posted on 2023-03-31, 20:41authored byDipika R. Mohan, Antonio Marcondes Lerario, Tobias Else, Bhramar Mukherjee, Madson Q. Almeida, Michelle Vinco, Juilee Rege, Beatriz M. P. Mariani, Maria Claudia N. Zerbini, Berenice B. Mendonca, Ana Claudia Latronico, Suely K. N. Marie, William E. Rainey, Thomas J. Giordano, Maria Candida B. V. Fragoso, Gary D. Hammer
This compiled PDF includes Supplementary Tables S3, S4, S6, S7, and S8, as follows: Supp. Table S3. G0S2 hypermethylation predicts CIMP-high. Supp. Table S4. Clinical characteristics of FMUSP+UM ACC and ACA Cohorts. Supp. Table S6. EpiTect accurately measures binary G0S2 methylation status. Supp. Table S7. Hypermethylation and silencing of G0S2 is heterogeneous in recurrent, metastatic, and non-treatment naive carcinomas. Supp. Table S8. BUB1B-PINK1 can predict any history of metastasis in patients with G0S2 Unmethylated ACC.
Funding
NIH
University of Michigan Medical Scientist Training
History
ARTICLE ABSTRACT
Adrenocortical carcinoma (ACC) is a rare, aggressive malignancy with few therapies; however, patients with locoregional disease have variable outcomes. The Cancer Genome Atlas project on ACC (ACC-TCGA) identified that cancers of patients with homogeneously rapidly recurrent or fatal disease bear a unique CpG island hypermethylation phenotype, “CIMP-high.” We sought to identify a biomarker that faithfully captures this subgroup.Experimental Design: We analyzed ACC-TCGA data to characterize differentially regulated biological processes, and identify a biomarker that is methylated and silenced exclusively in CIMP-high ACC. In an independent cohort of 114 adrenocortical tumors (80 treatment-naive primary ACC, 22 adrenocortical adenomas, and 12 non-naive/nonprimary ACC), we evaluated biomarker methylation by a restriction digest/qPCR-based approach, validated by targeted bisulfite sequencing. We evaluated expression of this biomarker and additional prognostic markers by qPCR.
We show that CIMP-high ACC is characterized by upregulation of cell cycle and DNA damage response programs, and identify that hypermethylation and silencing of G0S2 distinguishes this subgroup. We confirmed G0S2 hypermethylation and silencing is exclusive to 40% of ACC, and independently predicts shorter disease-free and overall survival (median 14 and 17 months, respectively). Finally, G0S2 methylation combined with validated molecular markers (BUB1B-PINK1) stratifies ACC into three groups, with uniformly favorable, intermediate, and uniformly dismal outcomes.
G0S2 hypermethylation is a hallmark of rapidly recurrent or fatal ACC, amenable to targeted assessment using routine molecular diagnostics. Assessing G0S2 methylation is straightforward, feasible for clinical decision-making, and will enable the direction of efficacious adjuvant therapies for patients with aggressive ACC.