The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy

Laura Bornes; Lennart J. van Winden; Veerle C.M. Geurts; Beaunelle de Bruijn; Leyla Azarang; Mirthe Lanfermeijer; Marika Caruso; Natalie Proost; Manon Boeije; Jeroen O. Lohuis; Guillaume Belthier; Eulàlia Noguera Delgado; Nadia de Gruil; Judith R. Kroep; Marieke van de Ven; Renee Menezes; Jelle Wesseling; Marleen Kok; Sabine Linn; Annegien Broeks; Huub H. van Rossum; Colinda L.G.J. Scheele; Jacco van Rheenen

doi:10.1038/s41586-024-08276-1

The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy

Laura Bornes
, Lennart J. van Winden
, Veerle C.M. Geurts
, Beaunelle de Bruijn
, Leyla Azarang
, Mirthe Lanfermeijer
, Marika Caruso
, Natalie Proost
, Manon Boeije
, Jeroen O. Lohuis
, Guillaume Belthier
, Eulàlia Noguera Delgado
, Nadia de Gruil
, Judith R. Kroep
, Marieke van de Ven
, Renee Menezes
, Jelle Wesseling
, Marleen Kok
, Sabine Linn
, Annegien Broeks

Huub H. van Rossum, Colinda L.G.J. Scheele^*, Jacco van Rheenen^*

^*Corresponding author for this work

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

1 Downloads (Pure)

Abstract

The response of breast cancer to neoadjuvant chemotherapy (NAC) varies substantially, even when tumours belong to the same molecular or histological subtype¹. Here we identify the oestrous cycle as an important contributor to this heterogeneity. In three mouse models of breast cancer, we show reduced responses to NAC when treatment is initiated during the dioestrus stage, when compared with initiation during the oestrus stage. Similar findings were observed in retrospective premenopausal cohorts of human patients. Mechanistically, the dioestrus stage exhibits systemic and localized changes, including (1) an increased number of cells undergoing epithelial-to-mesenchymal transition linked to chemoresistance^{2, 3–4} and (2) decreased tumour vessel diameter, suggesting potential constraints to drug sensitivity and delivery. In addition, an elevated presence of macrophages, previously associated with chemoresistance induction⁵, characterizes the dioestrus phase. Whereas NAC disrupts the oestrous cycle, this elevated macrophage prevalence persists and depletion of macrophages mitigates the reduced therapy response observed when initiating treatment during dioestrus. Our data collectively demonstrate the oestrous cycle as a crucial infradian rhythm determining chemosensitivity, warranting future clinical studies to exploit optimal treatment initiation timing for enhanced chemotherapy outcomes.

Original language	English
Article number	8487
Pages (from-to)	195-204
Number of pages	10
Journal	Nature
Volume	637
Issue number	8044
Early online date	4 Dec 2024
DOIs	https://doi.org/10.1038/s41586-024-08276-1
Publication status	Published - Jan 2025

Access to Document

10.1038/s41586-024-08276-1Licence: CC BY-NC-ND

s41586-024-08276-1Final published version, 33.8 MBLicence: CC BY-NC-ND

Cite this

Bornes, L., van Winden, L. J., Geurts, V. C. M., de Bruijn, B., Azarang, L., Lanfermeijer, M., Caruso, M., Proost, N., Boeije, M., Lohuis, J. O., Belthier, G., Noguera Delgado, E., de Gruil, N., Kroep, J. R., van de Ven, M., Menezes, R., Wesseling, J., Kok, M., Linn, S., ... van Rheenen, J. (2025). The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy. Nature, 637(8044), 195-204. Article 8487. https://doi.org/10.1038/s41586-024-08276-1

@article{b5d6fcadc3e949b78ce092901de91313,

title = "The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy",

abstract = "The response of breast cancer to neoadjuvant chemotherapy (NAC) varies substantially, even when tumours belong to the same molecular or histological subtype1. Here we identify the oestrous cycle as an important contributor to this heterogeneity. In three mouse models of breast cancer, we show reduced responses to NAC when treatment is initiated during the dioestrus stage, when compared with initiation during the oestrus stage. Similar findings were observed in retrospective premenopausal cohorts of human patients. Mechanistically, the dioestrus stage exhibits systemic and localized changes, including (1) an increased number of cells undergoing epithelial-to-mesenchymal transition linked to chemoresistance2, 3–4 and (2) decreased tumour vessel diameter, suggesting potential constraints to drug sensitivity and delivery. In addition, an elevated presence of macrophages, previously associated with chemoresistance induction5, characterizes the dioestrus phase. Whereas NAC disrupts the oestrous cycle, this elevated macrophage prevalence persists and depletion of macrophages mitigates the reduced therapy response observed when initiating treatment during dioestrus. Our data collectively demonstrate the oestrous cycle as a crucial infradian rhythm determining chemosensitivity, warranting future clinical studies to exploit optimal treatment initiation timing for enhanced chemotherapy outcomes.",

author = "Laura Bornes and \{van Winden\}, \{Lennart J.\} and Geurts, \{Veerle C.M.\} and \{de Bruijn\}, Beaunelle and Leyla Azarang and Mirthe Lanfermeijer and Marika Caruso and Natalie Proost and Manon Boeije and Lohuis, \{Jeroen O.\} and Guillaume Belthier and \{Noguera Delgado\}, Eul{\`a}lia and \{de Gruil\}, Nadia and Kroep, \{Judith R.\} and \{van de Ven\}, Marieke and Renee Menezes and Jelle Wesseling and Marleen Kok and Sabine Linn and Annegien Broeks and \{van Rossum\}, \{Huub H.\} and Scheele, \{Colinda L.G.J.\} and \{van Rheenen\}, Jacco",

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

year = "2025",

month = jan,

doi = "10.1038/s41586-024-08276-1",

language = "English",

volume = "637",

pages = "195--204",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "8044",

}

Bornes, L, van Winden, LJ, Geurts, VCM, de Bruijn, B, Azarang, L, Lanfermeijer, M, Caruso, M, Proost, N, Boeije, M, Lohuis, JO, Belthier, G, Noguera Delgado, E, de Gruil, N, Kroep, JR, van de Ven, M, Menezes, R, Wesseling, J, Kok, M, Linn, S, Broeks, A, van Rossum, HH, Scheele, CLGJ & van Rheenen, J 2025, 'The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy', Nature, vol. 637, no. 8044, 8487, pp. 195-204. https://doi.org/10.1038/s41586-024-08276-1

TY - JOUR

T1 - The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy

AU - Bornes, Laura

AU - van Winden, Lennart J.

AU - Geurts, Veerle C.M.

AU - de Bruijn, Beaunelle

AU - Azarang, Leyla

AU - Lanfermeijer, Mirthe

AU - Caruso, Marika

AU - Proost, Natalie

AU - Boeije, Manon

AU - Lohuis, Jeroen O.

AU - Belthier, Guillaume

AU - Noguera Delgado, Eulàlia

AU - de Gruil, Nadia

AU - Kroep, Judith R.

AU - van de Ven, Marieke

AU - Menezes, Renee

AU - Wesseling, Jelle

AU - Kok, Marleen

AU - Linn, Sabine

AU - Broeks, Annegien

AU - van Rossum, Huub H.

AU - Scheele, Colinda L.G.J.

AU - van Rheenen, Jacco

PY - 2025/1

Y1 - 2025/1

N2 - The response of breast cancer to neoadjuvant chemotherapy (NAC) varies substantially, even when tumours belong to the same molecular or histological subtype1. Here we identify the oestrous cycle as an important contributor to this heterogeneity. In three mouse models of breast cancer, we show reduced responses to NAC when treatment is initiated during the dioestrus stage, when compared with initiation during the oestrus stage. Similar findings were observed in retrospective premenopausal cohorts of human patients. Mechanistically, the dioestrus stage exhibits systemic and localized changes, including (1) an increased number of cells undergoing epithelial-to-mesenchymal transition linked to chemoresistance2, 3–4 and (2) decreased tumour vessel diameter, suggesting potential constraints to drug sensitivity and delivery. In addition, an elevated presence of macrophages, previously associated with chemoresistance induction5, characterizes the dioestrus phase. Whereas NAC disrupts the oestrous cycle, this elevated macrophage prevalence persists and depletion of macrophages mitigates the reduced therapy response observed when initiating treatment during dioestrus. Our data collectively demonstrate the oestrous cycle as a crucial infradian rhythm determining chemosensitivity, warranting future clinical studies to exploit optimal treatment initiation timing for enhanced chemotherapy outcomes.

AB - The response of breast cancer to neoadjuvant chemotherapy (NAC) varies substantially, even when tumours belong to the same molecular or histological subtype1. Here we identify the oestrous cycle as an important contributor to this heterogeneity. In three mouse models of breast cancer, we show reduced responses to NAC when treatment is initiated during the dioestrus stage, when compared with initiation during the oestrus stage. Similar findings were observed in retrospective premenopausal cohorts of human patients. Mechanistically, the dioestrus stage exhibits systemic and localized changes, including (1) an increased number of cells undergoing epithelial-to-mesenchymal transition linked to chemoresistance2, 3–4 and (2) decreased tumour vessel diameter, suggesting potential constraints to drug sensitivity and delivery. In addition, an elevated presence of macrophages, previously associated with chemoresistance induction5, characterizes the dioestrus phase. Whereas NAC disrupts the oestrous cycle, this elevated macrophage prevalence persists and depletion of macrophages mitigates the reduced therapy response observed when initiating treatment during dioestrus. Our data collectively demonstrate the oestrous cycle as a crucial infradian rhythm determining chemosensitivity, warranting future clinical studies to exploit optimal treatment initiation timing for enhanced chemotherapy outcomes.

UR - https://www.scopus.com/pages/publications/85211228864

U2 - 10.1038/s41586-024-08276-1

DO - 10.1038/s41586-024-08276-1

M3 - Article

C2 - 39633046

AN - SCOPUS:85211228864

SN - 0028-0836

VL - 637

SP - 195

EP - 204

JO - Nature

JF - Nature

IS - 8044

M1 - 8487

ER -

The oestrous cycle stage affects mammary tumour sensitivity to chemotherapy

Abstract

Access to Document

Other files and links

Fingerprint

Cite this