The validation of a novel method combining both HER2 immunohistochemistry and HER2 dual-colour silver in situ hybridization on one slide for gastric carcinoma testing

The HER2 oncogene (also referred to as HER2/neu or ERBB-2) on chromosome 17q21, encodes a 185-kD transmembrane tyrosine kinase receptor that belongs to the epidermal growth factor receptor (EGFR) family comprised of EGFR/HER1, HER2, HER3, and HER4. HER2 activation plays a central role in cell proliferation and survival, largely mediated through the RAS–MAPK pathway. It also inhibits cell death through the phosphatidylinositol 3'-kinase–AKT–mammalian target of rapamycin (mTOR) pathway. HER2 overexpression has been reported in a variety of solid tumors [1‐7]. Gene amplifications are rare in other diseases and anti-HER2 therapy is currently validated only in breast and gastric cancers.

Based on the results of the ToGA trial [8], trastuzumab was approved for metastatic adenocarcinoma of the stomach and gastroesophageal junction in combination therapy in the US and Europe. Requirement is proof of HER2 overexpression. In Europe, this is defined by an IHC 3+ result or an IHC 2+ and positive FISH or SISH result (ratio ≥ 2.0). IHC was considered the primary method because IHC negative or weekly positive (1+) patients did not benefit from trastuzumab in the ToGA trial, although they were ISH positive. In the literature, however, there is considerable variation in the immunohistochemical positivity determined. Here, the percentage of HER2 positive advanced gastric adenocarcinomas varies from study to study, from 5% to 30% [9], most likely due to different analysis protocols and interpretation criteria.

Prospective substudies from two of the adjuvant randomized trials of trastuzumab versus nil in breast cancer demonstrated that approximately 20% of HER2 assays performed at on-site institutions (at the primary treatment site’s pathology department) were incorrect when the same specimen was re-evaluated in a high volume, central laboratory [10, 11].

Unlike breast cancer, the histopathology of gastric cancer in terms of HER2 is considered to be more heterogeneous and focal overexpression of gene amplification is frequently observed [12]. Therefore, difficulties in determining the HER2 status are expected to be more pronounced than in breast cancer. Overall, taken these results into account, more reliable, reproducible and time sparing methods for assessing the HER2 status in gastric cancer are needed. Only few published studies combining IHC and in situ hybridization methods (but not SISH) on one slide have been conducted [13‐16]. Theses studies utilized standard IHC and chromogenic or fluorescence in situ hybridization (CISH or FISH) as single methods and compared them with a simultaneous analysis (combined on one slide) and found good concordance with results of single staining. To the best of our knowledge, however, there are no studies that directly compare results of both immunohistochemistry (IHC) and silver in situ hybridization (SISH) when each is used separately with the results of using them in combination on a single section in gastric carcinomas.

In the present study, the HER2 protein expression and gene amplification status of 100 gastric adenocarcinomas and carcinomas of the esophagogastric junction were examined by conventional IHC and ISH single methods (IHC/SISH) and in parallel by the novel method combining both methods (gene/protein). The aim of this study was to evaluate the equivalence of the new gene-protein platform in comparison to the single staining methods.

The aim of this study was to evaluate the feasibility of new gene/protein platform in comparison to the single staining methods in gastric adenocarcinomas and carcinomas of the esophagogastric junction.

Of the evaluable samples 28.1% showed a diffuse, 4.2% a mixed and 67.7% an intestinal histological type. The majority of patients were ≥65 years old (70.8%) and male (67.7%). The rate of adenocarcinoma of GEJ or middle to distal stomach was similar (45.8% vs. 50.0%). In the standard method, 17.7% of patients were HER2 positive. The majority of HER2-positive tumors were of intestinal histology and were localized in the GE junction, this correlates well with data of literature [20, 21]. Overall, based on patient and tumor characteristics as well as HER2 positivity, the evaluated group is a representative collective.

Although considerable experience for HER2 analysis by IHC and ISH for breast cancer is available, it is not certain whether they can be directly transferred to carcinomas of the gastrointestinal tract. The expression of HER2 protein, unlike in carcinoma of the breast, is heterogeneous and often focally pronounced. Fox et al. [12]. determined the HER2 status in 100 tissue samples diagnosed with advanced stomach cancer or cancer of the esophagogastric junction in different laboratories to test their matches. For this, IHC and CISH (chromogenic in situ hybridization) or SISH were applied. There was a good agreement between the different laboratories regarding CISH or SISH, but moderate concordance for all IHC scores was observed. Based on the results of the investigation, the author's opinion was that a determination of HER2 status based on IHC, followed by ISH (European standard) is not an optimal evaluation strategy and recommended performing both staining methods [12]. Another study [22] tested the HER2 amplification and expression in 148 patients with advanced gastric carcinoma by IHC and FISH/SISH. Positive HER2 cases were detected in only 10% of the IHC compared with 18% to 22% in the in situ hybridization. Not only because it was easier to reproduce, the author proposed the in situ hybridization technique as the better approach for determining the HER2 positivity [22]. However, based on the TOGA trial [8], patients with ISH positive but IHC negative or weekly (1+) positive tumors did not benefit from trastuzumab. Therefore, the use of FISH or SISH as the primary and only method is not recommended in Europe and IHC is still considered as the primary evaluation method in many countries.

To the best of our knowledge, however, there are no studies that directly compare results of both immunohistochemistry (IHC) and silver in situ hybridization (SISH) when each is used separately with the results of using them in combination on a single section in gastric carcinomas. To visualize RNA and DNA targets in situ, there are different ways of labeling probes using fluorescence, chromogenic or silver detection. All previous studies with settings comparable to our analysis used chromogenic or fluorescence in situ hybridization (CISH or FISH). Downs-Kelly et al. [14] combined standard IHC with a deposition of metallic silver by EnzMetTM on a tissue microarray (TMA) of breast carcinomas and compared the results of IHC and fluorescence in situ hybridization (FISH) when performed alone. In another study, the authors has indeed used the combination of IHC and silver in situ hybridization (SISH) in TMA of breast and gastric cancer samples, but compared the results of those obtained by IHC and fluorescence in situ hybridization (FISH) as single staining [16]. Reisenbichler et al. [15] reported the results of the comparison of IHC and chromogenic in situ hybridization (CISH) as single stainings with the dual assay IHC/CISH. The simultaneous evaluation of protein and gene combinations on a single slide offered a highly reproducible and very robust method with good concordances.

To test the validity of the new gene/protein staining compared with the standardized IHC and SISH, the concordances were calculated based on the kappa coefficient. According to the ASCO/CAP guidelines for breast cancer, a new test should show more than 95% concordance with a validated reference assay [23]. In our study, the new method showed concordances above 95% in terms of all test scores. There were very good concordances in results of gene amplification as well as score 0 (each with 100% agreement), score 1+ (98.96% agreement) and score 3+ tumor samples (96.88% agreement). Cases with score 2+ showed less concordant results, although still good (95.83% agreement). Difficulties in cases with moderate expression in the assessment and classification are known in the literature. Tafe et al. [24]. showed that there were difficulties in assigning a final score in the evaluation of the IHC due to lack in the reliable separation of cases with a HER2 score of 1 + or 2 +. These categories might be limited by subjectivity and poor reproducibility. The phenomenon that discordant results are observed in patients with low HER2 expression, who sometimes still have HER2 gene amplification, has been reported in esophageal cancer [24‐26]. The most probable reason for this discordance is intra-tumor heterogeneity of HER2 status in gastric or GEJ cancer [17, 27, 28]. In our study, discordant IHC results were observed in four patients, but these have led to a clinically relevant difference in HER2 positivity in one patient only (patient #1057). The patient had diffuse type gastric cancer. The evaluation of diffuse tumors seems to be more difficult than intestinal type tumors [29, 30]. According to Rüschoff et al. [18]. only 5% of these tumors show HER2 positivity; signet ring cell carcinomas are negative. HER2 amplification is extremely rare in diffuse gastric carcinoma which is associated with abnormal E-cadherin expression [13, 31‐33].

The SISH is a relatively new method for the detection of the amplification of the HER2 gene. Numerous studies confirmed a high concordance with other in situ hybridization methods like CISH and FISH [34]. Compared to the IHC, ISH shows a higher sensitivity and specificity and a higher reproducibility. This statement can be confirmed by comparing the concordance of amplified cases in our methods. Results revealed a very good agreement between both methods (100.0%; к = 1). Furthermore, the ISH is less sensitive than IHC due to a relative stability of DNA compared to differences in tissue fixation and processing.

We are currently working on an expanded study evaluating whether this new method is associated with a reduction of inter-observer variability in the determination of HER2 status in gastric cancer. This study also includes a component looking at the time needed to report final results. The results will be submitted to the journal as letter or an original report, as soon as they are available.

In this study, we have clearly shown that using the combined method to perform HER2 protein expression and gene amplification on a single slide can produce results similar to those using each method individually in a controlled study implementing three independent observers. We believe that the new gene/protein staining provides a good alternative to the conventional standard method IHC and ISH and may theoretically reduce the possibility that a gastric cancer patient will receive an incorrect HER2 status assessment and thus an incorrect treatment. This may apply especially for cases that are difficult to interpret because they have a score of 1+ or 2+, as well as in heterogeneous and diffuse cases. Moreover, the direct combination of the two staining methods can save precious patient material, since only a single tissue section is required. This has become an important tissue, as numerous biomarkers are currently under clinical evaluation for the treatment of esophagogastric cancer. Further, the staining can also be a time saving. However, it is important to note that these potential advantages are still theoretical and have to be proven in a future study.