Evidence for a dual role of galectin-3 in murine melanoma growth

Tumors have been described as microenvironments composed not only by malignant cells, but also by endothelial cells, fibroblasts and leukocytes, which can promote tumor growth and angiogenesis. Galectin-3, a b-galactoside binding protein, is expressed by monocytes/macrophages and others leukocytes. In fact, several lines of evidence suggest that galectin-3 act as master regulators of the inflammatory response. Based on the fact that the inflammatory infiltrate can promote tumor progression, the proposal of this study was to evaluate if galectin-3, either from tumor or stromal cells could modulate melanoma growth. Tm1 murine melanoma cell line was transfected with the galectin-3 gene. Both clones (galectin-3 negative and positive) were injected in the foot pad or subcutaneous in female C57BL/6 wild-type (WT) and galectin-3 knock-out (KO) mice to tumor engraftment and growth analysis. There was no difference in the tumor engraftment between animas injected with Tm1 galectin-3 positive or negative cells. In addition, any knock-out mice injected with galectin-3 positive cells had measurable tumors up to day 11 post inoculation. Regardless the galectin-3 expression level in the melanoma cell, tumors from galectin-3 KO mice were smaller than those from WT animals, suggesting that galectin-3 expressed by stromal cells promotes tumor growth. Moreover, tumor necrotic area was smaller in KO mice and in wild-type animals injected with Tm1 galectin-3 positive cells compared to wild type animals injected with Tm1 galectin-3 negative cells. Interestingly, both vascular area and the number of functional vessels in animals injected with galectin-3 positive Tm1 cells were smaller in WT as well as in KO mice compared to the same animals injected with galectin-3 negative Tm1 cells. Gene expression analysis showed that VEGF (vascular endothelial growth factor) mRNA levels were smaller in wild type animals injected with Tm1 galectin-3 positive cells compared to those injected with Tm1 galectin-3 negative cells, indicating that galectin-3 expressed by tumor cells can act as an anti-angiogenic molecule. The present study suggests that galectin-3 can act either as a pro or antitumoral molecule, depending on which type of cell (tumoral or stromal) this lectin is expressed within tumor microenvironment. (AU)