High-resolution analyses of two different classes of tumor cells in situ tagged with alternative histochemical marker genes.

To evaluate interactions of two different tumor cell classes during the establishment of micrometastases at the single-cell level, two different BALB/c 3T3 tumor cell derivatives were established that harbor different histochemical marker genes: bacterial lacZ in a EJ-Harvey ras transformant (abbreviated LZEJ cells) and human placental alkaline phosphatase (ALP) gene in a human c-sis transformant (APSI cells). Several different histochemical staining methods were evaluated, using the distinctiveness of lacZ and ALP gene activities, for identification of these cell classes singly or together in the lung after their intravenous injection into nude mice. LZEJ and APSI cells could readily be distinguished from each other after co-injection by using specific and sequential staining protocols of whole organs or sections; staining of host organ cells was minimized. Co-injection of the two tumor cell classes resulted in similar numbers of homogeneous microfoci in lungs of LZEJ or APSI cells within minutes after injection that persisted for several hours before clearance of most of them. Furthermore, a significant percentage of foci could be identified containing both classes of tumor cells on whole-organ or section evaluations; these cohabiting foci resisted clearance from lungs. Therefore, use of two different histochemical marker genes to tag different classes of tumor cells provides a powerful approach for determining their in situ co-localization, cooperation, or interference with the establishment and development of micrometastases, as well as an opportunity to evaluate gene regulation in situ at the single-cell level.