STEM-30. NECROPTOTIC ASTROCYTES CONTRIBUTE TO MAINTAINING STEMNESS OF DISSEMINATED MEDULLOBLASTOMA THROUGH CCL2 SECRETION

Abstract

Abstract Medulloblastoma (MB) with metastases at diagnosis and recurrence correlates with poor prognosis. Unfortunately, the molecular mechanism underlying metastases growth has received less attention than primary therapy-naïve MB. Though astrocytes have been frequently detected in brain tumors, their roles in regulating the stemness properties of MB stem-like cells (MBSCs) in disseminated lesions remain elusive. Effects of tumor-associated astrocytes (TAA)-secreted CCL2 on MBSCs self-renewal was determined by immunostaining analysis. Necroptosis of TAA was examined by measuring necrosome activity. Alterations in Notch signaling were examined after inhibition of CCL2. Progression of MBSCs-derived tumors was evaluated after pharmaceutical blockage of necroptosis. TAA, as the essential components of disseminated tumor, produced high level of CCL2 to shape inflammation microenvironment, which stimulated the enrichment of MBSCs in disseminated MB. In particular, CCL2 played a pivotal role in maintaining stem-like properties via JAK2/STAT3 mediated activation of Notch signaling. Loss of CCL2/CCR2 function repressed JAK2/STAT3-Notch pathway and impaired MBSCs proliferation, leading to a dramatic reduction of stemness, tumorigenicity and metastasizing capability. Furthermore, necroptosis-induced CCL2 release depended on RIP1/RIP3/MLKL activation in TAA, which promoted the oncogenic phenotype. Blockade of necroptosis resulted in CCL2 deprivation and compromised MBSCs self-proliferation, indicating MBSCs outsourced CCL2 from necroptotic TAA. Finally, CCL2 was upregulated in high-risk stages of MB, further supporting its value as a prognostic indicator. These findings highlighted the critical role of CCL2/CCR2 in Notch signaling activation in MBSCs, and revealed a necroptosis-associated glial cytokine microenvironment driving stemness maintenance in disseminations.