Spontaneous alloreactivity of natural killer (NK) and lymphokine-activated killer (LAK) cells from athymic rats against normal haemic cells. NK cells stimulate syngeneic but inhibit allogeneic haemopoiesis.

We wanted to re-examine the hypotheses that natural killer (NK) cells preferentially react with immature cells, and that they are not directed against major histocompatibility complex (MHC) gene products. Rat marrow cells could be separated according to maturity on a four-step discontinuous density gradient of Percoll. Almost all the immature bone marrow cells with progenitor activity, as measured in vivo in a diffusion chamber assay or in vitro in a granulocyte/macrophage colony-forming assay, resided within the lighter density cell fraction (density approximately 1.065). The higher density cells (density approximately 1.082) contained mainly the more mature, non-proliferative cells within the granulocyte series. NK and lymphokine-activated killer (LAK) cells from athymic rats, being devoid of T cells, efficiently killed low- as well as high-density bone marrow cells from a fully allogeneic and a MHC congenic rat strain, while little or no killing was observed against syngeneic bone marrow cell fractions. LAK cells also effectively inhibited granulocyte/macrophage colony formation from allogeneic bone marrow precursors in vitro, while stimulating colony formation from syngeneic bone marrow cells. The NK-mediated killing of allogeneic bone marrow cells was effectively inhibited by NK-sensitive tumour cells, while there was much less inhibition of the killing of tumour cells by allogeneic bone marrow cells. We conclude that NK cells recognize MHC incompatibilities on both immature and mature allogeneic bone marrow cells through recognition systems not related to T-cell receptors, and that allospecific killing can explain the contrasting effect of NK cells on allogeneic and syngeneic haematopoiesis.