Universal scaling laws rule explosive growth in human cancers
Perez-Garcia, Victor M.; Calvo, Gabriel F.; Bosque, Jesus J.; Leon-Triana, Odelaisy; Jimenez, Juan; Perez-Beteta, Julian; Belmonte-Beitia, Juan; Valiente, Manuel; Zhu, Lucia; Garcia-Gomez, Pedro; Sanchez-Gomez, Pilar; Hernandez-San Miguel, Esther; Hortiguela, Rafael; Azimzade, Youness; Molina-Garcia, David; Martinez, Alvaro; Acosta Rojas, Angel; Ortiz de Mendivil, Ana; Vallette, Francois; Schucht, Philippe; Murek, Michael; Perez-Cano, Maria; Albillo, David; Martinez, Antonio F. Honguero; Jimenez Londono, German A.; Arana, Estanislao; Garcia Vicente, Ana M.
Publicación: NATURE PHYSICS
2020
VL / 16 - BP / - EP /
abstract
Most physical and other natural systems are complex entities that are composed of a large number of interacting individual elements. It is a surprising fact that they often obey the so-called scaling laws that relate an observable quantity to a measure of the size of the system. Here, we describe the discovery of universal superlinear metabolic scaling laws in human cancers. This dependence underpins increasing tumour aggressiveness, owing to evolutionary dynamics, that leads to an explosive growth as the disease progresses. We validated this dynamic using longitudinal volumetric data of different histologies from large cohorts of patients with cancer. To explain our observations we tested complex, biologically inspired mathematical models that describe the key processes that govern tumour growth. Our models predict that the emergence of superlinear allometric scaling laws is an inherently three-dimensional phenomenon. Moreover, the scaling laws that we identified allowed us to define a set of metabolic metrics with prognostic value, which adds clinical utility to our findings. The authors investigate the relationship between the volume of malignant tumours and their metabolic processes using a large dataset of patients with cancer. They find that cancers follow a superlinear metabolic scaling law, which implies that the proliferation of cancer cells accelerates with increasing volume.
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