The effect of deactivation or silencing of tumor stroma with angiogenesis inhibitor on malignancy of tumor metastases

Abstract: Background: Neuroblastoma (NB) is a pediatric tumor in infants and young children. The survival rate is only around 50 percent for high-risk NB despite advanced and intense multi-modal therapy. Current research aims to find new effective treatment additional to modern therapy to improve prognosis of high-risk NB in children. As such, SU11248 may be a valuable approach for improving treatment and survival as growth factors have crucial roles in tumor growth, angiogenesis, and metastasis. Aim: The aim of this investigation was to examine tissues from SU11248 treated and nontreated tumor-bearing animals on the abundance of tumor-associated macrophages (TAMs) in metastases found on vital organs. Our hypothesis is that if SU11248 could cause “deactivation” or “silencing” of the stroma of metastases particularly by acting on stromal immune cells such as TAMs. Methods: Paraffin-embedded metastases developed in an orthotopic xenograft model in beige SCID mice were stained with a monoclonal rat anti-mouse antibody as a marker of TAMs. Morphological analysis of tissue slides, and macrophage quantification was performed using a microscope. Statistical analysis was achieved using an unpaired two tailed t-test.  Results: Macrophages were stained nicely, but the number of macrophages in the metastases were not statistically different between the vehicle treated controls and SU11248 treated metastases. Conclusion: In patients with high-risk NB, SU11248 may be a useful therapeutic supplement. We believe that further research into mechanisms that target critical factors for angiogenesis and metastasis in NB, such as TAMs, is an important step toward improving patient outcomes in high-risk NB.