Harnessing transcriptionally driven chromosomal instability adaptation to target therapy-refractory lethal prostate cancer

Brittiny Dhital; Sandra Santasusagna; Perumalraja Kirthika; Michael Xu; Peiyao Li; Marc Carceles-Cordon; Rajesh K. Soni; Zhuoning Li; Ronald C. Hendrickson; Matthew J. Schiewer; William K. Kelly; Cora N. Sternberg; Jun Luo; Amaia Lujambio; Carlos Cordon-Cardo; Monica Alvarez-Fernandez; Marcos Malumbres; Haojie Huang; Adam Ertel; Josep Domingo-Domenech; Veronica Rodriguez-Bravo

doi:10.1016/j.xcrm.2023.100937

Harnessing transcriptionally driven chromosomal instability adaptation to target therapy-refractory lethal prostate cancer

Brittiny Dhital, Sandra Santasusagna, Perumalraja Kirthika, Michael Xu, Peiyao Li, Marc Carceles-Cordon, Rajesh K. Soni, Zhuoning Li, Ronald C. Hendrickson, Matthew J. Schiewer, William K. Kelly, Cora N. Sternberg, Jun Luo, Amaia Lujambio, Carlos Cordon-Cardo, Monica Alvarez-Fernandez, Marcos Malumbres, Haojie Huang, Adam Ertel, Josep Domingo-DomenechVeronica Rodriguez-Bravo

School of Medicine

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

Abstract

Metastatic prostate cancer (PCa) inevitably acquires resistance to standard therapy preceding lethality. Here, we unveil a chromosomal instability (CIN) tolerance mechanism as a therapeutic vulnerability of therapy-refractory lethal PCa. Through genomic and transcriptomic analysis of patient datasets, we find that castration and chemotherapy-resistant tumors display the highest CIN and mitotic kinase levels. Functional genomics screening coupled with quantitative phosphoproteomics identify MASTL kinase as a survival vulnerability specific of chemotherapy-resistant PCa cells. Mechanistically, MASTL upregulation is driven by transcriptional rewiring mechanisms involving the non-canonical transcription factors androgen receptor splice variant 7 and E2F7 in a circuitry that restrains deleterious CIN and prevents cell death selectively in metastatic therapy-resistant PCa cells. Notably, MASTL pharmacological inhibition re-sensitizes tumors to standard therapy and improves survival of pre-clinical models. These results uncover a targetable mechanism promoting high CIN adaptation and survival of lethal PCa.

Original language	English (US)
Article number	100937
Journal	Cell Reports Medicine
Volume	4
Issue number	2
DOIs	https://doi.org/10.1016/j.xcrm.2023.100937
State	Published - Feb 21 2023

Keywords

AR-V7
E2F7
MASTL
chromosomal instability (CIN)
lethal prostate cancer
therapy resistance

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.xcrm.2023.100937

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Dhital, B., Santasusagna, S., Kirthika, P., Xu, M., Li, P., Carceles-Cordon, M., Soni, R. K., Li, Z., Hendrickson, R. C., Schiewer, M. J., Kelly, W. K., Sternberg, C. N., Luo, J., Lujambio, A., Cordon-Cardo, C., Alvarez-Fernandez, M., Malumbres, M., Huang, H., Ertel, A., ... Rodriguez-Bravo, V. (2023). Harnessing transcriptionally driven chromosomal instability adaptation to target therapy-refractory lethal prostate cancer. Cell Reports Medicine, 4(2), Article 100937. https://doi.org/10.1016/j.xcrm.2023.100937

Dhital, B, Santasusagna, S, Kirthika, P, Xu, M, Li, P, Carceles-Cordon, M, Soni, RK, Li, Z, Hendrickson, RC, Schiewer, MJ, Kelly, WK, Sternberg, CN, Luo, J, Lujambio, A, Cordon-Cardo, C, Alvarez-Fernandez, M, Malumbres, M, Huang, H, Ertel, A, Domingo-Domenech, J & Rodriguez-Bravo, V 2023, 'Harnessing transcriptionally driven chromosomal instability adaptation to target therapy-refractory lethal prostate cancer', Cell Reports Medicine, vol. 4, no. 2, 100937. https://doi.org/10.1016/j.xcrm.2023.100937

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abstract = "Metastatic prostate cancer (PCa) inevitably acquires resistance to standard therapy preceding lethality. Here, we unveil a chromosomal instability (CIN) tolerance mechanism as a therapeutic vulnerability of therapy-refractory lethal PCa. Through genomic and transcriptomic analysis of patient datasets, we find that castration and chemotherapy-resistant tumors display the highest CIN and mitotic kinase levels. Functional genomics screening coupled with quantitative phosphoproteomics identify MASTL kinase as a survival vulnerability specific of chemotherapy-resistant PCa cells. Mechanistically, MASTL upregulation is driven by transcriptional rewiring mechanisms involving the non-canonical transcription factors androgen receptor splice variant 7 and E2F7 in a circuitry that restrains deleterious CIN and prevents cell death selectively in metastatic therapy-resistant PCa cells. Notably, MASTL pharmacological inhibition re-sensitizes tumors to standard therapy and improves survival of pre-clinical models. These results uncover a targetable mechanism promoting high CIN adaptation and survival of lethal PCa.",

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AU - Dhital, Brittiny

AU - Santasusagna, Sandra

AU - Kirthika, Perumalraja

AU - Xu, Michael

AU - Li, Peiyao

AU - Carceles-Cordon, Marc

AU - Soni, Rajesh K.

AU - Li, Zhuoning

AU - Hendrickson, Ronald C.

AU - Schiewer, Matthew J.

AU - Kelly, William K.

AU - Sternberg, Cora N.

AU - Luo, Jun

AU - Lujambio, Amaia

AU - Cordon-Cardo, Carlos

AU - Alvarez-Fernandez, Monica

AU - Malumbres, Marcos

AU - Huang, Haojie

AU - Ertel, Adam

AU - Domingo-Domenech, Josep

AU - Rodriguez-Bravo, Veronica

PY - 2023/2/21

Y1 - 2023/2/21

N2 - Metastatic prostate cancer (PCa) inevitably acquires resistance to standard therapy preceding lethality. Here, we unveil a chromosomal instability (CIN) tolerance mechanism as a therapeutic vulnerability of therapy-refractory lethal PCa. Through genomic and transcriptomic analysis of patient datasets, we find that castration and chemotherapy-resistant tumors display the highest CIN and mitotic kinase levels. Functional genomics screening coupled with quantitative phosphoproteomics identify MASTL kinase as a survival vulnerability specific of chemotherapy-resistant PCa cells. Mechanistically, MASTL upregulation is driven by transcriptional rewiring mechanisms involving the non-canonical transcription factors androgen receptor splice variant 7 and E2F7 in a circuitry that restrains deleterious CIN and prevents cell death selectively in metastatic therapy-resistant PCa cells. Notably, MASTL pharmacological inhibition re-sensitizes tumors to standard therapy and improves survival of pre-clinical models. These results uncover a targetable mechanism promoting high CIN adaptation and survival of lethal PCa.

AB - Metastatic prostate cancer (PCa) inevitably acquires resistance to standard therapy preceding lethality. Here, we unveil a chromosomal instability (CIN) tolerance mechanism as a therapeutic vulnerability of therapy-refractory lethal PCa. Through genomic and transcriptomic analysis of patient datasets, we find that castration and chemotherapy-resistant tumors display the highest CIN and mitotic kinase levels. Functional genomics screening coupled with quantitative phosphoproteomics identify MASTL kinase as a survival vulnerability specific of chemotherapy-resistant PCa cells. Mechanistically, MASTL upregulation is driven by transcriptional rewiring mechanisms involving the non-canonical transcription factors androgen receptor splice variant 7 and E2F7 in a circuitry that restrains deleterious CIN and prevents cell death selectively in metastatic therapy-resistant PCa cells. Notably, MASTL pharmacological inhibition re-sensitizes tumors to standard therapy and improves survival of pre-clinical models. These results uncover a targetable mechanism promoting high CIN adaptation and survival of lethal PCa.

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Harnessing transcriptionally driven chromosomal instability adaptation to target therapy-refractory lethal prostate cancer

Abstract

Keywords

ASJC Scopus subject areas

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