Our understanding of the minimal residual disease (MRD) in solid cancers indicates that it can persist in the system for years or even decades. We now know that the persistence of MRD might depend on the dormancy of the disseminated cancer cells (DCCs). Once DCCs exit dormancy, they become metastatic and the survival rates of the patients inevitably decrease. Thus, innovative treatments are required to extend the asymptomatic phase of MRD after the initial therapeutic intervention. With the latest advances in cancer research, there is a greater need to explore and understand the biology, timing of dissemination, and origin of DCCs during tumor progression. These important aspects of DCCs impact the selection, design, administration, and timing of effective therapies. Herein, we summarize the current understanding of MRD biology in solid tumors, with a focus on epigenetics and pluripotency, presenting an overall view of the direction the field is taking to reach the goal of reducing cancer-related mortalities that result from metastasis.
Keywords: Disseminated cancer cells; Dormancy; Early dissemination; Epigenetics; Metastasis; Minimal residual disease; Pluripotency; Quiescence.