Platform comparison for evaluation of ALK protein immunohistochemical expression, genomic copy number and hotspot mutation status in neuroblastomas.

Benedict Yan,Malcolm Lim,Eva Loh,Manikandan Lakshmanan,Chik Hong Kuick,Chandana Tennakoon,Vinay Tergaonkar,Derrick Lian,Shui Yen Soh,Wing-Kin Sung,Kavita Venkataraman,May Ying Leong,Kenneth T E Chang,Svetlana Pack

doi:10.1371/journal.pone.0106575

Abstract

ALK is an established causative oncogenic driver in neuroblastoma, and is likely to emerge as a routine biomarker in neuroblastoma diagnostics. At present, the optimal strategy for clinical diagnostic evaluation of ALK protein, genomic and hotspot mutation status is not well-studied. We evaluated ALK immunohistochemical (IHC) protein expression using three different antibodies (ALK1, 5A4 and D5F3 clones), ALK genomic status using single-color chromogenic in situ hybridization (CISH), and ALK hotspot mutation status using conventional Sanger sequencing and a next-generation sequencing platform (Ion Torrent Personal Genome Machine (IT-PGM)), in archival formalin-fixed, paraffin-embedded neuroblastoma samples. We found a significant difference in IHC results using the three different antibodies, with the highest percentage of positive cases seen on D5F3 immunohistochemistry. Correlation with ALK genomic and hotspot mutational status revealed that the majority of D5F3 ALK-positive cases did not possess either ALK genomic amplification or hotspot mutations. Comparison of sequencing platforms showed a perfect correlation between conventional Sanger and IT-PGM sequencing. Our findings suggest that D5F3 immunohistochemistry, single-color CISH and IT-PGM sequencing are suitable assays for evaluation of ALK status in future neuroblastoma clinical trials.

Highlights

ALK is an established causative oncogenic driver in neuroblastomas
We evaluated the performance of a chromogenic in situ hybridization (CISH) assay [9] for ascertaining ALK copy number status
There was a perfect correlation between the results obtained by Ion Torrent Personal Genome Machine (IT-PGM) and Sanger sequencing for all 18 patient samples (3 cases with p.F1174L; 2 cases with p.R1275Q; 13 wild-type) and 3 cell

Summary

Introduction

With a recent phase 1 trial documenting complete response to the ALK inhibitor crizotinib in two patients with neuroblastomas [1], it seems probable that ALK status (whether protein, genomic or both) will emerge as a routine biomarker in neuroblastoma diagnostics. Against this backdrop, we performed a study evaluating the various platforms for ALK protein and genomic status characterization. From a clinical quality management perspective, we were interested to compare the performance of the Ion Torrent Personal Genome Machine (IT-PGM), a benchtop NGS platform, to Sanger sequencing in the detection of ALK mutations occurring at the p.F1174 and p.R1275 hotspots

Materials and Methods

Results

Discussion