Quantitative analysis of activating alpha subunit of the G protein (Gsα) mutation by pyrosequencing in fibrous dysplasia and other bone lesions

Qi Liang, Minqi Wei, Le Ann Hodge, Julie C. Fanburg-Smith, Ann Nelson, Markku Miettinen, Robert D. Foss, Guanghua Wang

Research output: Contribution to journalArticlepeer-review

35 Scopus citations

Abstract

Benign fibro-osseous lesions (BFOLs) frequently display overlapping histological features. The differentiation of fibrous dysplasia (FD) from other BFOLs can be difficult, even for experienced orthopedic pathologists. Accurately distinguishing FD from other BFOLs may have significant clinical and treatment implications. A somatic mutation in gene GNAS encoding the α subunit of the G protein (Gsα) involving the codon corresponding to Arg 201 has been identified in FD and is specifically absent in other BFOLs. We have developed a quantitative assay by pyrosequencing that has a detection sensitivity of 95%. The test allows the identification of the two most common types of mutation (Arg→His and Arg→Cys) in a single reaction, with the ability to analyze other rare mutations. Of the 24 FD cases in this series, 23 (96%) were positive for GNAS/Gsα mutation. Nineteen of 23 positive cases exhibited a G→A mutation (Arg→His), whereas four had a C→T mutation (Arg→Cys). One of three BFOL, not otherwise specified cases was positive for G→A mutation. None of the osteofibrous dysplasia, ossifying fibromas, or other bone lesions were positive for this mutation. Our experience is that pyrose-quencing is an easy and accurate quantification method for Gsα mutation detection in fibrous dysplasia. Mutation analysis of the Gsα by pyrosequencing has significant potential for improving discrimination between FD and other BFOLs in problematic cases.

Original languageEnglish (US)
Pages (from-to)137-142
Number of pages6
JournalJournal of Molecular Diagnostics
Volume13
Issue number2
DOIs
StatePublished - Mar 2011

All Science Journal Classification (ASJC) codes

  • Pathology and Forensic Medicine
  • Molecular Medicine

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