The stroma surrounding many malignant tumors resembles granulation tissue. To test the hypothesis that such stroma stimulates tumor invasiveness, we compared, by electron microscopy and immunohistochemistry, the growth patterns of CC531 rat colon adenocarcinoma in 2 experimental situations: (i) after transplantation into the undisturbed subcutaneous connective tissue of rats, and (ii) after transplantation into experimentally induced subcutaneous granulation tissue in rats. For the latter experimental situation, a subcutaneous "tissue chamber" was designed allowing fragments of tumor tissue to be transplanted into the very center of developing granulation tissue. In the undisturbed subcutaneous tissue, the whole tumor was generally encapsulated, and the tumor cells were arranged in compact groups with a strong tendency to form acini. In the pre-formed granulation tissue, on the other hand, the tumor tissue closely matched descriptions of invasive colon carcinomas in the literature and met the criteria for the "invasive morphotype". In this situation, the tumor consisted of thin, unorganized, widely dispersed strands of irregular tumor cells with numerous protrusions that deeply penetrated the surrounding matrix. Our results show that an invasive morphotype can be evoked by pre-inducing granulation tissue at the transplantation site.
We have previously reported that an invasive morphotype can be evoked in a rat colon carcinoma by transplanting it into pre-induced subcutaneous granulation tissue. We have now studied the interaction of the same tumor with liver tissue, which is extremely poor in connective tissue in comparison with the subcutaneous site. Tumor cells were injected into the portal system and the resulting experimental liver metastases were examined by electron microscopy and immunohistochemistry. Early metastases consisted of well-differentiated acini, fully surrounded by connective tissue that was derived from the periportal stroma. In a later stage, this connective tissue was overgrown by tumor cells and, almost immediately, acinar differentiation was lost. Most metastases eventually reached the liver capsule, which reacted by forming a layer of granulation tissue. Only in this layer, we observed invasion by thin tumor cell strands, which were often intimately associated with fibroblasts or with blood capillaries. The tumor cells remained smooth and rounded during this process. After fully penetrating the granulation tissue, the tumor cell strands reached the liver surface, where they formed poorly structured papillary masses that were nearly devoid of stroma. Our observations indicate that, even in a relatively homogeneous organ like the liver, the tumor-host interaction is highly complex and dynamic. They also confirm the notion that granulation tissue stimulates tumor invasiveness. Finally, they show that tumor cells can actively invade host tissues without exhibiting a "fibroblastic" morphology.
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