Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias

Yuki Nishida; Jo Ishizawa; Edward Ayoub; Rafael Heinz Montoya; Lauren B. Ostermann; Muharrem Muftuoglu; Vivian R. Ruvolo; Tallie Patsilevas; Darah A. Scruggs; Shayaun Khazaei; Po Yee Mak; Wenjing Tao; Bing Z. Carter; Steffen Boettcher; Benjamin L. Ebert; Naval G. Daver; Marina Konopleva; Takahiko Seki; Kensuke Kojima; Michael Andreeff

doi:10.1126/SCIADV.ADH1436

Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias

Yuki Nishida, Jo Ishizawa, Edward Ayoub, Rafael Heinz Montoya, Lauren B. Ostermann, Muharrem Muftuoglu, Vivian R. Ruvolo, Tallie Patsilevas, Darah A. Scruggs, Shayaun Khazaei, Po Yee Mak, Wenjing Tao, Bing Z. Carter, Steffen Boettcher, Benjamin L. Ebert, Naval G. Daver, Marina Konopleva, Takahiko Seki, Kensuke Kojima, Michael Andreeff

Leukemia

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

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Abstract

The tumor suppressor TP53 is frequently inactivated in a mutation-independent manner in cancers and is reactivated by inhibiting its negative regulators. We here cotarget MDM2 and the nuclear exporter XPO1 to maximize transcriptional activity of p53. MDM2/XPO1 inhibition accumulated nuclear p53 and elicited a 25- to 60-fold increase of its transcriptional targets. TP53 regulates MYC, and MDM2/XPO1 inhibition disrupted the c-MYC-regulated transcriptome, resulting in the synergistic induction of apoptosis in acute myeloid leukemia (AML). Unexpectedly, venetoclax-resistant AMLs express high levels of c-MYC and are vulnerable to MDM2/XPO1 inhibition in vivo. However, AML cells persisting after MDM2/XPO1 inhibition exhibit a quiescence- and stress response-associated phenotype. Venetoclax overcomes that resistance, as shown by single-cell mass cytometry. The triple inhibition of MDM2, XPO1, and BCL2 was highly effective against venetoclax-resistant AML in vivo. Our results propose a novel, highly translatable therapeutic approach leveraging p53 reactivation to overcome nongenetic, stress-adapted venetoclax resistance.

Original language	English (US)
Article number	eadh1436
Journal	Science Advances
Volume	9
Issue number	48
DOIs	https://doi.org/10.1126/SCIADV.ADH1436
State	Published - Dec 2023

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Nishida, Y., Ishizawa, J., Ayoub, E., Montoya, R. H., Ostermann, L. B., Muftuoglu, M., Ruvolo, V. R., Patsilevas, T., Scruggs, D. A., Khazaei, S., Mak, P. Y., Tao, W., Carter, B. Z., Boettcher, S., Ebert, B. L., Daver, N. G., Konopleva, M., Seki, T., Kojima, K., & Andreeff, M. (2023). Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias. Science Advances, 9(48), Article eadh1436. https://doi.org/10.1126/SCIADV.ADH1436

Nishida, Y , Ishizawa, J, Ayoub, E, Montoya, RH, Ostermann, LB, Muftuoglu, M, Ruvolo, VR, Patsilevas, T, Scruggs, DA, Khazaei, S, Mak, PY, Tao, W, Carter, BZ, Boettcher, S, Ebert, BL, Daver, NG, Konopleva, M, Seki, T, Kojima, K & Andreeff, M 2023, 'Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias', Science Advances, vol. 9, no. 48, eadh1436. https://doi.org/10.1126/SCIADV.ADH1436

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title = "Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias",

abstract = "The tumor suppressor TP53 is frequently inactivated in a mutation-independent manner in cancers and is reactivated by inhibiting its negative regulators. We here cotarget MDM2 and the nuclear exporter XPO1 to maximize transcriptional activity of p53. MDM2/XPO1 inhibition accumulated nuclear p53 and elicited a 25- to 60-fold increase of its transcriptional targets. TP53 regulates MYC, and MDM2/XPO1 inhibition disrupted the c-MYC-regulated transcriptome, resulting in the synergistic induction of apoptosis in acute myeloid leukemia (AML). Unexpectedly, venetoclax-resistant AMLs express high levels of c-MYC and are vulnerable to MDM2/XPO1 inhibition in vivo. However, AML cells persisting after MDM2/XPO1 inhibition exhibit a quiescence- and stress response-associated phenotype. Venetoclax overcomes that resistance, as shown by single-cell mass cytometry. The triple inhibition of MDM2, XPO1, and BCL2 was highly effective against venetoclax-resistant AML in vivo. Our results propose a novel, highly translatable therapeutic approach leveraging p53 reactivation to overcome nongenetic, stress-adapted venetoclax resistance.",

author = "Yuki Nishida and Jo Ishizawa and Edward Ayoub and Montoya, {Rafael Heinz} and Ostermann, {Lauren B.} and Muharrem Muftuoglu and Ruvolo, {Vivian R.} and Tallie Patsilevas and Scruggs, {Darah A.} and Shayaun Khazaei and Mak, {Po Yee} and Wenjing Tao and Carter, {Bing Z.} and Steffen Boettcher and Ebert, {Benjamin L.} and Daver, {Naval G.} and Marina Konopleva and Takahiko Seki and Kensuke Kojima and Michael Andreeff",

year = "2023",

month = dec,

doi = "10.1126/SCIADV.ADH1436",

language = "English (US)",

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journal = "Science Advances",

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T1 - Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias

AU - Nishida, Yuki

AU - Ishizawa, Jo

AU - Ayoub, Edward

AU - Montoya, Rafael Heinz

AU - Ostermann, Lauren B.

AU - Muftuoglu, Muharrem

AU - Ruvolo, Vivian R.

AU - Patsilevas, Tallie

AU - Scruggs, Darah A.

AU - Khazaei, Shayaun

AU - Mak, Po Yee

AU - Tao, Wenjing

AU - Carter, Bing Z.

AU - Boettcher, Steffen

AU - Ebert, Benjamin L.

AU - Daver, Naval G.

AU - Konopleva, Marina

AU - Seki, Takahiko

AU - Kojima, Kensuke

AU - Andreeff, Michael

PY - 2023/12

Y1 - 2023/12

N2 - The tumor suppressor TP53 is frequently inactivated in a mutation-independent manner in cancers and is reactivated by inhibiting its negative regulators. We here cotarget MDM2 and the nuclear exporter XPO1 to maximize transcriptional activity of p53. MDM2/XPO1 inhibition accumulated nuclear p53 and elicited a 25- to 60-fold increase of its transcriptional targets. TP53 regulates MYC, and MDM2/XPO1 inhibition disrupted the c-MYC-regulated transcriptome, resulting in the synergistic induction of apoptosis in acute myeloid leukemia (AML). Unexpectedly, venetoclax-resistant AMLs express high levels of c-MYC and are vulnerable to MDM2/XPO1 inhibition in vivo. However, AML cells persisting after MDM2/XPO1 inhibition exhibit a quiescence- and stress response-associated phenotype. Venetoclax overcomes that resistance, as shown by single-cell mass cytometry. The triple inhibition of MDM2, XPO1, and BCL2 was highly effective against venetoclax-resistant AML in vivo. Our results propose a novel, highly translatable therapeutic approach leveraging p53 reactivation to overcome nongenetic, stress-adapted venetoclax resistance.

AB - The tumor suppressor TP53 is frequently inactivated in a mutation-independent manner in cancers and is reactivated by inhibiting its negative regulators. We here cotarget MDM2 and the nuclear exporter XPO1 to maximize transcriptional activity of p53. MDM2/XPO1 inhibition accumulated nuclear p53 and elicited a 25- to 60-fold increase of its transcriptional targets. TP53 regulates MYC, and MDM2/XPO1 inhibition disrupted the c-MYC-regulated transcriptome, resulting in the synergistic induction of apoptosis in acute myeloid leukemia (AML). Unexpectedly, venetoclax-resistant AMLs express high levels of c-MYC and are vulnerable to MDM2/XPO1 inhibition in vivo. However, AML cells persisting after MDM2/XPO1 inhibition exhibit a quiescence- and stress response-associated phenotype. Venetoclax overcomes that resistance, as shown by single-cell mass cytometry. The triple inhibition of MDM2, XPO1, and BCL2 was highly effective against venetoclax-resistant AML in vivo. Our results propose a novel, highly translatable therapeutic approach leveraging p53 reactivation to overcome nongenetic, stress-adapted venetoclax resistance.

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Enhanced TP53 reactivation disrupts MYC transcriptional program and overcomes venetoclax resistance in acute myeloid leukemias

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