Cell Fate Decisions: The Role of Transcript on Factors in Early B-cell Development and Leukemia

B cells are an integral part of the adaptive immune system and regulate innate immunity. Derived from hematopoietic stem cells, B cells mature through a series of cell fate decisions. Complex transcriptional circuits form and dissipate dynamically during these lineage restrictions. Genomic aberrations of involved transcription factors underlie various B-cell disorders. Acquired somatic aberrations are associated with cancer, whereas germline variations predispose to both malignant and nonmalignant diseases. We review the opposing role of transcription factors during B-cell development in health and disease. We focus on early B-cell leukemia and discuss novel causative gene-environment cooperation and their implications for precision medicine. Childhood leukemia is frequently initiated during fetal hematopoiesis. Clinical silent preleukemic clones are detectable in cord blood of a large number of healthy newborns. These predisposing alterations cooperate with environmental factors to trigger leukemia onset. Understanding of the underlying principles is a prerequisite for the development of measures to prevent leukemia in children.