone, S, Nencioni, A , Bertolini, F, Gobbi, M, Lemoli, RM & Cea, M 2017, 'Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents', Haematologica. https://doi.org/10.3324/haematol.2017.176248

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title = "Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents",

abstract = "Genomic instability plays a pathological role in various malignancies, including acute myeloid leukemia, and thus represents potential therapeutic target. Recent studies demonstrate that SIRT6, a NAD+-dependent nuclear deacetylase, functions as genome-guardian by preserving DNA integrity in different tumor cells. Here, we demonstrate that also CD34+ blasts from Acute Myeloid Leukemia patients show ongoing DNA damage and SIRT6 overexpression. Indeed, we identified a poor-prognostic subset of patients, with widespread instability, which relies on SIRT6 to compensate for DNA-replication stress. As result, SIRT6 depletion compromises the ability of leukemia cells to repair DNA double-strand breaks that, in turn, increases their sensitivity to daunorubicin and Ara-C, both in vitro and in vivo. In contrast, low SIRT6 levels observed in normal CD34+ hematopoietic progenitors explain their weaker sensitivity to genotoxic stress. Intriguingly, we have identified DNA-PKcs and CtIP deacetylation as crucial for SIRT6-mediated DNA repair. Together, our data suggest that inactivation of SIRT6 in leukemia cells leads to DNA-repair mechanisms disruption, genomic instability and aggressive Acute Myeloid Leukemia. This synthetic lethal approach, enhancing DNA damage while concomitantly blocking repair responses, provides the rationale for the clinical evaluation of SIRT6 modulators in leukemia treatment.",

keywords = "Journal Article",

author = "Antonia Cagnetta and Debora Soncini and Stefania Orecchioni and Giovanna Talarico and Paola Minetto and Fabio Guolo and Veronica Retali and Nicoletta Colombo and Enrico Carminati and Marino Clavio and Maurizio Miglino and Micaela Bergamaschi and Aimable Nahimana and Michael Duchosal and Katia Todoerti and Antonino Neri and Mario Passalacqua and Santina Bruzzone and Alessio Nencioni and Francesco Bertolini and Marco Gobbi and Lemoli, {Roberto M} and Michele Cea",

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year = "2017",

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doi = "10.3324/haematol.2017.176248",

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T1 - Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents

AU - Cagnetta, Antonia

AU - Soncini, Debora

AU - Orecchioni, Stefania

AU - Talarico, Giovanna

AU - Minetto, Paola

AU - Guolo, Fabio

AU - Retali, Veronica

AU - Colombo, Nicoletta

AU - Carminati, Enrico

AU - Clavio, Marino

AU - Miglino, Maurizio

AU - Bergamaschi, Micaela

AU - Nahimana, Aimable

AU - Duchosal, Michael

AU - Todoerti, Katia

AU - Neri, Antonino

AU - Passalacqua, Mario

AU - Bruzzone, Santina

AU - Nencioni, Alessio

AU - Bertolini, Francesco

AU - Gobbi, Marco

AU - Lemoli, Roberto M

AU - Cea, Michele

PY - 2017/10/12

Y1 - 2017/10/12

N2 - Genomic instability plays a pathological role in various malignancies, including acute myeloid leukemia, and thus represents potential therapeutic target. Recent studies demonstrate that SIRT6, a NAD+-dependent nuclear deacetylase, functions as genome-guardian by preserving DNA integrity in different tumor cells. Here, we demonstrate that also CD34+ blasts from Acute Myeloid Leukemia patients show ongoing DNA damage and SIRT6 overexpression. Indeed, we identified a poor-prognostic subset of patients, with widespread instability, which relies on SIRT6 to compensate for DNA-replication stress. As result, SIRT6 depletion compromises the ability of leukemia cells to repair DNA double-strand breaks that, in turn, increases their sensitivity to daunorubicin and Ara-C, both in vitro and in vivo. In contrast, low SIRT6 levels observed in normal CD34+ hematopoietic progenitors explain their weaker sensitivity to genotoxic stress. Intriguingly, we have identified DNA-PKcs and CtIP deacetylation as crucial for SIRT6-mediated DNA repair. Together, our data suggest that inactivation of SIRT6 in leukemia cells leads to DNA-repair mechanisms disruption, genomic instability and aggressive Acute Myeloid Leukemia. This synthetic lethal approach, enhancing DNA damage while concomitantly blocking repair responses, provides the rationale for the clinical evaluation of SIRT6 modulators in leukemia treatment.

AB - Genomic instability plays a pathological role in various malignancies, including acute myeloid leukemia, and thus represents potential therapeutic target. Recent studies demonstrate that SIRT6, a NAD+-dependent nuclear deacetylase, functions as genome-guardian by preserving DNA integrity in different tumor cells. Here, we demonstrate that also CD34+ blasts from Acute Myeloid Leukemia patients show ongoing DNA damage and SIRT6 overexpression. Indeed, we identified a poor-prognostic subset of patients, with widespread instability, which relies on SIRT6 to compensate for DNA-replication stress. As result, SIRT6 depletion compromises the ability of leukemia cells to repair DNA double-strand breaks that, in turn, increases their sensitivity to daunorubicin and Ara-C, both in vitro and in vivo. In contrast, low SIRT6 levels observed in normal CD34+ hematopoietic progenitors explain their weaker sensitivity to genotoxic stress. Intriguingly, we have identified DNA-PKcs and CtIP deacetylation as crucial for SIRT6-mediated DNA repair. Together, our data suggest that inactivation of SIRT6 in leukemia cells leads to DNA-repair mechanisms disruption, genomic instability and aggressive Acute Myeloid Leukemia. This synthetic lethal approach, enhancing DNA damage while concomitantly blocking repair responses, provides the rationale for the clinical evaluation of SIRT6 modulators in leukemia treatment.

KW - Journal Article

U2 - 10.3324/haematol.2017.176248

DO - 10.3324/haematol.2017.176248

M3 - Article

C2 - 29025907

SN - 0390-6078

JO - Haematologica

JF - Haematologica

ER -

Depletion of SIRT6 enzymatic activity increases acute myeloid leukemia cells vulnerability to DNA-damaging agents

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