Maritza S Mosella1,2, Thais S Sabedot1, Tiago C Silva2, Tathiane M Malta1, Felipe Segato Dezem2, Karam P Asmaro3, Michael Wells1, Abir Mukherjee4, Laila M Poisson1,5, James Snyder1, Ana C deCarvalho1, Tobias Walbert1, Todd Aho6, Steven Kalkanis3, Paula C Elias7, Sonir R Antonini8, Jack Rock3, Houtan Noushmehr1,2, Margaret Castro7, Ana Valeria Castro1. 1. Hermelin Brain Tumor Center, Henry Ford Cancer Institute, Henry Ford Health System, Detroit, Michigan, USA. 2. Department of Genetics, Ribeirao Preto Medical School, University of São Paulo, Ribeirao Preto, Sao Paulo, Brazil. 3. Department of Neurosurgery, Henry Ford Health System, Detroit, Michigan, USA. 4. Department of Pathology, Henry Ford Health System, Detroit, Michigan, USA. 5. Center for Bioinformatics, Department of Public Health Sciences, Henry Ford Health System, Detroit, Michigan, USA. 6. Department of Radiology, Henry Ford Health System, Detroit, Michigan, USA. 7. Internal Medicine Department, Ribeirao Preto Medical School, University of São Paulo, Ribeirao Preto, Sao Paulo, Brazil. 8. Department of Pediatrics, Ribeirao Preto Medical School, University of São Paulo, Ribeirao Preto, Brazil.
Abstract
BACKGROUND: Distinct genome-wide methylation patterns cluster pituitary neuroendocrine tumors (PitNETs) into molecular groups associated with specific clinicopathological features. Here we aim to identify, characterize, and validate methylation signatures that objectively classify PitNET into clinicopathological groups. METHODS: Combining in-house and publicly available data, we conducted an analysis of the methylome profile of a comprehensive cohort of 177 tumors (Panpit cohort) and 20 nontumor specimens from the pituitary gland. We also retrieved methylome data from an independent PitNET cohort (N = 86) to validate our findings. RESULTS: We identified three methylation clusters associated with adenohypophyseal cell lineages and functional status using an unsupervised approach. Differentially methylated probes (DMP) significantly distinguished the Panpit clusters and accurately assigned the samples of the validation cohort to their corresponding lineage and functional subtypes memberships. The DMPs were annotated in regulatory regions enriched with enhancer elements, associated with pathways and genes involved in pituitary cell identity, function, tumorigenesis, and invasiveness. Some DMPs correlated with genes with prognostic and therapeutic values in other intra- or extracranial tumors. CONCLUSIONS: We identified and validated methylation signatures, mainly annotated in enhancer regions that distinguished PitNETs by distinct adenohypophyseal cell lineages and functional status. These signatures provide the groundwork to develop an unbiased approach to classifying PitNETs according to the most recent classification recommended by the 2017 WHO and to explore their biological and clinical relevance in these tumors.
BACKGROUND: Distinct genome-wide methylation patterns cluster pituitary neuroendocrine tumors (PitNETs) into molecular groups associated with specific clinicopathological features. Here we aim to identify, characterize, and validate methylation signatures that objectively classify PitNET into clinicopathological groups. METHODS: Combining in-house and publicly available data, we conducted an analysis of the methylome profile of a comprehensive cohort of 177 tumors (Panpit cohort) and 20 nontumor specimens from the pituitary gland. We also retrieved methylome data from an independent PitNET cohort (N = 86) to validate our findings. RESULTS: We identified three methylation clusters associated with adenohypophyseal cell lineages and functional status using an unsupervised approach. Differentially methylated probes (DMP) significantly distinguished the Panpit clusters and accurately assigned the samples of the validation cohort to their corresponding lineage and functional subtypes memberships. The DMPs were annotated in regulatory regions enriched with enhancer elements, associated with pathways and genes involved in pituitary cell identity, function, tumorigenesis, and invasiveness. Some DMPs correlated with genes with prognostic and therapeutic values in other intra- or extracranial tumors. CONCLUSIONS: We identified and validated methylation signatures, mainly annotated in enhancer regions that distinguished PitNETs by distinct adenohypophyseal cell lineages and functional status. These signatures provide the groundwork to develop an unbiased approach to classifying PitNETs according to the most recent classification recommended by the 2017 WHO and to explore their biological and clinical relevance in these tumors.
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Authors: Grayson A Herrgott; Karam P Asmaro; Michael Wells; Thais S Sabedot; Tathiane M Malta; Maritza S Mosella; Kevin Nelson; Lisa Scarpace; Jill S Barnholtz-Sloan; Andrew E Sloan; Warren R Selman; Ana C deCarvalho; Laila M Poisson; Abir Mukherjee; Adam M Robin; Ian Y Lee; James Snyder; Tobias Walbert; Mark Rosenblum; Tom Mikkelsen; Arti Bhan; John Craig; Steven Kalkanis; Jack Rock; Houtan Noushmehr; Ana Valeria Castro Journal: Neuro Oncol Date: 2022-07-01 Impact factor: 13.029