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JMD 2003, Vol. 5, No. 3
Copyright © 2003 American Society for Investigative Pathology & Association for Molecular Pathology

Impact of Polysomy 17 on HER-2/neu Immunohistochemistry in Breast Carcinomas without HER-2/neu Gene Amplification

From the Department of Pathology, Memorial Sloan-Kettering Cancer Center, New York, New York

	Abstract

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Her-2/neu, a proto-oncogene located on chromosome 17, is an important biomarker in breast carcinoma. Immunohistochemistry (IHC) is currently the most widely used method for assessing Her-2/neu status. Some IHC-positive cases do not show Her-2/neu gene amplification by fluorescence in situ hybridization (FISH). It has been suggested that some of these IHC "false positive" results may in part be due to increased copy number of chromosome 17 resulting in increased Her-2/neu protein expression. We analyzed IHC and FISH data from 561 cases of invasive breast carcinoma to test this hypothesis. IHC and FISH for Her-2/neu were performed on formalin-fixed, paraffin-embedded sections of 561 invasive breast carcinomas. The IHC results were interpreted as 0, 1+, 2+, or 3+ according to the manufacturer’s recommended criteria. The FISH results were expressed as a ratio of Her-2/neu/chromosome 17 and were interpreted as positive (> = 2.0) or negative (<2.0) for gene amplification according to the manufacturer’s recommended scoring system. We found that in IHC 3+/FISH-negative cases (n = 15) both the average chromosome 17 copy number and the average Her-2/neu copy number were significantly higher than that in IHC (0 to 2+)/FISH-negative cases (n = 411) (2.45 vs. 1.68; P < 0.0001, and 3.19 vs. 1.95; P < 0.0001, respectively). In contrast, the IHC 2+/FISH-negative cases did not exhibit a significantly increased number of chromosome 17 compared to IHC 0 to 1+ cases. In addition, the average copy number of chromosome 17 in FISH-positive cases (n = 135) was significantly higher than that in FISH-negative cases (n = 426) (2.27 vs. 1.70; P < 0.0001), indicating a general association of increased chromosome 17 copy number with Her-2/neu gene amplification. Thus, our data suggest that IHC 3+ immunostaining without scorable gene amplification may indeed be, at least in some cases, the result of increased Her-2/neu protein expression secondary to an increased copy number of chromosome 17, associated with an increased total number of Her-2/neu gene copies per tumor cell.

	Introduction

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Her-2/neu (also known as c-erbB2 or ERBB2) is a proto-oncogene located on chromosome 17. It encodes a transmembrane growth factor receptor with tyrosine kinase activity. Overexpression and/or amplification of Her-2/neu is detected in approximately 20% to 30% of invasive ductal carcinomas of the breast.^{1, 2, 3, 4} It has been well documented that overexpression and/or amplification of Her-2/neu is associated with poor prognosis.^{1, 5, 6, 7} Patients with increased expression of Her-2/neu also show a poorer response to non-anthracycline containing cytotoxic^{8, 9, 10, 11} and hormonal^{12, 13, 14} therapies. With the introduction of Herceptin, a recombinant "humanized" monoclonal antibody against Her-2/neu for treatment of metastatic breast cancer, the accurate assessment of Her-2/neu status has become essential in determining the clinical management of breast cancer patients.

Immunohistochemistry (IHC) and fluorescence in situ hybridization (FISH) have emerged as the two most widely used methods to evaluate Her2/neu status in breast cancer. Numerous studies have shown that the overexpression of Her-2/neu protein is closely correlated with amplification of Her-2/neu gene in the IHC 3+ cases, but not in the IHC 2+ cases.^{4, 5, 15, 16, 17} The positive Her-2/neu immunostains with no evidence of Her-2/neu gene amplification have sometimes been considered "false positive," particularly in the IHC 2+ cases. Chromosomal aneusomy affecting chromosome 17 occurs in breast carcinomas and may complicate the scoring of Her-2/neu amplification.^{18, 19} In this study, we sought to address the issue of chromosome 17 polysomy as a contributing factor to strong positive Her-2/neu immunostaining in the absence of Her-2/neu amplification as scored by dual-color FISH.

	Materials and Methods

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Case Selection
Among cases received for Her-2/neu testing, all cases of invasive breast carcinoma during a 5-month period and additional IHC 3+ cases during the following 8 months were included in this study. There were a total of 561 cases. All IHC and FISH tests were performed in the Department of Pathology at Memorial Sloan-Kettering Cancer Center.

Immunohistochemistry and FISH
Serial sections of 4- to 5-µm thick were used for both IHC and FISH tests. IHC was performed using HercepTest kit (DAKO, Carpinteria, CA) and the results were interpreted as negative (0 or 1+) or positive (2+ or 3+) according to the manufacturer’s recommended scoring system.

The PathVysion Her-2/neu probe kit (Vysis Inc, Downers Grove, IL) was used for the FISH analysis. In brief, the sections were baked overnight at 56°C, and the invasive carcinoma components were located on a corresponding H&E stained section. Unstained sections were deparaffinized in CitriSolv (Vysis Inc, Downers Grove, IL), dehydrated in 100% ethanol, and air-dried. Slides were then subjected to protease digestion for 45 to 60 minutes, denatured, and hybridized with pre-warmed probes (Her2/neu/CEP17 SG probe; Vysis) overnight at 37°C. They were then washed with post-hybridization wash buffer at 72°C and counterstained with DAPI, mounted, and stored in dark before signal enumeration. Slides were first scanned at low power using a DAPI filter to identify areas of optimal tissue digestion and non-overlapping nuclei. The number of chromosome 17 signals, Her-2/neu signals, and the number of tumor nuclei scored were recorded for each case. Cases were interpreted as amplified when the ratio of Her-2/chromosome17 signals was equal or greater than 2.0.

Statistics
The statistical analyses were performed using the Mann-Whitney test. All reported P values are two-tailed.

	Results

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The data are summarized in Table 1 . Among the 561 tumors tested, Her-2/neu was negative by both IHC (0 or 1+) and FISH methods in 368 tumors (Table 1) . The average copy number of chromosome 17 in these tumors was 1.67 per tumor cell. This value of less than 2.0 copies per cell reflects the partial loss of nuclear material due to truncation of the tumor nuclei in the 4- to 5-µm thick sections used for the tests since breast carcinoma nuclei are generally greater than 5 µm in diameter.

View larger version (107K): [in this window] [in a new window]   Figure 1. Representative examples of IHC (x10) and FISH (x100) images of Her-2/neu. A and B: A case of IHC 3+/FISH-negative. C and D: A case of IHC 3+ and FISH-positive.

When the data were analyzed based on the absolute or unadjusted Her-2/neu signals, ie, Her-2/neu gene copies, per tumor nucleus, the impact of polysomy 17 could be clearly seen (Table 1) . The average Her-2/neu gene copy number in IHC 3+/FISH-negative tumors (n = 15) was significantly higher than that in IHC 0 to 2+/FISH-negative tumors (n = 411) (3.19 vs. 1.95; P < 0.0001). The detailed data on these 15 tumors are presented in Table 2 .

	Discussion

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Our data show that tumors with Her-2/neu gene amplification had significantly more copies of chromosome 17 than tumors without Her-2/neu gene amplification. This may reflect the fact that both DNA aneuploidy and Her-2/neu gene amplification tend to occur more frequently in poorly differentiated high-grade carcinomas.^{19, 21, 22} Polysomy 17 in these tumors would have an additive effect with genuine Her-2/neu amplification and contribute to the overall increase of Her-2/neu gene copies in the tumor cells. Similarly but less dramatically, polysomy 17 in the absence of Her-2/neu gene amplification would result in a modest increase of Her-2/neu gene copies in the tumor cells. This modest but significant increase as demonstrated in this study in the Her-2/neu gene copies may result, in some cases, in an increased Her-2/neu protein production to the level that could be demonstrated by IHC staining as strong as 3+.

It should be noted that the average chromosome 17 copy number per nucleus for each tumor varied from 1.00 to 4.28 among FISH-negative tumors and from 1.03 to 4.96 among FISH-positive tumors in this study. The value of equal or close to 1.0 may be the result of nuclear truncation or true loss of chromosome 17 in the tumor cells.^{19, 21} This brings out a technical issue of the FISH assay. A positive result in a dual-color FISH assay is defined as a ratio of Her-2/neu signal/chromosome 17 signal equal or greater than 2.0. A positive result in a single-color FISH assay, where only the Her-2/neu signal is detected, is usually defined as a number of Her-2/neu signals equal or greater than 4.0. Thus, there will be cases that are FISH negative using the dual-color system, but positive in the single-color system due to polysomy 17. Vice versa, positive cases in the dual-color assay could be negative in the single-color assay due to nuclear truncation or chromosome 17 monosomy. These discrepant results usually occur in tumors of borderline Her-2/neu amplification, whose clinical response to Herceptin-based therapy remains to be systematically studied. In addition, Grushko et al²³ have shown that borderline/low-level Her-2/neu amplification is more often seen in BRCA1-associated than in sporadic breast cancers. The overall frequency of borderline/low-level Her-2/neu amplification (ratio of 1.7 to 2.5) in the current study was 8.5%, which is in line with the reported frequency for sporadic tumors. The frequency of polysomy 17 in this subset of tumors did not differ from the entire group, that is, an increased chromosome 17 copy number was observed in IHC 3+ cases, but not in IHC 0 to 2+ cases.

The finding that the IHC 2+/FISH-negative tumors were not associated with chromosome 17 polysomy suggests that this group of tumors may behave more similarly to the IHC-negative (0 to 1+)/FISH-negative tumors than to the IHC 3+/FISH-negative tumors and may be truly Her-2/neu negative in a biological and clinical sense.

We also identified tumors with increased copy number of chromosome 17 or even Her-2/neu amplification that showed no Her-2/neu immunostaining, ie, IHC 0. Conversely, not all tumors in the IHC 3+/FISH-negative group showed markedly increased chromosome 17 copy number. Thus, while the increased chromosome 17 copy number in tumors without Her-2/neu amplification is statistically associated with "false positive" IHC 3+ staining, it is not strictly sufficient or absolutely necessary for the IHC 3+ staining in these tumors.

The important issues of biological behavior and therapeutic response of this subset of tumors remain to be addressed. Since, as our data demonstrated, the average chromosome 17 copy number in FISH-positive tumors, regardless of IHC status, was significantly higher than that in FISH-negative tumors, and increased number of chromosome 17 and Her-2/neu gene copy was statistically associated with the strong IHC (3+) staining, it will be reasonable to examine whether these IHC 3+/FISH-negative tumors with polysomy 17 are biologically distinct from other FISH-negative tumors and more similar to tumors with conventional Her-2/neu amplification, especially in terms of their response to Herceptin-based therapy.

	Footnotes

 
Address reprint requests to Beiyun Chen, M.D., Ph.D., Department of Pathology, Memorial Sloan-Kettering Cancer Center, 1275 York Avenue, New York, NY 10021. E-mail: chenb{at}mskcc.org

Accepted for publication February 5, 2003.

	References

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This Article Abstract Full Text (PDF) Purchase Article View Shopping Cart Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Lal, P. Articles by Chen, B. Search for Related Content PubMed PubMed Citation Articles by Lal, P. Articles by Chen, B.