The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer: The Spectrum Theory Revisited

Matthew P Deek; Kim Van der Eecken; Ryan Phillips; Neil R Parikh; Pedro Isaacsson Velho; Tamara L Lotan; Amar U Kishan; Tobias Maurer; Paul C Boutros; Christopher Hovens; Matthew Abramowtiz; Alan Pollack; Neil Desai; Bradley Stish; Felix Y Feng; Mario Eisenberger; Michael Carducci; Kenneth J Pienta; Mark Markowski; Channing J Paller; Emmanuel S Antonarakis; Alejandro Berlin; Piet Ost; Phuoc T Tran; GAP6 Consortium

doi:10.1016/j.eururo.2020.12.040

The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer

Standard

The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer : The Spectrum Theory Revisited. / Deek, Matthew P; Van der Eecken, Kim; Phillips, Ryan; Parikh, Neil R; Isaacsson Velho, Pedro; Lotan, Tamara L; Kishan, Amar U; Maurer, Tobias; Boutros, Paul C; Hovens, Christopher; Abramowtiz, Matthew; Pollack, Alan; Desai, Neil; Stish, Bradley; Feng, Felix Y; Eisenberger, Mario; Carducci, Michael; Pienta, Kenneth J; Markowski, Mark; Paller, Channing J; Antonarakis, Emmanuel S; Berlin, Alejandro; Ost, Piet; Tran, Phuoc T; GAP6 Consortium.

In: EUR UROL, Vol. 80, No. 5, 11.2021, p. 632-640.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Deek, MP, Van der Eecken, K, Phillips, R, Parikh, NR, Isaacsson Velho, P, Lotan, TL, Kishan, AU, Maurer, T, Boutros, PC, Hovens, C, Abramowtiz, M, Pollack, A, Desai, N, Stish, B, Feng, FY, Eisenberger, M, Carducci, M, Pienta, KJ, Markowski, M, Paller, CJ, Antonarakis, ES, Berlin, A, Ost, P, Tran, PT & GAP6 Consortium 2021, 'The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer: The Spectrum Theory Revisited', EUR UROL, vol. 80, no. 5, pp. 632-640. https://doi.org/10.1016/j.eururo.2020.12.040

APA

Deek, M. P., Van der Eecken, K., Phillips, R., Parikh, N. R., Isaacsson Velho, P., Lotan, T. L., Kishan, A. U., Maurer, T., Boutros, P. C., Hovens, C., Abramowtiz, M., Pollack, A., Desai, N., Stish, B., Feng, F. Y., Eisenberger, M., Carducci, M., Pienta, K. J., Markowski, M., ... GAP6 Consortium (2021). The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer: The Spectrum Theory Revisited. EUR UROL, 80(5), 632-640. https://doi.org/10.1016/j.eururo.2020.12.040

Vancouver

Deek MP, Van der Eecken K, Phillips R, Parikh NR, Isaacsson Velho P, Lotan TL et al. The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer: The Spectrum Theory Revisited. EUR UROL. 2021 Nov;80(5):632-640. https://doi.org/10.1016/j.eururo.2020.12.040

Bibtex

@article{0beaf70048f14508a1644bef93db7e4a,

title = "The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer: The Spectrum Theory Revisited",

abstract = "BACKGROUND: Emerging data suggest that metastasis is a spectrum of disease burden rather than a binary state, and local therapies, such as radiation, might improve outcomes in oligometastasis. However, current definitions of oligometastasis are solely numerical.OBJECTIVE: To characterize the somatic mutational landscape across the disease spectrum of metastatic castration-sensitive prostate cancer (mCSPC) to elucidate a biological definition of oligometastatic CSPC.DESIGN, SETTING, AND PARTICIPANTS: This was a retrospective study of men with mCSPC who underwent clinical-grade sequencing of their tumors (269 primary tumor, 25 metastatic sites). Patients were classified as having biochemically recurrent (ie, micrometastatic), metachronous oligometastatic (≤5 lesions), metachronous polymetastatic (>5 lesions), or de novo metastatic (metastasis at diagnosis) disease.OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: We measured the frequency of driver mutations across metastatic classifications and the genomic associations with radiographic progression-free survival (rPFS) and time to castrate-resistant prostate cancer (CRPC).RESULTS AND LIMITATIONS: The frequency of driver mutations in TP53 (p = 0.01), WNT (p = 0.08), and cell cycle (p = 0.04) genes increased across the mCSPC spectrum. TP53 mutation was associated with shorter rPFS (26.7 vs 48.6 mo; p = 0.002), and time to CRPC (95.6 vs 155.8 mo; p = 0.02) in men with oligometastasis, and identified men with polymetastasis with better rPFS (TP53 wild-type, 42.7 mo; TP53 mutated, 18.5 mo; p = 0.01). Mutations in TP53 (incidence rate ratio [IRR] 1.45; p = 0.004) and DNA double-strand break repair (IRR 1.61; p < 0.001) were associated with a higher number of metastases. Mutations in TP53 were also independently associated with shorter rPFS (hazard ratio [HR] 1.59; p = 0.03) and the development of CRPC (HR 1.71; p = 0.01) on multivariable analysis. This study was limited by its retrospective nature, sample size, and the use of commercially available sequencing platforms, resulting in a limited predefined set of genes examined.CONCLUSIONS: Somatic mutational profiles reveal a spectrum of metastatic biology that helps in redefining oligometastasis beyond a simple binary state of lesion enumeration.PATIENT SUMMARY: Oligometastatic prostate cancer is typically defined as less than three to five metastatic lesions and evidence suggests that using radiation or surgery to treat these sites improves clinical outcomes. As of now, treatment decisions for oligometastasis are solely defined according to the number of lesions. However, this study suggests that tumor mutational profiles can provide a biological definition of oligometastasis and complement currently used numerical definitions.",

author = "Deek, {Matthew P} and {Van der Eecken}, Kim and Ryan Phillips and Parikh, {Neil R} and {Isaacsson Velho}, Pedro and Lotan, {Tamara L} and Kishan, {Amar U} and Tobias Maurer and Boutros, {Paul C} and Christopher Hovens and Matthew Abramowtiz and Alan Pollack and Neil Desai and Bradley Stish and Feng, {Felix Y} and Mario Eisenberger and Michael Carducci and Pienta, {Kenneth J} and Mark Markowski and Paller, {Channing J} and Antonarakis, {Emmanuel S} and Alejandro Berlin and Piet Ost and Tran, {Phuoc T} and {GAP6 Consortium}",

year = "2021",

month = nov,

doi = "10.1016/j.eururo.2020.12.040",

language = "English",

volume = "80",

pages = "632--640",

journal = "EUR UROL",

issn = "0302-2838",

publisher = "Elsevier",

number = "5",

}

RIS

TY - JOUR

T1 - The Mutational Landscape of Metastatic Castration-sensitive Prostate Cancer

T2 - The Spectrum Theory Revisited

AU - Deek, Matthew P

AU - Van der Eecken, Kim

AU - Phillips, Ryan

AU - Parikh, Neil R

AU - Isaacsson Velho, Pedro

AU - Lotan, Tamara L

AU - Kishan, Amar U

AU - Maurer, Tobias

AU - Boutros, Paul C

AU - Hovens, Christopher

AU - Abramowtiz, Matthew

AU - Pollack, Alan

AU - Desai, Neil

AU - Stish, Bradley

AU - Feng, Felix Y

AU - Eisenberger, Mario

AU - Carducci, Michael

AU - Pienta, Kenneth J

AU - Markowski, Mark

AU - Paller, Channing J

AU - Antonarakis, Emmanuel S

AU - Berlin, Alejandro

AU - Ost, Piet

AU - Tran, Phuoc T

AU - GAP6 Consortium

PY - 2021/11

Y1 - 2021/11

N2 - BACKGROUND: Emerging data suggest that metastasis is a spectrum of disease burden rather than a binary state, and local therapies, such as radiation, might improve outcomes in oligometastasis. However, current definitions of oligometastasis are solely numerical.OBJECTIVE: To characterize the somatic mutational landscape across the disease spectrum of metastatic castration-sensitive prostate cancer (mCSPC) to elucidate a biological definition of oligometastatic CSPC.DESIGN, SETTING, AND PARTICIPANTS: This was a retrospective study of men with mCSPC who underwent clinical-grade sequencing of their tumors (269 primary tumor, 25 metastatic sites). Patients were classified as having biochemically recurrent (ie, micrometastatic), metachronous oligometastatic (≤5 lesions), metachronous polymetastatic (>5 lesions), or de novo metastatic (metastasis at diagnosis) disease.OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: We measured the frequency of driver mutations across metastatic classifications and the genomic associations with radiographic progression-free survival (rPFS) and time to castrate-resistant prostate cancer (CRPC).RESULTS AND LIMITATIONS: The frequency of driver mutations in TP53 (p = 0.01), WNT (p = 0.08), and cell cycle (p = 0.04) genes increased across the mCSPC spectrum. TP53 mutation was associated with shorter rPFS (26.7 vs 48.6 mo; p = 0.002), and time to CRPC (95.6 vs 155.8 mo; p = 0.02) in men with oligometastasis, and identified men with polymetastasis with better rPFS (TP53 wild-type, 42.7 mo; TP53 mutated, 18.5 mo; p = 0.01). Mutations in TP53 (incidence rate ratio [IRR] 1.45; p = 0.004) and DNA double-strand break repair (IRR 1.61; p < 0.001) were associated with a higher number of metastases. Mutations in TP53 were also independently associated with shorter rPFS (hazard ratio [HR] 1.59; p = 0.03) and the development of CRPC (HR 1.71; p = 0.01) on multivariable analysis. This study was limited by its retrospective nature, sample size, and the use of commercially available sequencing platforms, resulting in a limited predefined set of genes examined.CONCLUSIONS: Somatic mutational profiles reveal a spectrum of metastatic biology that helps in redefining oligometastasis beyond a simple binary state of lesion enumeration.PATIENT SUMMARY: Oligometastatic prostate cancer is typically defined as less than three to five metastatic lesions and evidence suggests that using radiation or surgery to treat these sites improves clinical outcomes. As of now, treatment decisions for oligometastasis are solely defined according to the number of lesions. However, this study suggests that tumor mutational profiles can provide a biological definition of oligometastasis and complement currently used numerical definitions.

AB - BACKGROUND: Emerging data suggest that metastasis is a spectrum of disease burden rather than a binary state, and local therapies, such as radiation, might improve outcomes in oligometastasis. However, current definitions of oligometastasis are solely numerical.OBJECTIVE: To characterize the somatic mutational landscape across the disease spectrum of metastatic castration-sensitive prostate cancer (mCSPC) to elucidate a biological definition of oligometastatic CSPC.DESIGN, SETTING, AND PARTICIPANTS: This was a retrospective study of men with mCSPC who underwent clinical-grade sequencing of their tumors (269 primary tumor, 25 metastatic sites). Patients were classified as having biochemically recurrent (ie, micrometastatic), metachronous oligometastatic (≤5 lesions), metachronous polymetastatic (>5 lesions), or de novo metastatic (metastasis at diagnosis) disease.OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: We measured the frequency of driver mutations across metastatic classifications and the genomic associations with radiographic progression-free survival (rPFS) and time to castrate-resistant prostate cancer (CRPC).RESULTS AND LIMITATIONS: The frequency of driver mutations in TP53 (p = 0.01), WNT (p = 0.08), and cell cycle (p = 0.04) genes increased across the mCSPC spectrum. TP53 mutation was associated with shorter rPFS (26.7 vs 48.6 mo; p = 0.002), and time to CRPC (95.6 vs 155.8 mo; p = 0.02) in men with oligometastasis, and identified men with polymetastasis with better rPFS (TP53 wild-type, 42.7 mo; TP53 mutated, 18.5 mo; p = 0.01). Mutations in TP53 (incidence rate ratio [IRR] 1.45; p = 0.004) and DNA double-strand break repair (IRR 1.61; p < 0.001) were associated with a higher number of metastases. Mutations in TP53 were also independently associated with shorter rPFS (hazard ratio [HR] 1.59; p = 0.03) and the development of CRPC (HR 1.71; p = 0.01) on multivariable analysis. This study was limited by its retrospective nature, sample size, and the use of commercially available sequencing platforms, resulting in a limited predefined set of genes examined.CONCLUSIONS: Somatic mutational profiles reveal a spectrum of metastatic biology that helps in redefining oligometastasis beyond a simple binary state of lesion enumeration.PATIENT SUMMARY: Oligometastatic prostate cancer is typically defined as less than three to five metastatic lesions and evidence suggests that using radiation or surgery to treat these sites improves clinical outcomes. As of now, treatment decisions for oligometastasis are solely defined according to the number of lesions. However, this study suggests that tumor mutational profiles can provide a biological definition of oligometastasis and complement currently used numerical definitions.

U2 - 10.1016/j.eururo.2020.12.040

DO - 10.1016/j.eururo.2020.12.040

M3 - SCORING: Journal article

C2 - 33419682

VL - 80

SP - 632

EP - 640

JO - EUR UROL

JF - EUR UROL

SN - 0302-2838

IS - 5

ER -