Immunohistochemical evaluation of human epidermal growth factor receptor 2 and estrogen and progesterone receptors in invasive breast cancer in women

Introduction

Estrogen receptor (ER), progesterone receptor (PR) and human epidermal growth factor receptor 2 (HER-2) expression are crucial in the biology of breast carcinoma. HER-2/neu gene is amplified and overexpressed in 15-30% of invasive breast cancers. HER-2-positive breast cancers have worse prognosis than HER-2 negative tumors and possess distinctive clinical features. The aim of this study was to assess the expression of HER2 in cancer tissue of patients with invasive breast cancer in correlation with tumor type, histological grade, tumor size, lymph node status, and expression of estrogen receptor and progesterone receptor.

Material and methods

Formalin-fixed, paraffin-embedded tissues from 40 patients with invasive HER-2-positive breast cancer and from 191 patients with HER-2-negative breast cancer were used in this study. HER2 expression was determined using the test HerceptTest™ DAKO.

Results

Among 231 cases of breast cancer, 18 invasive lobular carcinomas and 213 invasive ductal carcinomas were diagnosed. Sixty percent of HER-2-positive breast cancers were ER-positive compared with 77% in the HER-2-negative group (p = 0.002). The expression of PR was observed in 43% of HER-2-positive breast cancers and in 72% of HER2-negative tumors (p = 0.003). Excessive expression of HER2 protein was detected in 60% of patients positive for estrogen receptors, which may worsen prognosis in these patients.

Conclusions

Determination of HER2 overexpression in breast cancer patients, allows for a determination of a group of patients with a worse prognosis.     

The incidence of topoisomerase II-alpha genomic alterations in adenocarcinoma of the breast and their relationship to human epidermal growth factor receptor-2 gene amplification: a fluorescence in situ hybridization study

Clinical and in vitro evidence supports the concept that human epidermal growth factor receptor-2 ( HER2 ) gene amplification prediction of response to anthracycline-based chemotherapy in breast cancer is not a direct effect of HER2 overexpression, but the result of coamplification of topoisomerase II-alpha ( TOP2A ). We investigated the relationship of TOP2A to HER2 genomic alterations by fluorescence in situ hybridization (FISH) and the correlations with polysomic states for chromosome 17 (CEP17). One hundred thirty-eight cases of breast cancer HER2 gene amplified by 2-color FISH ( HER2 /CEP17) were reevaluated with a 3-color probe set ( HER2 /CEP17/ TOP2A ) to investigate the frequency of coamplification and deletion of TOP2A . TOP2A was never amplified in the absence of HER2 amplification and was coamplified with HER2 in 68 (50%) of 137 cases; HER2 gene copy number was higher than the TOP2A copy number ( P < .01). Of the 137 cases with HER2 amplification, 23 (16%) showed a monoallelic deletion of TOP2A . Of the 43 cases not amplified for HER2 , 27 (63%) were CEP17 eusomic, 13 (30%) polysomic, and 3 (7%) monosomic. Of the HER2 nonamplified cases, 2 (5%) showed monoallelic deletion of both the HER2 and TOP2A . The current study demonstrates the complex interrelationship between the HER2 and TOP2A genes in breast cancer. The clinical implications of TOP2A amplification and deletion in breast cancer need to be further defined. If TOP2A gene dosage can be confirmed to correlate with tumor responsiveness to anthracycline-based therapy in the clinical setting, FISH testing for TOP2A status may be warranted to aid in the selection of the most appropriate therapy.     

Amplification of the TOP2A gene does not predict high levels of topoisomerase II alpha protein in human breast tumor samples

Recent clinical trials have suggested that patients whose breast tumors overexpress HER2 may derive particular benefit from anthracycline-containing chemotherapy compared to that without anthracycline. It has been proposed that the HER2 gene amplification reported in these tumors might mask an underlying TOP2A gene amplification that occurs frequently and concurrently with HER2 amplification. Topoisomerase II alpha, encoded by TOP2A, is a direct molecular target of anthracycline drug action and is potentially useful as a predictive marker of response to anthracycline therapy for breast cancer. In this study, we examined whether TOP2A gene amplification is an appropriate marker for identifying breast tumors expressing high levels of topoisomerase II alpha. We determined topoisomerase II alpha protein expression by immunohistochemistry in 81 human breast tumors in relation to HER2 and TOP2A gene copy numbers analyzed by fluorescence in situ hybridization, histologic grade, cell proliferation fraction measured by MIB-1 expression, and HER2 protein expression determined by immunohistochemistry. The results showed no correlation between TOP2A gene copy number and topoisomerase II alpha protein expression levels in breast tumors, in contrast to the analogous situation for HER2 gene amplification and HER2 immunohistochemistry. Our results suggest that TOP2A gene amplification in breast tumors does not predict high expression of topoisomerase II alpha protein.     

Characterization of topoisomerase II alpha gene amplification and deletion in breast cancer.

Topoisomerase IIalpha (TOP2A) is a key enzyme in DNA replication and a molecular target for many important anticancer drugs. TOP2A is amplified or deleted together with amplification of the closely located ERBB2/HER-2/neu oncogene in breast cancer. We characterized the copy number aberrations of TOP2A and ERBB2 in 136 primary breast tumors by FISH. Among the 70 primary tumors with ERBB2 amplification, amplification of TOP2A was found in 29 (41%); 30 tumors (43%) showed a physical deletion of TOP2A; and the copy number for TOP2A was not altered in 11 tumors with ERBB2 amplification (16%). No TOP2A gene aberrations were identified in 65 primary tumors without ERBB2 amplification. Fiber FISH revealed that simultaneously amplified ERBB2 and TOP2A were not present in the same amplicon, because repetitive tandem repeat-like signals of ERBB2 and TOP2A were in separate DNA fibers. The deletion of TOP2A (seen in the MDA-361 cell line and in 31 primary tumors) was interstitial, spanning less than two megabases of DNA. Mean copy numbers of TOP2A (2.4 +/- 0.6 for TOP2A vs. 4.9 +/- 1.1 for chromosome 17 centromere) suggest that the deletion of TOP2A occurs before polyploidization of the genome. Eight primary tumors with high-level ERBB2 amplification showed a new type of intratumoral heterogeneity; two different cell clones with either high-level amplification or deletion of TOP2A were found adjacent to each other in the same tumor. These results indicate that amplification of the ERBB2 oncogene is followed by complex secondary genetic aberrations, which lead to amplification or deletion of the TOP2A gene in a majority of tumors. Genes Chromosomes Cancer 26:142-150, 1999.     

Genomic analysis of the HER2/TOP2A amplicon in breast cancer and breast cancer cell lines

HER2 and TOP2A are targets for the therapeutic agents trastuzumab and anthracyclines and are frequently amplified in breast cancers. The aims of this study were to provide a detailed molecular genetic analysis of the 17q12-q21 amplicon in breast cancers harbouring HER2/TOP2A co-amplification and to investigate additional recurrent co-amplifications in HER2/TOP2A-co-amplified cancers. In total, 15 breast cancers with HER2 amplification, 10 of which also harboured TOP2A amplification, as defined by chromogenic in situ hybridisation, and 6 breast cancer cell lines known to be amplified for HER2 were subjected to high-resolution microarray-based comparative genomic hybridisation analysis. This revealed that the genomes of 12 cases were characterised by at least one localised region of clustered, relatively narrow peaks of amplification, with each cluster confined to a single chromosome arm (ie 'firestorm' pattern) and 3 cases displayed many narrow segments of duplication and deletion affecting the vast majority of chromosomes (ie 'sawtooth' pattern). The smallest region of amplification (SRA) on 17q12 in the whole series extended from 34.73 to 35.48 Mb, and encompassed HER2 but not TOP2A. In HER2/TOP2A-co-amplified samples, the SRA extended from 34.73 to 36.54 Mb, spanning a region of approximately 1.8 Mb. Apart from HER2 and TOP2A, this region encompassed four additional genes whose expression levels as defined by quantitative real-time PCR are significantly higher in HER2/TOP2A-co-amplified vs HER2-amplified breast cancers: CASC3, CDC6, RARA and SMARCE1. Of the cell lines studied, SKBR3 and UACC812 showed HER2/TOP2A co-amplification. In conclusion, this is the first detailed genome-wide characterisation of HER2/TOP2A-amplified breast cancers; cell lines were identified that can be used to model these cancers in vitro. The 17q12 amplicon is complex and harbours multiple genes that may be associated with breast cancer development and progression, and potentially exploitable as therapeutic targets.     

High frequency of loss of heterozygosity at 11p15 and IGF2 overexpression are not related to clinical outcome in childhood adrenocortical tumors positive for the R337H TP53 mutation

The homeobox gene BP1 is expressed in over 80% of breast cancers and is associated with tumor progression and invasion. However, the mechanism of BP1 activation in these tumors remains unknown. Therefore our aim in this study is to assess the amplification status of the BP1 gene in breast cancer and to determine whether BP1 protein expression is caused by gene amplification in these tumors. BP1 amplification and expression were assessed in 36 samples. Twenty primary breast tumors (PBT) and 14 sentinel lymph node (SLN) metastases were analyzed using fluorescence in situ hybridization (FISH) and immunohistochemistry (IHC), respectively. Because of the close proximity of BP1 and HER2/NEU genes on 17q, correlation between their amplification/expression was also investigated. Increased BP1 copy number was observed in 33% of the cases, with a frequency of 36% and 29% in the PBT and SLN metastasis, respectively. BP1 protein was expressed in 91% of the samples: in all of the PBT with increased BP1 copy number and 65% of PBT with normal copy number. HER2/NEU amplification was detected in 22% of the cases. Concordance between BP1 and HER2/NEU copy numbers was found in 68% of the PBT and 90% of the SLN metastasis. In conclusion, we demonstrated that the BP1 homeobox gene is amplified in breast cancer, both in PBT and SLN metastasis, with a significant correlation with HER2/NEU amplification. Considering that BP1 expression was observed in cases with both increased and normal BP1 copy number, we conclude that other mechanisms in addition to gene amplification play a role in BP1 protein expression.     

Correlation of HER2 gene amplification with immunohistochemistry in breast cancer as determined by a novel monoplex polymerase chain reaction assay.

Amplification of the HER2 oncogene in breast cancer identifies patients who are likely to respond to anti-HER2 mAb therapy. Current clinical practice dictates that all breast cancers first undergo HER2 screening by IHC. Strongly positive (3+ on a 0-to-3+ scale) IHC cases are considered as HER2-amplified tumors and are not evaluated further because of the strong correlation between HER2 gene amplification as measured by FISH and 3+ IHC. This strong correlation has recently been questioned, and some data suggest that over 50% of 3+ IHC HER2 immunostains may not be due to HER2 gene amplification. To help resolve this discrepancy, the authors developed a quantitative PCR assay for HER2. Quantitative PCR was used to determine the amount of HER2 DNA relative to a control gene, IF2 (eukaryotic translation initiation factor, 2p11.1-q11.1). The PCR assay is performed on genomic DNA isolated from paraffin-embedded breast cancer tissue. The PCR assay developed is a monoplex assay in which the HER2 and IF2 PCRs are performed in separate cuvettes. Cases of HER2 FISH amplified breast cancer and HER2 FISH nonamplified breast cancer were chosen for study by monoplex HER2 PCR. HER2 overexpression was evaluated by IHC. Twenty-two cases of HER2-positive and 22 cases of HER2-negative breast cancer, as determined by FISH, were assayed for HER2 by PCR and IHC. Sixteen of the 44 cases were interpreted as 3+ IHC. All 16 showed HER2 amplification by PCR and 15 showed HER2 amplification by FISH. One FISH negative case was found to be HER2 amplified by PCR and showed 3+ IHC stain, suggesting the FISH result in this case was underinterpreted. Two FISH positive cases were found to be negative by PCR and negative in IHC as well, suggesting the FISH result in these cases was overinterpreted. The authors conclude that 3+ IHC membrane staining correctly identifies neoplasms showing HER2 gene amplification. Monoplex HER2 PCR may offer significant advantages over both IHC and FISH for HER2 testing in breast cancer.     

EGFR gene amplification in breast cancer: correlation with epidermal growth factor receptor mRNA and protein expression and HER-2 status and absence of EGFR-activating mutations.

The human epidermal growth factor receptor (HER) family of receptor tyrosine kinase has been extensively studied in breast cancer; however, systematic studies of EGFR gene amplification and protein overexpression in breast carcinoma are lacking. We studied EGFR gene amplification by chromogenic in situ hybridization (CISH) and protein expression by immunohistochemistry in 175 breast carcinomas, using tissue microarrays. Tumors with >5 EGFR gene copies per nucleus were interpreted as positive for gene amplification. Protein overexpression was scored according to standardized criteria originally developed for HER-2. EGFR mRNA levels, as measured by Affymetrix U133 Gene Chip microarray hybridization, were available in 63 of these tumors. HER-2 gene amplification by fluorescence in situ hybridization (FISH) and protein overexpression by immunohistochemistry were also studied. EGFR gene amplification (copy number range: 7-18; median: 12) was detected in 11/175 (6%) tumors, and protein overexpression was found in 13/175 (7%) tumors. Of the 11 tumors, 10 (91%) with gene amplification also showed EGFR protein overexpression (2+ or 3+ by immunohistochemistry). The EGFR mRNA level, based on Affymetrix U133 chip hybridization data, was increased relative to other breast cancer samples in three of the five tumors showing gene amplification. Exons 19 and 21 of EGFR, the sites of hotspot mutations in lung adenocarcinomas, were screened in the 11 EGFR-amplified tumors but no mutations were found. Three of these 11 tumors also showed HER-2 overexpression and gene amplification. Approximately 6% of breast carcinomas show EGFR amplification with EGFR protein overexpression and may be candidates for trials of EGFR-targeted antibodies or small inhibitory molecules.     

Prognostic value of HER2 expression in meningiomas: an immunohistochemical and fluorescence in situ hybridization study

The aggressiveness of meningiomas is unpredictable. HER2 represents a well-known prognostic factor in various tumors such as breast carcinomas. This work was designed to study HER2 protein expression and HER2 gene amplification in meningiomas and to evaluate their prognostic value. Frozen sections of 35 meningiomas were immunostained for HER2, estrogen receptor, progesterone receptor, E-cadherin, and MIB-1. Meningiomas immunostained for HER2 were further examined for the HER2 gene amplification by dual-color fluorescence in situ hybridization using probes for centromere 17 and 17q11.2-q12. Complete clinical information was obtained in all cases. The study included 15 atypical meningiomas, 3 anaplastic meningiomas, and 17 classic meningiomas. Five atypical/anaplastic meningiomas and 5 classic meningiomas of the whole 35 (28.5%) meningiomas expressed HER2 protein. This was considered as an overexpression in comparison with negative normal meninges. Fluorescence in situ hybridization demonstrated more HER2 gene copy in 4 of these 10 HER2-positive meningiomas. At equivalent histologic grading, meningiomas with HER2 overexpression exhibited similar immunohistochemical parameters of prognostic value than their HER2-negative counterparts; however, the rate of tumor recurrence was significantly higher in meningiomas with HER2 overexpression than in HER2-negative meningiomas. Conversely, HER2 amplification was not associated with recurrence. Some meningiomas exhibit HER2 protein overexpression in part induced by gene amplification. However, only HER2 overexpression could represent an independent prognostic factor in meningiomas.     

Comparative immunohistochemical study of invasive duct carcinoma and Paget's disease of the breast with c-erbB-2 overexpression

Overexpression of c-erbB2 oncogen is observed in 90-100% of cases of Paget's cancer. In all cases, the overexpression is caused by gene amplification. The authors carried out an immun ohistochemrical study of c-erbB2 (HER2/neu)-positive breast tumors: Paget's cancer (and hence with gene amplification) and breast invasive duct cancer without gene amplification. Moreover, the authors identified a case of c-erbB2-negative Paget's cancer, the phenotype of which was compared with the phenotypes of two earlier groups of tumors. The findings suggest that only formation of c-erbB2 heterodimers that cannot cause an increase in proliferation on their own is observed in the study groups of tumors.     

显色原位杂交检测乳腺癌HER2基因扩增的应用价值

目的评估显色原位杂交（CISH）技术在检测乳腺癌标本中HER2基因扩增的应用价值。方法分别采用免疫组织化学（IHC）EnVision和CISH两种方法,检测165例乳腺癌中HER2蛋白表达及HER2基因扩增的情况。结果（1）IHC检测HER2蛋白表达阴性者107例,表达阳性1＋者24例,CISH均未检测到HER2基因扩增;（2）IHC检测HER2表达3＋者22例,CISH检测中21例呈现HER2基因的高倍扩增,仅1例呈低倍扩增,HER2基因高倍扩增及其蛋白表达之间的符合率为95．5％;（3）IHC检测HER2表达2＋者12例,CISH检测有3例HER2基因呈高倍扩增,6例呈低倍扩增,3例无扩增。结论CISH在检测HER2基因扩增与IHC检测的结果具有较高的一致性和敏感性,可以作为一种检测乳腺癌HER2基因状况的方法。     

Gene copy mapping of the ERBB2/TOP2A region in breast cancer

ERBB2 is one of the most important oncogenes in breast cancer, and its disordered expression is commonly associated with gene amplification. Amplification of at least one gene near ERBB2, topoisomerase IIalpha (TOP2A), has been shown to be clinically significant, but the prevailing patterns of gene amplification in this region of chromosome arm 17q have not been studied systematically in clinical cases of breast cancer. For characterizing this region, a commercial ERBB2-containing contig probe and 7 probes prepared from single overlapping BAC and P1 clones lying telomeric to ERBB2 and including TOP2A were hybridized to 77 ERBB2-amplified archival breast tumor specimens from 75 patients. The 7 single-clone probes covered a region of approximately 650 kb starting 114 kb telomeric to ERBB2. Amplification of the ERBB2 contig target alone was found in 32% of the tumors, whereas all 8 probe targets were amplified in 12% of the tumors, based on an amplification criterion of there being more than or equal to 2 targets per chromosome 17 centromere. When one of the 7 overlapping probes encompassing TOP2A indicated amplification within a specimen, all probes telomeric to that probe usually showed amplification. Only 5 specimens had regions of normal or deleted targets separating 2 amplified targets. Also, tumors that showed deletion of TOP2A usually showed deletion of one or more contiguous targets. The observed patterns of amplification and deletion are consistent with the break-fusion-bridge model for gene amplification. TOP2A was amplified in 25% of all tumor specimens and was deleted in 24%, based on a deletion criterion of there being fewer than or equal to 0.75 targets per chromosome 17 centromere. Considering the relevance of the TOP2A gene product to anthracycline therapy and the wealth of other cancer-associated genes within the ERBB2/TOP2A region, the pattern of amplification and deletion near ERBB2 and TOP2A may have a dramatic effect on the malignant potential of breast carcinomas and their response to therapy.     

结直肠癌EGFR和HER2蛋白表达及其基因拷贝数分析

目的探索结直肠癌EGFR和HER2蛋白表达和基因拷贝数增加的频率,以及蛋白表达与基因拷贝数增加之间的相关性。方法以石蜡包埋组织芯片为材料,分别采用免疫组织化学（EGFR pharmDx^TM和HercepTest^TM试剂盒）和荧光原位杂交（FISH,LSI EGFR SpectrumOrange／CEP7 SpectrumGreen探针组合和Path V ysion^TM试剂盒）方法,检测42例中国人结直肠癌EGFR和HER2蛋白表达和基因状态。结果EGFR免疫组织化学0者18例、1＋者10例、2＋者5例、3＋者9例;HER2免疫组织化学0者39例、1＋者1例、2＋者1例、3＋者1例。通过FISH分析,EGFR基因拷贝数无明显增高18例（42．9％）,其中包括二体性14例（33．3％）、低三体性4例（9．5％）;EGFR基因拷贝数相对增高者24例（57．1％）,包括高三体性3例（7．1％）、低多体性9例（21．4％）、高多体性12例（28．6％）;本组患者中无EGFR基因扩增者。HER2基因拷贝数增加者共4例（9．5％）,其中包括基因扩增1例（2．4％）。EGFR的蛋白表达与基因拷贝数增加无相关性,两指标与肿瘤分化之间也无相关性。HER2免疫组织化学3＋和基因扩增结果一致,与乳腺癌相似。结论这组患者中,具有较高的EGFR蛋白表达和基因拷贝数增加的比率,但蛋白表达与基因状态之间以及二者与肿瘤分化程度之间都没有相关性;HER2表达和基因拷贝数增加的频率较低。     

Correlations of TOP2A gene aberrations and expression of topoisomerase IIα protein and TOP2A mRNA expression in primary breast cancer: a retrospective study of 86 cases using fluorescence in situ hybridization and immunohistochemistry

Our aim in this study was to assess the status of TOP2A gene aberrations (no change/amplification or deletion) and its correlations with topoisomerase IIα (Topo IIα) protein and TOP2A mRNA expression, respectively. TOP2A amplification, Topo IIα protein expression and TOP2A mRNA expression were assessed using samples of 86 cases of breast cancer by fluorescence in fluorescence in situ hybridization, quantitative real-time polymerase chain reaction and immunohistochemistry, respectively. Twenty two (22.57%) had amplification/deletion of TOP2A gene. Twenty eight (32.56%) tumor samples were 17q polysomy or monosomy. Topo IIα protein was expressed in 57 cases (66.27%, 57/86): 22 cases (38.62%, 22/57) and 35 cases (61.40%, 35/57) had amplification/deletion and no change of TOP2A gene, respectively. These three groups showed significant differences by one-way analysis of variance (P < 0.001). The average Ct values of TOP2A mRNA expression in the tumors with deletion, amplification and no change of TOP2A gene were 27.00, 27.33 and 31.66, respectively. We demonstrated that the TOP2A gene was amplified or deleted in breast cancer, with a significant correlation with high expressions of Topo IIα protein and TOP2A mRNA expression. Ki-67 expression index (mean = 14.9) decreased significantly in cases wherein TOP2A gene had no change and Her2/neu protein expression was weakly positive (0-1+, P < 0.001).     

Deletion of the inhibitor of growth 4 (ING4) tumor suppressor gene is prevalent in human epidermal growth factor 2 (HER2)-positive breast cancer

Inhibitor of growth 4 (ING4) is a candidate tumor suppressor gene that was shown to be deleted in 10% to 20% of breast cancers by array comparative genome hybridization analysis. We developed fluorescent in situ hybridization to detect the ING4 gene directly in the tissue samples on tumor tissue microarrays. We evaluated the ING4 gene status in 1033 breast cancer tissue samples and observed that ING4 was deleted in 16.5% (170/1033) of all breast cancers. ING4 deletion was significantly associated with Her2 overexpression: of the tumors with ING4 deletion, 23.8% (39/164) were human epidermal growth factor 2 (HER2) positive, as compared with 14.1% (115/814) of the tumors without ING4 deletion (P = .002). In addition, the tumors with ING4 deletion were more likely to belong to the HER2 molecular subtype (estrogen receptor negative/progesterone receptor negative/human epidermal growth factor positive) of breast cancer, compared with the other subtypes (28.4% HER2 versus 15.7% all, P = .002). ING4 deletion did not affect survival outcome of all patients with breast cancer (P = .797) or of the patients with HER2-positive tumors (P = .792). We conclude that ING4 deletion in breast cancer is relatively common, as 1 in 6 breast cancer harbors ING4 deletion. Furthermore, ING4 deletion is more prevalent in HER2-positive tumors, suggesting a functional antagonistic relationship between the ING4 tumor suppressor and the HER2 oncogene. These results sustain the view that ING4 is a tumor suppressor in breast cancer and suggest that ING4 deletion may contribute to the pathogenesis of HER2-positive breast cancer.     

Marked heterogeneity of HER2/NEU gene amplification in endometrial serous carcinoma

Significant heterogeneity of HER2 protein expression has been recently observed in HER2 positive endometrial serous carcinomas. Tumor cells with HER2 overexpression and/or gene amplification in a heterogeneous tumor may represent a biologically more aggressive subclone that is clinically relevant to prognosis and potential targeted therapy. To correlate with HER2 protein heterogeneity, we investigated the heterogeneity of HER2/NEU gene amplification in endometrial serous carcinoma. A total of 17 endometrial serous carcinomas with heterogeneous HER2 protein expression were selected for the study, including nine cases with a 3+ and eight cases with a 2+ immunohistochemical score. Initial reflex HER2 FISH was available for seven of the eight 2+ cases, five of which showed HER2/NEU gene amplification. All 17 cases underwent repeat FISH targeting larger tumor tissue areas. Ten cases (72%) displayed striking heterogeneity of HER2/NEU gene copy number in the form of cluster amplification. Diffuse HER2 amplification was observed in four cases, no amplification was seen in three tumors. In cases with cluster amplification, HER2 protein overexpression by immunohistochemistry closely correlated at the cellular level with HER2/NEU gene amplification. In conclusion, the significant percentage of cases with heterogeneous HER2/NEU gene amplification indicates that the existing HER2 testing guidelines designed for breast cancer may not be applicable to endometrial serous carcinoma. Clinical testing on multiple different tumor samples or large tumor tissue sections is recommended for both immunohistochemistry and FISH assessment of HER2 status. Direct comparison with the HER2 immunostaining pattern may be helpful in detecting HER2 amplified areas in a heterogeneous tumor. © 2013 Wiley Periodicals, Inc.     

Close association between HER-2 amplification and overexpression in human tumors of non-breast origin.

The relationship between HER-2 overexpression and gene amplification is well evaluated in breast cancers but remains unclear or controversial in many other tumor entities. Therefore, we tested the HER-2 status in more than 120 different tumor entities. 5751 tumor samples were analyzed on TMAs by immunohistochemistry (Hercept-Test, DAKO) and fluorescence in situ hybridization (PathVysion, Abbott-Vysis) under highly standardized conditions. HER-2 overexpression (score 2/3+) and amplification occurred most often in breast cancers but was also seen in 18 other tumor entities including cancers of the urinary bladder (amplification in 14.3%, overexpression in 6.7%), stomach (8.3/4.9%), endometrium (6.6/6.8%), lung (2.8/3.1%) and ovary (2.3/1.2%). Remarkably, a strong association between overexpression and amplification was seen in all examined cancer entities. Trastuzumab therapy is highly efficient in HER-2 amplified breast cancer both in metastatic disease and as an adjuvant therapy. A variety of other tumor entities including frequent neoplasms and cancers with often limited therapeutic options have similar patterns of HER-2 alterations as observed in breast cancer (ie high overexpression due to high level gene amplification). Such tumor entities should be carefully evaluated for a possible utility of trastuzumab treatment.     

Amplification and deletion of topoisomerase IIalpha associate with ErbB-2 amplification and affect sensitivity to topoisomerase II inhibitor doxorubicin in breast cancer

Topoisomerase IIalpha (topoIIalpha) is a key enzyme in DNA replication and a molecular target for many anti-cancer drugs called topoII inhibitors. The topoIIalpha gene is located at chromosome band 17q12-q21, close to the ErbB-2 oncogene (HER-2/neu), which is the most commonly amplified oncogene in breast cancer. Because of the physical proximity to ErbB-2, copy number aberrations may also occur in the topoIIalpha gene. These topoIIalpha gene copy number aberrations may be related to the altered chemosensitivity to topoII inhibitors that breast cancers with ErbB-2 amplification are known to have. We used fluorescence in situ hybridization to study copy number aberrations of both topoIIalpha and ErbB-2 in nine breast cancer cell lines and in 97 clinical breast tumors, which were selected for the study according to their ErbB-2 status by Southern blotting. TopoIIalpha-protein expression was studied with Western blot and sensitivity to doxorubicin (a topoII inhibitor) with a 96-well clonogenic in vitro assay. Two of the five cell lines with ErbB-2 gene amplification (SK-BR-3 and UACC-812) showed amplification of topoIIalpha. In MDA-361 cells, ErbB-2 amplification (14 copies/cell) was associated with a physical deletion of topoIIalpha (four copies of chromosome 17 centromere and two copies of topoIIalpha). The topoIIalpha amplification in UACC-812 cells was associated with 5.9-fold-increased topoIIalpha protein expression and 2.5-fold-increased sensitivity to the topoII inhibitor, doxorubicin, whereas the deletion in MDA-361 leads to decreased protein expression (45% of control) and a 2.4-fold-increased chemoresistance in vitro. Of 57 ErbB-2-amplified primary breast carcinomas, 25 (44%) showed ErbB-2-topoIIalpha coamplification and 24 (42%) showed a physical deletion of the topoIIalpha gene. No topoIIalpha copy number aberrations were found in 40 primary tumors without ErbB-2 amplification. TopoIIalpha gene amplification and deletion are common in ErbB-2-amplified breast cancer and are associated with increased or decreased sensitivity to topoII inhibitors in vitro, respectively. These findings may explain the altered chemosensitivity to topoII inhibitors reported in ErbB-2-amplified breast cancers.     

Impact of polysomy 17 on HER2 testing of invasive breast cancer patients

Background: Current American Society of Clinical Oncology/College of American Pathologists guidelines define HER2-positive tumors as those with > 6 HER2 genes per nucleus or those with HER2/CEP17 (chromosome 17) ratio > 2.2. These guidelines are potentially contradictory in tumors with polysomy of chromosome 17. The current study was performed to determine the impact of polysomy 17 on the interpretation of HER2 testing of invasive breast carcinomas. Methods: Chromosome 17 copies and HER2 gene status were identified by fluorescent in situ hybridization in 384 cases with invasive breast cancer, and the corresponding HER2 expression was obtained by immunohistochemistry stain. Results: The average CEP17 copy number for the group was 2.1 (range, 1.0-12.4). Forty-eight cases (13.8%, 48/348) were identified as chromosome 17 polysomy with CEP 17 copy number ≥ 3. Ninety-two (26.4%) cases had > 6 copies of HER2 per nucleus, and 92 cases (26.4%) qualified as HER2 gene amplified using the HER2/CEP17 ratio (> 2.2) guideline. Polysomy 17 showed poorly positive correlations with both HER2 gene copy number and HER2 overexpression (P < 0.01, r = 0.338 and 0.271, respectively). The distribution of clinicopathologic parameters of Polysomy 17 tumors was more similar to HER2 negative than HER2 positive tumors. Conclusions: Polysomy 17 is a crucial cause of equivocal HER2 testing results by FISH, depending on which criterion (ratio vs. absolute number) is used for interpretation. Polysomy 17 cannot be an independent predictive factor for HER2 gene amplification or protein overexpression.