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Supplementary Table from MIRO2 Regulates Prostate Cancer Cell Growth via GCN1-Dependent Stress Signaling

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posted on 2023-04-03, 20:06 authored by Madison Furnish, Dillon P. Boulton, Victoria Genther, Denisa Grofova, Mitchell Lee Ellinwood, Lina Romero, M. Scott Lucia, Scott D. Cramer, M. Cecilia Caino
Supplementary Table from MIRO2 Regulates Prostate Cancer Cell Growth via GCN1-Dependent Stress Signaling

Funding

ACS

Boettcher Foundation

Office of the Assistant Secretary of Defense for Health Affairs

Prostate Cancer Research Program

NIH

The Cancer League of Colorado

Cancer Center Support Grant

National Cancer Institute

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ARTICLE ABSTRACT

There is a continued need to identify novel therapeutic targets to prevent the mortality associated with prostate cancer. In this context, mitochondrial Rho GTPase 2 (MIRO2) mRNA was upregulated in metastatic prostate cancer compared with localized tumors, and higher MIRO2 levels were correlated with poor patient survival. Using human cell lines that represent androgen-independent or -sensitive prostate cancer, we showed that MIRO2 depletion impaired cell growth, colony formation, and tumor growth in mice. Network analysis of MIRO2′s binding partners identified metabolism and cellular responses to extracellular stimuli as top overrepresented pathways. The top hit on our screen, General Control Nonderepressible 1 (GCN1), was overexpressed in prostate cancer, and interacted with MIRO2 in prostate cancer cell lines and in primary prostate cancer cells. Functional analysis of MIRO2 mutations present in patients with prostate cancer led to the identification of MIRO2 159L, which increased GCN1 binding. Importantly, MIRO2 was necessary for efficient GCN1-mediated GCN2 kinase signaling and induction of the transcription factor activating transcription factor 4 (ATF4) levels. Further, MIRO2′s effect on regulating prostate cancer cell growth was mediated by ATF4. Finally, levels of activated GCN2 and ATF4 were correlated with MIRO2 expression in prostate cancer xenografts. Both MIRO2 and activated GCN2 levels were higher in hypoxic areas of prostate cancer xenografts. Overall, we propose that targeting the MIRO2-GCN1 axis may be a valuable strategy to halt prostate cancer growth. MIRO2/GCN1/GCN2 constitute a novel mitochondrial signaling pathway that controls androgen-independent and androgen-sensitive prostate cancer cell growth.

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