Early ctDNA dynamics as a surrogate for progression-free survival in advanced breast cancer in the BEECH trial

被引：103

作者：

Hrebien, S. ^{[1
]}

Citi, V ^{[1
,2
]}

Garcia-Murillas, I ^{[1
]}

Cutts, R. ^{[1
]}

Fenwick, K. ^{[1
]}

Kozarewa, I ^{[3
]}

McEwen, R. ^{[3
]}

Ratnayake, J. ^{[3
]}

Maudsley, R. ^{[3
]}

Carr, T. H. ^{[3
]}

de Bruin, E. C. ^{[3
]}

Schiavon, G. ^{[3
]}

Oliyeira, M. ^{[4
,5
]}

Turner, N. ^{[1
,6
]}

机构：

[1] Inst Canc Res, Breast Canc Now Res Ctr, London, England

[2] Univ Pisa, Dept Clin & Expt Med, Clin Pharmacol & Pharmacogenet Unit, Pisa, Italy

[3] AstraZeneca, IMED Biotech Unit, Oncol, Cambridge, England

[4] Vall dHebron Univ Hosp, Barcelona, Spain

[5] Vall dHebron Inst Oncol VHIO, Barcelona, Spain

[6] Royal Marsden Hosp, Breast Unit, London, England

来源：

ANNALS OF ONCOLOGY | 2019年 / 30卷 / 06期

关键词：

breast cancer; circulating tumour DNA; capivasertib; BEECH trial; CIRCULATING TUMOR DNA; CELL-FREE DNA; CLONAL HEMATOPOIESIS; MUTATIONS; QUANTIFICATION; EFFICACY; DISEASE; PLASMA;

D O I：

10.1093/annonc/mdz085

中图分类号：

R73 [肿瘤学];

学科分类号：

100214 ;

摘要：

Background Dynamic changes in circulating tumour DNA (ctDNA) levels may predict long-term outcome. We utilised samples from a phase I/II randomised trial (BEECH) to assess ctDNA dynamics as a surrogate for progression-free survival (PFS) and early predictor of drug efficacy. Patients and methods Patients with estrogen receptor-positive advanced metastatic breast cancer (ER+ mBC) in the BEECH study, paclitaxel plus placebo versus paclitaxel plus AKT inhibitor capivasertib, had plasma samples collected for ctDNA analysis at baseline and at multiple time points in the development cohort (safety run-in, part A) and validation cohort (randomised, part B). Baseline sample ctDNA sequencing identified mutations for longitudinal analysis and mutation-specific digital droplet PCR (ddPCR) assays were utilised to assess change in ctDNA abundance (allele fraction) between baseline and 872 on-treatment samples. Primary objective was to assess whether early suppression of ctDNA, based on pre-defined criteria from the development cohort, independently predicted outcome in the validation cohort. Results In the development cohort, suppression of ctDNA was apparent after 8days of treatment (P=0.014), with cycle 2 day 1 (4weeks) identified as the optimal time point to predict PFS from early ctDNA dynamics. In the validation cohort, median PFS was 11.1months in patients with suppressed ctDNA at 4weeks and 6.4months in patients with high ctDNA (hazard ratio=0.20, 95% confidence interval 0.083-0.50, P<0.0001). There was no difference in the level of ctDNA suppression between patients randomised to capivasertib or placebo overall (P=0.904) nor in the PIK3CA mutant subpopulation (P=0.071). Clonal haematopoiesis of indeterminate potential (CHIP) was evident in 30% (18/59) baseline samples, although CHIP had no effect on tolerance of chemotherapy nor on PFS. Conclusion Early on-treatment ctDNA dynamics are a surrogate for PFS. Dynamic ctDNA assessment has the potential to substantially enhance early drug development. Clinical registration number NCT01625286.

引用

页码：945 / 952

页数：8

共 28 条

[1] Phylogenetic ctDNA analysis depicts early-stage lung cancer evolution
Abbosh, Christopher
Birkbak, Nicolai J.
Wilson, Gareth A.
Jamal-Hanjani, Mariam
Constantin, Tudor
Salari, Raheleh
Le Quesne, John
Moore, David A.
Veeriah, Selvaraju
Rosenthal, Rachel
Marafioti, Teresa
Kirkizlar, Eser
Watkins, Thomas B. K.
McGranahan, Nicholas
Ward, Sophia
Martinson, Luke
Riley, Joan
Fraioli, Francesco
Al Bakir, Maise
Gronroos, Eva
Zambrana, Francisco
Endozo, Raymondo
Bi, Wenya Linda
Fennessy, Fiona M.
Sponer, Nicole
Johnson, Diana
Laycock, Joanne
Shafi, Seema
Czyzewska-Khan, Justyna
Rowan, Andrew
Chambers, Tim
Matthews, Nik
Turajlic, Samra
Hiley, Crispin
Lee, Siow Ming
Forster, Martin D.
Ahmad, Tanya
Falzon, Mary
Borg, Elaine
Lawrence, David
Hayward, Martin
Kolvekar, Shyam
Panagiotopoulos, Nikolaos
Janes, Sam M.
Thakrar, Ricky
Ahmed, Asia
Blackhall, Fiona
Summers, Yvonne
Hafez, Dina
Naik, Ashwini
[J]. NATURE, 2017, 545 (7655) : 446 - +
[2] Ultra-sensitive Sequencing Identifies High Prevalence of Clonal Hematopoiesis-Associated Mutations throughout Adult Life
Acuna-Hidalgo, Rocio
Sengul, Hilal
Steehouwer, Marloes
van de Vorst, Maartje
Vermeulen, Sita H.
Kiemeney, Lambertus A. L. M.
Veltman, Joris A.
Gilissen, Christian
Hoischen, Alexander
[J]. AMERICAN JOURNAL OF HUMAN GENETICS, 2017, 101 (01) : 50 - 64
[3] Detection of Circulating Tumor DNA in Early- and Late-Stage Human Malignancies
Bettegowda, Chetan
Sausen, Mark
Leary, Rebecca J.
Kinde, Isaac
Wang, Yuxuan
Agrawal, Nishant
Bartlett, Bjarne R.
Wang, Hao
Luber, Brandon
Alani, Rhoda M.
Antonarakis, Emmanuel S.
Azad, Nilofer S.
Bardelli, Alberto
Brem, Henry
Cameron, John L.
Lee, Clarence C.
Fecher, Leslie A.
Gallia, Gary L.
Gibbs, Peter
Le, Dung
Giuntoli, Robert L.
Goggins, Michael
Hogarty, Michael D.
Holdhoff, Matthias
Hong, Seung-Mo
Jiao, Yuchen
Juhl, Hartmut H.
Kim, Jenny J.
Siravegna, Giulia
Laheru, Daniel A.
Lauricella, Calogero
Lim, Michael
Lipson, Evan J.
Marie, Suely Kazue Nagahashi
Netto, George J.
Oliner, Kelly S.
Olivi, Alessandro
Olsson, Louise
Riggins, Gregory J.
Sartore-Bianchi, Andrea
Schmidt, Kerstin
Shih, Ie-Ming
Oba-Shinjo, Sueli Mieko
Siena, Salvatore
Theodorescu, Dan
Tie, Jeanne
Harkins, Timothy T.
Veronese, Silvio
Wang, Tian-Li
Weingart, Jon D.
[J]. SCIENCE TRANSLATIONAL MEDICINE, 2014, 6 (224)
[4] Circulating tumor DNA changes for early monitoring of anti-PD1 immunotherapy: a proof-of-concept study
Cabel, L.
Riva, F.
Servois, V.
Livartowski, A.
Daniel, C.
Rampanou, A.
Lantz, O.
Romano, E.
Milder, M.
Buecher, B.
Piperno-Neumann, S.
Bernard, V.
Baulande, S.
Bieche, I.
Pierga, J. Y.
Proudhon, C.
Bidard, F. -C.
[J]. ANNALS OF ONCOLOGY, 2017, 28 (08) : 1996 - 2001
[5] Next-generation sequencing of circulating tumor DNA to predict recurrence in triple-negative breast cancer patients with residual disease after neoadjuvant chemotherapy
Chen, Yu-Hsiang
Hancock, Bradley A.
Solzak, Jeffrey P.
Brinza, Dumitru
Scafe, Charles
Miller, Kathy D.
Radovich, Milan
[J]. NPJ BREAST CANCER, 2017, 3
[6] Circulating tumor cells, disease progression, and survival in metastatic breast cancer
Cristofanilli, M
Budd, GT
Ellis, MJ
Stopeck, A
Matera, J
Miller, MC
Reuben, JM
Doyle, GV
Allard, WJ
Terstappen, LWMM
Hayes, DF
[J]. NEW ENGLAND JOURNAL OF MEDICINE, 2004, 351 (08) : 781 - 791
[7] Analysis of Circulating Tumor DNA to Monitor Metastatic Breast Cancer
Dawson, Sarah-Jane
Tsui, Dana W. Y.
Murtaza, Muhammed
Biggs, Heather
Rueda, Oscar M.
Chin, Suet-Feung
Dunning, Mark J.
Gale, Davina
Forshew, Tim
Mahler-Araujo, Betania
Rajan, Sabrina
Humphray, Sean
Becq, Jennifer
Halsall, David
Wallis, Matthew
Bentley, David
Caldas, Carlos
Rosenfeld, Nitzan
[J]. NEW ENGLAND JOURNAL OF MEDICINE, 2013, 368 (13) : 1199 - 1209
[8] Circulating mutant DNA to assess tumor dynamics
Diehl, Frank
Schmidt, Kerstin
Choti, Michael A.
Romans, Katharine
Goodman, Steven
Li, Meng
Thornton, Katherine
Agrawal, Nishant
Sokoll, Lori
Szabo, Steve A.
Kinzler, Kenneth W.
Vogelstein, Bert
Diaz, Luis A., Jr.
[J]. NATURE MEDICINE, 2008, 14 (09) : 985 - 990
[9] Noninvasive Identification and Monitoring of Cancer Mutations by Targeted Deep Sequencing of Plasma DNA
Forshew, Tim
Murtaza, Muhammed
Parkinson, Christine
Gale, Davina
Tsui, Dana W. Y.
Kaper, Fiona
Dawson, Sarah-Jane
Piskorz, Anna M.
Jimenez-Linan, Mercedes
Bentley, David
Hadfield, James
May, Andrew P.
Caldas, Carlos
Brenton, James D.
Rosenfeld, Nitzan
[J]. SCIENCE TRANSLATIONAL MEDICINE, 2012, 4 (136)
[10] Serial Next-Generation Sequencing of Circulating Cell-Free DNA Evaluating Tumor Clone Response To Molecularly Targeted Drug Administration
Frenel, Jean Sebastien
Carreira, Suzanne
Goodall, Jane
Roda, Desam
Perez-Lopez, Raquel
Tunariu, Nina
Riisnaes, Ruth
Miranda, Susana
Figueiredo, Ines
Nava-Rodrigues, Daniel
Smith, Alan
Leux, Christophe
Garcia-Murillas, Isaac
Ferraldeschi, Roberta
Lorente, David
Mateo, Joaquin
Ong, Michael
Yap, Timothy A.
Banerji, Udai
Tandefelt, Delila Gasi
Turner, Nick
Attard, Gerhardt
de Bono, Johann S.
[J]. CLINICAL CANCER RESEARCH, 2015, 21 (20) : 4586 - 4596

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