A small pool of stem cells replenishes the human body with about 200 billion new blood cells daily. But the elaborate circuitry that determines if a cell will develop into a T cell, red blood cell, or one of the nine or more other blood cell types remains largely unknown. A research team led by scientists from the Broad Institute and Brigham and Women’s Hospital has taken a systematic approach to help decipher this circuitry, compiling a comprehensive catalog of the factors that determine a blood cell’s fate. Their work appears in the January 21 issue of Cell.
The researchers found that blood cells are directed by a multitude of transcription factors, proteins that turn on and off genes. While many previous studies have focused on individual transcription factors or types of blood cells, this study examined the expression and regulation of all transcription factors throughout blood development. The findings point to densely, interconnected circuits that control this process, suggesting that the wiring for blood cell fate is far more complex than previously thought.
“One assumption in the field had been that there are a small number of transcription factors that orchestrate this process,” said Aviv Regev, a Broad Institute core member and co-senior corresponding author of the study. “Some people have always thought there would be a lot of factors and that it would just take time to find them. It turns out there are more masters than we would have thought.”