Regulation of bone marrow cell survival in short-term cultures: a new macrophage function.

The involvement of macrophages (M phi) in the regulation of bone marrow (BM) cell survival in short-term cultures was studied. We developed a system to measure the survival of fresh BM cells in vitro, by evaluating 111indium (111In) release from prelabeled BM cells. 111In release was proportional to cell death and inversely related to the number of trypan blue excluding cells. Upon 24 hr of culture in conventional medium, more than 50% of BM cells died. In order to investigate whether BM cell death could be reduced by coculture with other cell types, 111In-labeled BM cells were incubated for 24 hr with peritoneal M phi, thymocytes (THY), or polymorphonuclear cells (PMN) and then assayed for their survival. We found that coculture of BM cells with M phi dramatically increased BM survival, whereas THY or PMN consistently failed to enhance BM survival. The ability to promote BM cell survival, here designated nurse activity, represented a novel function of M phi and was further characterized. The stage of activation of M phi did not influence their nurse activity, since M phi elicited in vivo by proteose-peptone, thioglycollate, or Bacillus Calmette-Guérin, as well as resident M phi unstimulated or activated in vitro with lipopolysaccharide, equally sustained survival of BM cells. BM-derived M phi (adherent cells from BM cultures maintained in 20% L-cell-conditioned medium for 14 days) were equally effective in exerting nurse activity. Moreover, nurse activity was also exerted across the histocompatibility barriers. Supernatants from M phi cultures or killed M phi were ineffective. We propose that the nurse effect of M phi on BM is a primitive function that may play an important role in the development of the hemopoietic system.