Organ-specific metastases in immunodeficient mice injected with human melanoma cells: a quantitative pathological analysis.

Pathological and morphometric techniques were used to investigate the potential of two human melanoma cell lines for organ colonization in three different immunodeficient mouse strains; nude (nu/nu), NIH triple immunodeficient (TID: nu/nu, bg/bg, xid/xid) and severe combined immunodeficient (SCID) mice. The MM-RU cell line gave rise exclusively to lung metastases, whereas the MM-AN cell line gave rise to lung and extrapulmonary metastases. Although the TID mice showed more pancreatic and brown fat lesions than nude or SCID mice, the overall pattern of distribution of organ metastases among the strains was similar, suggesting that cellular properties intrinsic to the melanoma cells are important for the colonization of specific organs. The metastatic nodules were well circumscribed in all organs and exhibited peripherally located macrophages, except for brain metastases, where a more invasive pattern along vasculature was observed. The differences in cellular infiltrate and infiltrative patterns of the tumors implicate features of the host microenvironment (organ-specific factors) which are, at least in part, independent of the host's genetic background or degree of immunodeficiency. Our findings suggest that intrinsic malignant cellular properties play an important role in organ-specific colonization by haematogenously metastasizing cells.