Growth exponents reflect evolutionary processes and treatment response in brain metastases

Beatriz Ocaña-Tienda; Julián Pérez-Beteta; Juan Jiménez-Sánchez; David Molina-García; Ana Ortiz de Mendivil; Beatriz Asenjo; David Albillo; Luis A. Pérez-Romasanta; Manuel Valiente; Lucía Zhu; Pedro García-Gómez; Elisabet González-Del Portillo; Manuel Llorente; Natalia Carballo; Estanislao Arana; Víctor M. Pérez-García

doi:10.1038/s41540-023-00298-1

npj Systems Biology and Applications (Jul 2023)

Growth exponents reflect evolutionary processes and treatment response in brain metastases

Beatriz Ocaña-Tienda,
Julián Pérez-Beteta,
Juan Jiménez-Sánchez,
David Molina-García,
Ana Ortiz de Mendivil,
Beatriz Asenjo,
David Albillo,
Luis A. Pérez-Romasanta,
Manuel Valiente,
Lucía Zhu,
Pedro García-Gómez,
Elisabet González-Del Portillo,
Manuel Llorente,
Natalia Carballo,
Estanislao Arana,
Víctor M. Pérez-García

Affiliations

Beatriz Ocaña-Tienda: University of Castilla-La Mancha
Julián Pérez-Beteta: University of Castilla-La Mancha
Juan Jiménez-Sánchez: University of Castilla-La Mancha
David Molina-García: University of Castilla-La Mancha
Ana Ortiz de Mendivil: Sanchinarro University Hospital, HM Hospitales
Beatriz Asenjo: Hospital Regional Universitario de Málaga
David Albillo: MD Anderson Cancer Center
Luis A. Pérez-Romasanta: Salamanca University Hospital
Manuel Valiente: Brain Metastasis Group, Spanish National Cancer Research Centre (CNIO)
Lucía Zhu: Brain Metastasis Group, Spanish National Cancer Research Centre (CNIO)
Pedro García-Gómez: Brain Metastasis Group, Spanish National Cancer Research Centre (CNIO)
Elisabet González-Del Portillo: Hospital Universitario La Paz
Manuel Llorente: MD Anderson Cancer Center
Natalia Carballo: MD Anderson Cancer Center
Estanislao Arana: Fundación Instituto Valenciano de Oncología
Víctor M. Pérez-García: University of Castilla-La Mancha

DOI: https://doi.org/10.1038/s41540-023-00298-1
Journal volume & issue: Vol. 9, no. 1
pp. 1 – 11

Abstract

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Abstract Tumor growth is the result of the interplay of complex biological processes in huge numbers of individual cells living in changing environments. Effective simple mathematical laws have been shown to describe tumor growth in vitro, or simple animal models with bounded-growth dynamics accurately. However, results for the growth of human cancers in patients are scarce. Our study mined a large dataset of 1133 brain metastases (BMs) with longitudinal imaging follow-up to find growth laws for untreated BMs and recurrent treated BMs. Untreated BMs showed high growth exponents, most likely related to the underlying evolutionary dynamics, with experimental tumors in mice resembling accurately the disease. Recurrent BMs growth exponents were smaller, most probably due to a reduction in tumor heterogeneity after treatment, which may limit the tumor evolutionary capabilities. In silico simulations using a stochastic discrete mesoscopic model with basic evolutionary dynamics led to results in line with the observed data.

Published in npj Systems Biology and Applications

ISSN: 2056-7189 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General)
Website: https://www.nature.com/npjsba/

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