1. A MYCN-independent mechanism mediating secretome reprogramming and metastasis in MYCN -amplified neuroblastoma.
- Author
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Zhang HF, Delaidelli A, Javed S, Turgu B, Morrison T, Hughes CS, Yang X, Pachva M, Lizardo MM, Singh G, Hoffmann J, Huang YZ, Patel K, Shraim R, Kung SHY, Morin GB, Aparicio S, Martinez D, Maris JM, Bosse KR, Williams KC, and Sorensen PH
- Subjects
- Humans, N-Myc Proto-Oncogene Protein genetics, Cell Survival, Secretome, Neuroblastoma genetics
- Abstract
MYCN amplification ( MNA ) is a defining feature of high-risk neuroblastoma (NB) and predicts poor prognosis. However, whether genes within or in close proximity to the MYCN amplicon also contribute to MNA
+ NB remains poorly understood. Here, we identify that GREB1 , a transcription factor encoding gene neighboring the MYCN locus, is frequently coexpressed with MYCN and promotes cell survival in MNA+ NB. GREB1 controls gene expression independently of MYCN, among which we uncover myosin 1B ( MYO1B ) as being highly expressed in MNA+ NB and, using a chick chorioallantoic membrane (CAM) model, as a crucial regulator of invasion and metastasis. Global secretome and proteome profiling further delineates MYO1B in regulating secretome reprogramming in MNA+ NB cells, and the cytokine MIF as an important pro-invasive and pro-metastatic mediator of MYO1B activity. Together, we have identified a putative GREB1-MYO1B-MIF axis as an unconventional mechanism promoting aggressive behavior in MNA+ NB and independently of MYCN.- Published
- 2023
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