Control of normal differentiation of myeloid leukemic cells. XI. Induction of a specific requirement for cell viability and growth during the differentiation of myeloid leukemic cells

## Abstract It is shown that the competence of differentiation‐defective clones of mouse myeloid leukemic cells (MGI^−^D^−^ clones) to be induced for some differentiation‐associated properties can be modulated. For certain inducers this was effected by changing the type of serum and for another ind

## Abstract An enriched population of early myeloid cells has been obtained from normal mouse bone marrow by injection of mice with sodium caseinate and the removal of cells with C3 (EAC) rosettes by Ficoll‐Hypaque density centrifugation. This enriched population had no EAC or Fc (EA) rosettes and

## Abstract Sera from different strains of mice injected with endotoxin induced clones (D^+^) from a cultured line of myeloid leukemic cells to undergo normal differentiation to mature granulocytes and macrophages. Other clones (D^−^) derived from the same cell line were not inducible by these sera

## Abstract There are three types of myeloid leukemic cells, IR^+^D^+^, IR^+^D^−^ and IR^−^D^−^. IR^+^D^+^ cells were induced to differentiate to granulocytes in mass culture in liquid medium by conditioned medium (CM) from cultures of lungs from mice injected with endotoxin. About 90% of the leuke

## Abstract A line of mouse myeloid leukemic cells in culture contained two types of clones. One type can be induced by the differentiation‐inducing protein MGI to undergo normal differentiation to mature macrophages and granulocytes (D^+^ clones), whereas the other type could not be induced to dif

## Abstract D^+^ but not D^−^ myeloid leukemic cells can be induced by the appropriate conditioned medium or by serum from endotoxin treated mice, to undergo cell migration in agar, cell attachment to the surface of a Petri dish and differentiation to mature macrophages and granulocytes. Inhibition