Despite the development of combined modality treatments against liposarcoma (LPS) in recent years, a significant proportion of patients respond only modestly to such approaches, possibly contributing to local or distant recurrence. Early detection of recurrent or metastatic disease could improve patient prognosis by triggering earlier clinical intervention. However, useful biomarkers for such purposes are lacking. Using both patient plasma samples and cell lines, we demonstrate here that miR-25–3p and miR-92a-3p are secreted by LPS cells through extracellular vesicles and may be useful as potential biomarkers of disease. Both miR-25–3p and miR-92a-3p stimulated secretion of pro-inflammatory cytokine IL-6 from tumor-associated macrophages (TAM) in a TLR7/8-dependent manner, which in turn promoted LPS cell proliferation, invasion, and metastasis via this interaction with the surrounding microenvironment. Our findings provide novel and previously unreported insight into LPS progression, identifying communication between LPS cells and their microenvironment as a process critically involved in LPS progression. This study establishes the possibility that the pattern of circulating miRNAs may identify recurrence prior to radiological detectability while providing insight into disease outcome and as a possible approach to monitor treatment efficacy. Precis: Two extracellular vesicle-derived microRNAs are found to drive liposarcoma progression by stimulating the secretion of pro-inflammatory IL-6 from tumor-associated macrophages, offering new theranostic opportunities in this cancer setting.
Dedifferentiated liposarcoma (DDLPS) is frequently diagnosed late, and patients typically respond poorly to treatments. DDLPS is molecularly characterized by wild-type p53 and amplification of the MDM2 gene, which results in overexpression of MDM2 protein, a key oncogenic process in DDLPS. In this study, we demonstrate that extracellular vesicles derived from patients with DDLPS or from DDLPS cell lines are carriers of MDM2 DNA that can be transferred to preadipocytes, a major and ubiquitous cellular component of the DDLPS tumor microenvironment, leading to impaired p53 activity in preadipocytes and increased proliferation, migration, and production of matrix metalloproteinase 2; treatment with MDM2 inhibitors repressed these effects. Overall, these findings indicate that MDM2 plays a crucial role in DDLPS by enabling cross-talk between tumor cells and the surrounding microenvironment and that targeting vesicular MDM2 could represent a therapeutic option for treating DDLPS.Significance: Extracellular vesicles derived from dedifferentiated liposarcoma cells induce oncogenic properties in preadipocytes.
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