MYC-driven increases in mitochondrial DNA copy number occur early and persist throughout prostatic cancer progression
Jiayu Chen, … , Srinivasan Yegnasubramanian, Angelo M. De Marzo
Jiayu Chen, … , Srinivasan Yegnasubramanian, Angelo M. De Marzo
Published November 16, 2023
Citation Information: JCI Insight. 2023;8(24):e169868. https://doi.org/10.1172/jci.insight.169868.
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Research Article Metabolism Oncology

MYC-driven increases in mitochondrial DNA copy number occur early and persist throughout prostatic cancer progression

Abstract

Increased mitochondrial function may render some cancers vulnerable to mitochondrial inhibitors. Since mitochondrial function is regulated partly by mitochondrial DNA copy number (mtDNAcn), accurate measurements of mtDNAcn could help reveal which cancers are driven by increased mitochondrial function and may be candidates for mitochondrial inhibition. However, prior studies have employed bulk macrodissections that fail to account for cell type–specific or tumor cell heterogeneity in mtDNAcn. These studies have often produced unclear results, particularly in prostate cancer. Herein, we developed a multiplex in situ method to spatially quantify cell type–specific mtDNAcn. We show that mtDNAcn is increased in luminal cells of high-grade prostatic intraepithelial neoplasia (HGPIN), is increased in prostatic adenocarcinomas (PCa), and is further elevated in metastatic castration-resistant prostate cancer. Increased PCa mtDNAcn was validated by 2 orthogonal methods and is accompanied by increases in mtRNAs and enzymatic activity. Mechanistically, MYC inhibition in prostate cancer cells decreases mtDNA replication and expression of several mtDNA replication genes, and MYC activation in the mouse prostate leads to increased mtDNA levels in the neoplastic prostate cells. Our in situ approach also revealed elevated mtDNAcn in precancerous lesions of the pancreas and colon/rectum, demonstrating generalization across cancer types using clinical tissue samples.

Authors

Jiayu Chen, Qizhi Zheng, Jessica L. Hicks, Levent Trabzonlu, Busra Ozbek, Tracy Jones, Ajay M. Vaghasia, Tatianna C. Larman, Rulin Wang, Mark C. Markowski, Sam R. Denmeade, Kenneth J. Pienta, Ralph H. Hruban, Emmanuel S. Antonarakis, Anuj Gupta, Chi V. Dang, Srinivasan Yegnasubramanian, Angelo M. De Marzo

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Figure 1

Multiplex chromogenic ISH for mtDNA and IHC in human prostate.

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Multiplex chromogenic ISH for mtDNA and IHC in human prostate. (A) Whole...
(A) Whole slide scans of each staining round were imported into HALO and registered, followed by color deconvolution, scan fusions and application of pseudocolors to the resultant channels. mtDNA ISH signals are shown in white, epithelial cells (both basal and luminal) stained with CK8 are shown in red, basal cells stained with CK903 are shown in green, and nuclei are shown in blue (hematoxylin channel). (B) Markup image of classifier result showing basal cells (green, present in normal), luminal cells (red, present in normal and at all stages of prostate cancer tumorigenesis), stroma (blue), and empty space/lumens (gray). (C) Image analysis results showing higher mtDNAcn in normal basal cells compared with normal luminal cells. The center line in the box shows the median %mtDNA area in each group. n = 7 regions from 3 patients for each cell type. Mann-Whitney U test, ***P < 0.001. Total original magnification, ×120.