There is substantial crosstalk between tumor cells and surrounding stromal cell populations, and the specific microenvironment of a tumor greatly influences progression, malignancy, metastasis, plasticity, and therapeutic response. In this episode, Michael Stürzl, Elisabeth Naschberger, and Andrea Liebl discuss their study, which identifies endothelial cell secretion of the protein SPARCL1 as an important regulator of colorectal cancer aggressiveness. SPARCL1 expression was increased in endothelial cells from normal colon and in tumor endothelial cells that were isolated from patients with a favorable prognosis and dramatically reduced in tumor endothelial cells from patients with aggressive colorectal carcinoma. Together, the results of this study indicate that endothelial cell-derived SPARCL1 promotes an antitumorigenic microenvironment by inducing cell quiescence and limiting angiogenesis.
Different tumor microenvironments (TMEs) induce stromal cell plasticity that affects tumorigenesis. The impact of TME-dependent heterogeneity of tumor endothelial cells (TECs) on tumorigenesis is unclear. Here, we isolated pure TECs from human colorectal carcinomas (CRCs) that exhibited TMEs with either improved (Th1-TME CRCs) or worse clinical prognosis (control-TME CRCs). Transcriptome analyses identified markedly different gene clusters that reflected the tumorigenic and angiogenic activities of the respective TMEs. The gene encoding the matricellular protein SPARCL1 was most strongly upregulated in Th1-TME TECs. It was also highly expressed in ECs in healthy colon tissues and Th1-TME CRCs but low in control-TME CRCs. In vitro, SPARCL1 expression was induced in confluent, quiescent ECs and functionally contributed to EC quiescence by inhibiting proliferation, migration, and sprouting, whereas siRNA-mediated knockdown increased sprouting. In human CRC tissues and mouse models, vessels with SPARCL1 expression were larger and more densely covered by mural cells. SPARCL1 secretion from quiescent ECs inhibited mural cell migration, which likely led to stabilized mural cell coverage of mature vessels. Together, these findings demonstrate TME-dependent intertumoral TEC heterogeneity in CRC. They further indicate that TEC heterogeneity is regulated by SPARCL1, which promotes the cell quiescence and vessel homeostasis contributing to the favorable prognoses associated with Th1-TME CRCs.
Elisabeth Naschberger, Andrea Liebl, Vera S. Schellerer, Manuela Schütz, Nathalie Britzen-Laurent, Patrick Kölbel, Ute Schaal, Lisa Haep, Daniela Regensburger, Thomas Wittmann, Ludger Klein-Hitpass, Tilman T. Rau, Barbara Dietel, Valérie S. Méniel, Alan R. Clarke, Susanne Merkel, Roland S. Croner, Werner Hohenberger, Michael Stürzl