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Correlation of methylthioadenosine phosphorylase (MTAP) protein expression with <i>MTAP</i> and <i>CDKN2A</i> copy number in malignant pleural mesothelioma

David B. Chapel, Adrian M. Dubuc, Jason L. Hornick, Lynette M. Sholl

2021Histopathology41 citationsDOI

Abstract

AIMS: Methylthioadenosine phosphorylase (MTAP) immunohistochemical expression is a specific marker of CDKN2A deletion in malignant mesothelioma. However, the relationship of MTAP expression with MTAP copy number remains unexplored. METHODS AND RESULTS: Forty malignant pleural mesotheliomas were characterised by targeted next-generation sequencing (29), single-nucleotide polymorphism microarray (seven), or both (four). MTAP and CDKN2A copy numbers were correlated with MTAP expression. Twenty-seven (68%) tumours showed CDKN2A deletion (14 heterozygous; 13 homozygous), of which 20 (74%) showed MTAP codeletion (15 heterozygous; five homozygous). No tumours showed MTAP deletion without CDKN2A codeletion. Loss of MTAP expression was seen in 16 (40%) tumours, and was 75% sensitive and 95% specific for MTAP deletion, and 59% sensitive and 100% specific for CDKN2A deletion. Nine of 40 (23%) tumours showed heterogeneous MTAP staining, and the percentage of tumour cells with MTAP loss correlated with molecular detection of MTAP deletion. CONCLUSIONS: MTAP is frequently codeleted with CDKN2A in pleural mesothelioma. However, homozygous deletion of both genes occurs in a minority of tumours (5/40; 13%); CDKN2A deletion often co-occurs with heterozygous MTAP deletion or neutral MTAP copy number; and MTAP expression correlates inconsistently with heterozygous MTAP deletion. Correspondingly, MTAP immunohistochemistry is a highly specific but only moderately sensitive assay for CDKN2A deletion.

Topics & Concepts

CDKN2AMesotheliomaImmunohistochemistryLoss of heterozygosityCancer researchTissue microarrayBiologyCopy-number variationPathologyMolecular biologyMedicineGeneGeneticsAlleleGenomePolyamine Metabolism and ApplicationsFolate and B Vitamins ResearchPeptidase Inhibition and Analysis