Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation

Vilma Dembitz; Hannah Lawson; Richard Burt; Sirisha Natani; Céline Philippe; Sophie C. James; Samantha Atkinson; Jozef Durko; Lydia M. Wang; Joana Campos; Aoife M.S. Magee; Keith Woodley; Michael J. Austin; Ana Rio-Machin; Pedro Casado; Findlay Bewicke-Copley; Giovanny Rodriguez Blanco; Diego Pereira-Martins; Lieve Oudejans; Emeline Boet; Alex von Kriegsheim; Juerg Schwaller; Andrew J. Finch; Bela Patel; Jean Emmanuel Sarry; Jerome Tamburini; Jan Jacob Schuringa; Lori Hazlehurst; John A. Copland; Mariia Yuneva; Barrie Peck; Pedro Cutillas; Jude Fitzgibbon; Kevin Rouault-Pierre; Kamil Kranc; Paolo Gallipoli

doi:10.1038/s41375-024-02390-9

Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation

Vilma Dembitz
, Hannah Lawson
, Richard Burt
, Sirisha Natani
, Céline Philippe
, Sophie C. James
, Samantha Atkinson
, Jozef Durko
, Lydia M. Wang
, Joana Campos
, Aoife M.S. Magee
, Keith Woodley
, Michael J. Austin
, Ana Rio-Machin
, Pedro Casado
, Findlay Bewicke-Copley
, Giovanny Rodriguez Blanco
, Diego Pereira-Martins
, Lieve Oudejans
, Emeline Boet

Alex von Kriegsheim, Juerg Schwaller, Andrew J. Finch, Bela Patel, Jean Emmanuel Sarry, Jerome Tamburini, Jan Jacob Schuringa, Lori Hazlehurst, John A. Copland, Mariia Yuneva, Barrie Peck, Pedro Cutillas, Jude Fitzgibbon, Kevin Rouault-Pierre, Kamil Kranc, Paolo Gallipoli^*

^*Corresponding author for this work

Molecular Oncology (MO)

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

11 Citations (Scopus)

87 Downloads (Pure)

Abstract

Identification of specific and therapeutically actionable vulnerabilities, ideally present across multiple mutational backgrounds, is needed to improve acute myeloid leukemia (AML) patients’ outcomes. We identify stearoyl-CoA desaturase (SCD), the key enzyme in fatty acid (FA) desaturation, as prognostic of patients' outcomes and, using the clinical-grade inhibitor SSI-4, show that SCD inhibition (SCDi) is a therapeutic vulnerability across multiple AML models in vitro and in vivo. Multiomic analysis demonstrates that SCDi causes lipotoxicity, which induces AML cell death via pleiotropic effects. Sensitivity to SCDi correlates with AML dependency on FA desaturation regardless of mutational profile and is modulated by FA biosynthesis activity. Finally, we show that lipotoxicity increases chemotherapy-induced DNA damage and standard chemotherapy further sensitizes AML cells to SCDi. Our work supports developing FA desaturase inhibitors in AML while stressing the importance of identifying predictive biomarkers of response and biologically validated combination therapies to realize their full therapeutic potential.

Original language	English
Pages (from-to)	2395–2409
Number of pages	15
Journal	Leukemia
Volume	38
Early online date	26-Aug-2024
DOIs	https://doi.org/10.1038/s41375-024-02390-9
Publication status	Published - Nov-2024

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Dembitz, V., Lawson, H., Burt, R., Natani, S., Philippe, C., James, S. C., Atkinson, S., Durko, J., Wang, L. M., Campos, J., Magee, A. M. S., Woodley, K., Austin, M. J., Rio-Machin, A., Casado, P., Bewicke-Copley, F., Rodriguez Blanco, G., Pereira-Martins, D., Oudejans, L., ... Gallipoli, P. (2024). Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation. Leukemia, 38, 2395–2409. https://doi.org/10.1038/s41375-024-02390-9

@article{88632aeff13549639e250d13c4e7c6f4,

title = "Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation",

abstract = "Identification of specific and therapeutically actionable vulnerabilities, ideally present across multiple mutational backgrounds, is needed to improve acute myeloid leukemia (AML) patients{\textquoteright} outcomes. We identify stearoyl-CoA desaturase (SCD), the key enzyme in fatty acid (FA) desaturation, as prognostic of patients' outcomes and, using the clinical-grade inhibitor SSI-4, show that SCD inhibition (SCDi) is a therapeutic vulnerability across multiple AML models in vitro and in vivo. Multiomic analysis demonstrates that SCDi causes lipotoxicity, which induces AML cell death via pleiotropic effects. Sensitivity to SCDi correlates with AML dependency on FA desaturation regardless of mutational profile and is modulated by FA biosynthesis activity. Finally, we show that lipotoxicity increases chemotherapy-induced DNA damage and standard chemotherapy further sensitizes AML cells to SCDi. Our work supports developing FA desaturase inhibitors in AML while stressing the importance of identifying predictive biomarkers of response and biologically validated combination therapies to realize their full therapeutic potential.",

author = "Vilma Dembitz and Hannah Lawson and Richard Burt and Sirisha Natani and C{\'e}line Philippe and James, \{Sophie C.\} and Samantha Atkinson and Jozef Durko and Wang, \{Lydia M.\} and Joana Campos and Magee, \{Aoife M.S.\} and Keith Woodley and Austin, \{Michael J.\} and Ana Rio-Machin and Pedro Casado and Findlay Bewicke-Copley and \{Rodriguez Blanco\}, Giovanny and Diego Pereira-Martins and Lieve Oudejans and Emeline Boet and \{von Kriegsheim\}, Alex and Juerg Schwaller and Finch, \{Andrew J.\} and Bela Patel and Sarry, \{Jean Emmanuel\} and Jerome Tamburini and Schuringa, \{Jan Jacob\} and Lori Hazlehurst and Copland, \{John A.\} and Mariia Yuneva and Barrie Peck and Pedro Cutillas and Jude Fitzgibbon and Kevin Rouault-Pierre and Kamil Kranc and Paolo Gallipoli",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = nov,

doi = "10.1038/s41375-024-02390-9",

language = "English",

volume = "38",

pages = "2395–2409",

journal = "Leukemia",

issn = "0887-6924",

publisher = "Nature Publishing Group",

}

Dembitz, V, Lawson, H, Burt, R, Natani, S, Philippe, C, James, SC, Atkinson, S, Durko, J, Wang, LM, Campos, J, Magee, AMS, Woodley, K, Austin, MJ, Rio-Machin, A, Casado, P, Bewicke-Copley, F, Rodriguez Blanco, G, Pereira-Martins, D , Oudejans, L, Boet, E, von Kriegsheim, A, Schwaller, J, Finch, AJ, Patel, B, Sarry, JE, Tamburini, J, Schuringa, JJ, Hazlehurst, L, Copland, JA, Yuneva, M, Peck, B, Cutillas, P, Fitzgibbon, J, Rouault-Pierre, K, Kranc, K & Gallipoli, P 2024, 'Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation', Leukemia, vol. 38, pp. 2395–2409. https://doi.org/10.1038/s41375-024-02390-9

TY - JOUR

T1 - Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation

AU - Dembitz, Vilma

AU - Lawson, Hannah

AU - Burt, Richard

AU - Natani, Sirisha

AU - Philippe, Céline

AU - James, Sophie C.

AU - Atkinson, Samantha

AU - Durko, Jozef

AU - Wang, Lydia M.

AU - Campos, Joana

AU - Magee, Aoife M.S.

AU - Woodley, Keith

AU - Austin, Michael J.

AU - Rio-Machin, Ana

AU - Casado, Pedro

AU - Bewicke-Copley, Findlay

AU - Rodriguez Blanco, Giovanny

AU - Pereira-Martins, Diego

AU - Oudejans, Lieve

AU - Boet, Emeline

AU - von Kriegsheim, Alex

AU - Schwaller, Juerg

AU - Finch, Andrew J.

AU - Patel, Bela

AU - Sarry, Jean Emmanuel

AU - Tamburini, Jerome

AU - Schuringa, Jan Jacob

AU - Hazlehurst, Lori

AU - Copland, John A.

AU - Yuneva, Mariia

AU - Peck, Barrie

AU - Cutillas, Pedro

AU - Fitzgibbon, Jude

AU - Rouault-Pierre, Kevin

AU - Kranc, Kamil

AU - Gallipoli, Paolo

PY - 2024/11

Y1 - 2024/11

N2 - Identification of specific and therapeutically actionable vulnerabilities, ideally present across multiple mutational backgrounds, is needed to improve acute myeloid leukemia (AML) patients’ outcomes. We identify stearoyl-CoA desaturase (SCD), the key enzyme in fatty acid (FA) desaturation, as prognostic of patients' outcomes and, using the clinical-grade inhibitor SSI-4, show that SCD inhibition (SCDi) is a therapeutic vulnerability across multiple AML models in vitro and in vivo. Multiomic analysis demonstrates that SCDi causes lipotoxicity, which induces AML cell death via pleiotropic effects. Sensitivity to SCDi correlates with AML dependency on FA desaturation regardless of mutational profile and is modulated by FA biosynthesis activity. Finally, we show that lipotoxicity increases chemotherapy-induced DNA damage and standard chemotherapy further sensitizes AML cells to SCDi. Our work supports developing FA desaturase inhibitors in AML while stressing the importance of identifying predictive biomarkers of response and biologically validated combination therapies to realize their full therapeutic potential.

AB - Identification of specific and therapeutically actionable vulnerabilities, ideally present across multiple mutational backgrounds, is needed to improve acute myeloid leukemia (AML) patients’ outcomes. We identify stearoyl-CoA desaturase (SCD), the key enzyme in fatty acid (FA) desaturation, as prognostic of patients' outcomes and, using the clinical-grade inhibitor SSI-4, show that SCD inhibition (SCDi) is a therapeutic vulnerability across multiple AML models in vitro and in vivo. Multiomic analysis demonstrates that SCDi causes lipotoxicity, which induces AML cell death via pleiotropic effects. Sensitivity to SCDi correlates with AML dependency on FA desaturation regardless of mutational profile and is modulated by FA biosynthesis activity. Finally, we show that lipotoxicity increases chemotherapy-induced DNA damage and standard chemotherapy further sensitizes AML cells to SCDi. Our work supports developing FA desaturase inhibitors in AML while stressing the importance of identifying predictive biomarkers of response and biologically validated combination therapies to realize their full therapeutic potential.

UR - https://www.scopus.com/pages/publications/85202011274

U2 - 10.1038/s41375-024-02390-9

DO - 10.1038/s41375-024-02390-9

M3 - Article

AN - SCOPUS:85202011274

SN - 0887-6924

VL - 38

SP - 2395

EP - 2409

JO - Leukemia

JF - Leukemia

ER -

Stearoyl-CoA desaturase inhibition is toxic to acute myeloid leukemia displaying high levels of the de novo fatty acid biosynthesis and desaturation

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