Culture of C57BL bone marrow cells in the absence of GM-CSF led to a loss of recoverable granulocyte-macrophage colony-forming cells of 2% per hour. The rate of loss of progenitor cells in cultures of CBA fetal liver cells was 5-6% per hour. Surviving colony-forming cells exhibited a normal responsiveness to GM-CSF but generated smaller colonies than normal when subsequently stimulated by GM-CSF. Transfer of washed individual day-3 granulocyte-macrophage colony cells to cultures lacking GM-CSF indicated that most cells were unable to survive or proliferate in the absence of GM-CSF. Death of transferred cells was rapid and invariable when the cells were from macrophage-forming colonies. However some cells from 40-70% of granulocyte-forming colonies were able to undergo one or two divisions in the absence of GM-CSF. This phenomenon was seen most often with cells from colonies where matching colony cells exhibited a higher-than-average proliferative capacity in parallel stimulated cultures. The results indicate the difficulty that will be encountered in obtaining valid metabolic data from unstimulated populations of granulocyte-macrophage precursor cells. The ability of some granulocyte precursor cells to exhibit limited proliferation following GM-CSF deprivation suggests that significant amounts of GM-CSF may be bound to or be internalized in some precursor cells and result in cell division in the absence of GM-CSF from culture medium.