Towards a single-assay approach: a combined DNA/RNA sequencing panel eliminates diagnostic redundancy and detects clinically-relevant fusions in neuropathology.

TitleTowards a single-assay approach: a combined DNA/RNA sequencing panel eliminates diagnostic redundancy and detects clinically-relevant fusions in neuropathology.
Publication TypeJournal Article
Year of Publication2022
AuthorsSlocum CC, Park HJin, Baek I, Catalano J, Wells MT, Liechty B, Mathew S, Song W, Solomon JP, Pisapia DJ
JournalActa Neuropathol Commun
Volume10
Issue1
Pagination167
Date Published2022 Nov 17
ISSN2051-5960
KeywordsDNA, Glioma, High-Throughput Nucleotide Sequencing, Humans, Neuropathology, Sequence Analysis, RNA
Abstract

Since the introduction of integrated histological and molecular diagnoses by the 2016 World Health Organization (WHO) Classification of Tumors of the Nervous System, an increasing number of molecular markers have been found to have prognostic significance in infiltrating gliomas, many of which have now become incorporated as diagnostic criteria in the 2021 WHO Classification. This has increased the applicability of targeted-next generation sequencing in the diagnostic work-up of neuropathology specimens and in addition, raises the question of whether targeted sequencing can, in practice, reliably replace older, more traditional diagnostic methods such as immunohistochemistry and fluorescence in-situ hybridization. Here, we demonstrate that the Oncomine Cancer Gene Mutation Panel v2 assay targeted-next generation sequencing panel for solid tumors is not only superior to IHC in detecting mutation in IDH1/2 and TP53 but can also predict 1p/19q co-deletion with high sensitivity and specificity relative to fluorescence in-situ hybridization by looking at average copy number of genes sequenced on 1p, 1q, 19p, and 19q. Along with detecting the same molecular data obtained from older methods, targeted-next generation sequencing with an RNA sequencing component provides additional information regarding the presence of RNA based alterations that have diagnostic significance and possible therapeutic implications. From this work, we advocate for expanded use of targeted-next generation sequencing over more traditional methods for the detection of important molecular alterations as a part of the standard diagnostic work up for CNS neoplasms.

DOI10.1186/s40478-022-01466-w
Alternate JournalActa Neuropathol Commun
PubMed ID36397144
PubMed Central IDPMC9670552
Related Faculty: 
James Solomon, M.D., Ph.D. Benjamin L. Liechty, M.D. David Pisapia, M.D.

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