Plasticity Enables Cooperation among Heterogeneous Cancer Cell Populations to Support Metastatic Fitness

Abstract

The invasive progression of cancer known as metastasis remains strongly associated with morbidity and lethality. New meaningful therapeutic interventions could be derived from a better understanding of the underlying processes driving cancer cell seeding and proliferation at secondary sites. Emerging findings regarding the heterogeneity of cancer cells observed in metastases have led us to revisit concepts surrounding metastatic fitness. Novel model systems to study the markers of cancer stem cell plasticity and their evolution during metastatic growth have uncovered that dynamic and heterogeneous cancer cell populations are observed during metastatic disease progression. Heinz and colleagues studied the heterogeneity of colorectal carcinomas, where primary tumors evolve alongside an epithelium well characterized for its self-renewing stem cell population. Their work revealed a functional dynamic interplay in the organization of the metastatic lesions as they transition from stagnating to expanding nodules, wherein the heterogeneous mixture of cancer cell stem cells with more differentiated cancer cells is essential for metastatic outgrowth. Their work supports that dynamic YAP signaling enables the growth-permissive heterogeneous composition of the metastatic nodule, in contrast with growth-restricted homogeneous compositions.