Autocrine motility factor induces differential 12-lipoxygenase expression and activity in high- and low-metastatic K1735 melanoma cell variants.

A M(r) 55,000 tumor cell-secreted cytokine has been described which influenced the migration of the producing cells and was called autocrine motility factor (AMF). Activation of the cell surface receptor for AMF (gp78) was shown to stimulate production of a 12-lipoxygenase metabolite of arachidonic acid, 12-(S)-hydroxyeicosatetraenoic acid [12-(S)-HETE], in highly metastatic murine melanoma cells. AMF stimulated the motility of the high-metastatic (K1735-M1) but not the low-metastatic variant (K1735-Cl.11) of the K1735 murine melanoma and increased expression of the 12-lipoxygenase enzyme predominantly in the high-metastatic counterpart. The K1735-M1 cells responded to motile stimulation with increased endogenous 12-(S)-HETE production, and, reciprocally, exogenous 12-(S)-HETE up-regulated surface gp78 and caused gp78 translocation from an intracellular perinuclear pool to tubulovesicles which extended to the cell periphery in the K1735-M1 cells exclusively. These results suggest that differences in AMF responses may be due to alterations in the capacity of low-metastatic cells to transduce signals through 12-lipoxygenase or to involve downstream effector(s) of 12-(S)-HETE after gp78 activation.