Abstract
<div>Abstract<p>The angiopoietin (Angpt)–TIE signaling pathway controls vascular maturation and maintains the quiescent phenotype of resting vasculature. The contextual agonistic and antagonistic Tie2 ligand ANGPT2 is believed to be exclusively produced by endothelial cells, disrupting constitutive ANGPT1–TIE2 signaling to destabilize the microvasculature during pathologic disorders like inflammation and cancer. However, scattered reports have also portrayed tumor cells as a source of ANGPT2. Employing ISH-based detection of <i>ANGPT2</i>, we found strong tumor cell expression of <i>ANGPT2</i> in a subset of patients with melanoma. Comparative analysis of biopsies revealed a higher fraction of <i>ANGPT2</i>-expressing tumor cells in metastatic versus primary sites. Tumor cell–expressed <i>Angpt2</i> was dispensable for primary tumor growth, yet in-depth analysis of primary tumors revealed enhanced intratumoral necrosis upon silencing of tumor cell <i>Angpt2</i> expression in the absence of significant immune and vascular alterations. Global transcriptional profiling of <i>Angpt2</i>-deficient tumor cells identified perturbations in redox homeostasis and an increased response to cellular oxidative stress. Ultrastructural analyses illustrated a significant increase of dysfunctional mitochondria in <i>Angpt2</i>-silenced tumor cells, thereby resulting in enhanced reactive oxygen species (ROS) production and downstream MAPK stress signaling. Functionally, enhanced ROS in <i>Angpt2</i>-silenced tumor cells reduced colonization potential <i>in vitro</i> and <i>in vivo</i>. Taken together, these findings uncover the hitherto unappreciated role of tumor cell–expressed ANGPT2 as an autocrine-positive regulator of metastatic colonization and validate ANGPT2 as a therapeutic target for a well-defined subset of patients with melanoma.</p>Significance:<p>This study reveals that tumor cells can be a source of ANGPT2 in the tumor microenvironment and that tumor cell-derived ANGPT2 augments metastatic colonization by protecting tumor cells from oxidative stress.</p></div>
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