posted on 2023-03-31, 02:46authored bySaurabh V. Laddha, Edaise M. da Silva, Kenneth Robzyk, Brian R. Untch, Hua Ke, Natasha Rekhtman, John T. Poirier, William D. Travis, Laura H. Tang, Chang S. Chan
Differentially methylated CpG probes and CpG islands
Funding
Starr Cancer Consortium
Raymond and Beverly Sackler Foundation
Caring for Carcinoid Foundation
Mushett Family Foundation
MSKCC
National Science Foundation
Biomedical Informatics shared resource of Rutgers Cancer Institute of New Jersey
National Institutes of Health
History
ARTICLE ABSTRACT
Lung carcinoids (LC) are rare and slow growing primary lung neuroendocrine tumors. We performed targeted exome sequencing, mRNA sequencing, and DNA methylation array analysis on macro-dissected LCs. Recurrent mutations were enriched for genes involved in covalent histone modification/chromatin remodeling (34.5%; MEN1, ARID1A, KMT2C, and KMT2A) as well as DNA repair (17.2%) pathways. Unsupervised clustering and principle component analysis on gene expression and DNA methylation profiles showed three robust molecular subtypes (LC1, LC2, LC3) with distinct clinical features. MEN1 gene mutations were found to be exclusively enriched in the LC2 subtype. LC1 and LC3 subtypes were predominately found at peripheral and endobronchial lung, respectively. The LC3 subtype was diagnosed at a younger age than LC1 and LC2 subtypes. IHC staining of two biomarkers, ASCL1 and S100, sufficiently stratified the three subtypes. This molecular classification of LCs into three subtypes may facilitate understanding of their molecular mechanisms and improve diagnosis and clinical management.
Integrative genomic analysis of lung carcinoids identifies three novel molecular subtypes with distinct clinical features and provides insight into their distinctive molecular signatures of tumorigenesis, diagnosis, and prognosis.