MYC regulates CSF1 expression via microRNA 17/20a to modulate tumor-associated macrophages in osteosarcoma
Bikesh K. Nirala, Tajhal D. Patel, Lyazat Kurenbekova, Ryan Shuck, Atreyi Dasgupta, Nino Rainusso, Cristian Coarfa, Jason T. Yustein
Bikesh K. Nirala, Tajhal D. Patel, Lyazat Kurenbekova, Ryan Shuck, Atreyi Dasgupta, Nino Rainusso, Cristian Coarfa, Jason T. Yustein
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Research Article Oncology

MYC regulates CSF1 expression via microRNA 17/20a to modulate tumor-associated macrophages in osteosarcoma

Abstract

Osteosarcoma (OS) is the most common primary bone tumor of childhood. Approximately 20%–30% of OSs carry amplification of chromosome 8q24, which harbors the oncogene c-MYC and correlates with a poor prognosis. To understand the mechanisms that underlie the ability of MYC to alter both the tumor and its surrounding tumor microenvironment (TME), we generated and molecularly characterized an osteoblast-specific Cre-Lox-Stop-Lox-c-MycT58A p53fl/+ knockin genetically engineered mouse model (GEMM). Phenotypically, the Myc-knockin GEMM had rapid tumor development with a high incidence of metastasis. MYC-dependent gene signatures in our murine model demonstrated significant homology to the human hyperactivated MYC OS. We established that hyperactivation of MYC led to an immune-depleted TME in OS demonstrated by the reduced number of leukocytes, particularly macrophages. MYC hyperactivation led to the downregulation of macrophage colony-stimulating factor 1, through increased microRNA 17/20a expression, causing a reduction of macrophage population in the TME of OS. Furthermore, we developed cell lines from the GEMM tumors, including a degradation tag–MYC model system, which validated our MYC-dependent findings both in vitro and in vivo. Our studies utilized innovative and clinically relevant models to identify a potentially novel molecular mechanism through which MYC regulates the profile and function of the OS immune landscape.

Authors

Bikesh K. Nirala, Tajhal D. Patel, Lyazat Kurenbekova, Ryan Shuck, Atreyi Dasgupta, Nino Rainusso, Cristian Coarfa, Jason T. Yustein

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Figure 3

MYC suppresses immune cell infiltration into the OS TME.

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MYC suppresses immune cell infiltration into the OS TME. (A) Relative mR...
(A) Relative mRNA expression was analyzed by the RNA-Seq, demonstrating reduced Ptprc (Cd45) mRNA expression in Myc-knockin (n = 5) tumors compared with p53-driven (n = 4) tumor samples. (B) Protein expression analyzed by the total proteome analysis using mass spectroscopy demonstrating reduced PTPRC (CD45) protein in Myc-knockin tumors compared with p53- driven tumor sample. (C) IHC staining with CD45 in the paraffin-embedded tumor tissue samples showing lower expression in the Myc-knockin tumors (right panel) compared with p53-driven tumor (left panel) GEMMs. (D) Negative correlation between the MYC and PTPRC mRNA expression in human OS TARGET data set patients. (E) Kaplan-Meier curve of human OS TARGET data set for PTPRC expression with top quartile or bottom quartile samples. (F) Distribution of macrophage population in the tumor tissue sample of the Myc-knockin (n = 4) and p53-driven (n = 4) GEMMs analyzed by CIBERSORT. (G) Relative mRNA expression analyzed by RNA-Seq demonstrating reduced Cd68 mRNA expression in Myc-knockin (n = 5) tumors compared with p53-driven (n = 4) tumor samples. (H) IHC staining with F4/80 (macrophage marker) in the paraffin-embedded GEMM tumor tissue samples showing lower expression in the Myc-knockin tumors (right panel) compared with the p53-driven tumor (left panel). IHC images were captured at 20× original magnification. Inset images are original magnification, 80×. (I) Negative correlation between the MYC and CD68 mRNA expression in human OS TARGET data set patients. (J) Kaplan-Meier curve of human OS TARGET data set for CD68 expression with top quartile or bottom quartile samples. (K) Relative immune cell populations (hematopoietic CD45+) in the syngeneic mouse tumor tissue samples analyzed by FACSymphony. (L) Relative macrophage populations (% of total CD45+ cells) in the syngeneic mouse tumor tissue samples analyzed by FACSymphony. *P < 0.05, **P < 0.01, ****P < 0.0001; log-rank (Mantel-Cox) test was performed for the Kaplan-Meier analyses.