Patterns of HER2 testing in the management of primary breast cancer

Background: Women with invasive breast cancer should be tested for human epidermal growth factor receptor-2 (HER2) status at the time of diagnosis. To date, no population-based patterns of use studies have examined demographic and clinicopathologic factors associated with decisions by clinicians to test patients. Methods: We reviewed summary pathology reports submitted to the Connecticut Tumor Registry for all Black/African American (B/AA) women (n = 644) and a 7% random sample (n = 720) of White women diagnosed in 2000–2003 with primary invasive breast carcinoma. Receipt of a HER2 test (yes vs. no) was examined in relation to patient race, age, socioeconomic status, year of diagnosis, estrogen receptor (ER) status, tumor grade, lymph node status, size and stage at diagnosis. Results: A greater proportion of tumors from B/AA patients were tested compared to those of White women (69.5% vs. 61.9%, p < 0.05). Tumors of patients under the age of 60 were 1.50-times more likely than older women to have been tested, and B/AA women were 1.40-times more likely than White patients to be tested. HER2 testing was more likely to be observed when information also was reported about ER status (OR = 15.9, p < 0.001), tumor grade (OR = 2.28, p < 0.05), tumor size (OR = 2.16, p < 0.05), and lymph node status (OR = 2.06, p < 0.05). Conclusions: Variation in which breast cancer patients received HER2 testing appears to reflect expectations about a woman's prognosis. Discrepancies in receipt of testing deserve further study as current guidelines call for all tumors to be assessed in order to adequately characterize prognosis and determine eligibility for HER2-targeted therapy.     

Detection of HER2/neu gene amplification in archival paraffin-embedded breast cancer tissues by fluorescence in situ hybridization

We evaluated HER2/neu gene amplification by fluorescence in situ hybridization (FISH) in archival paraffin-embedded breast cancer tissues. Tumors from 63 human invasive breast cancers were categorized into two groups depending on whether the paraffin-embedded tissue blocks had been stored for more or less than 12 months duration. These were subjected to routine and modified FISH protocols. As microwave oven formalin fixation of tissues was carried out in the majority of the older archived specimens, the effect of this fixation method was also analyzed. FISH signals were obtained in all 13 archival specimens stored for less than 12 months. However, in 50 specimens stored for more than 12 months duration, the procedure was successful in only 10 specimens (20%), for which the pretreatment procedure had to be individually optimized for each specimen. There was no significant difference in the detection of FISH signals between microwave oven and routinely fixed specimens.     

Prognostic factors in human primary breast cancer: comparison of c-myc and HER2/neu amplification.

Amplification of oncogenes in primary tumours may have prognostic and/or therapeutic significance for patients with breast cancer. We have studied HER2/neu and c-myc amplification together with steroid receptors in human primary breast tumours and related the outcome with (relapse-free) survival. A strong inverse correlation was found between HER2/neu amplification and the presence of oestrogen and progesterone receptors. Actuarial 5-years survival showed that breast cancer patients with c-myc amplification in their primary tumours experience a shorter relapse-free survival, especially in node-negative and in receptor-positive tumours, whereas HER2/neu amplification may be of prognostic value for overall survival in receptor-negative tumours. Overall, in our hands, c-myc amplification appeared to be a more potent prognosticator than HER2/neu amplification in human primary breast cancer.     

Expression of HER2 in breast cancer

In breast cancer the membrane expression of HER2 receptor protein encoded by the HER2 proto-oncogene seems to have an ever growing clinical significance. In tissue cultures and animal experiments it was shown that the HER2 gene amplification induces malignant transformation and intensifies the aggressiveness of the tumour cells. Correlating with the so called pheno-and genotypic prognostic markers, the overexpression of HER2 in breast cancer predicts also poor prognosis and indicates enhanced potential for metastatisation. In some of the so called precancerous proliferations and "in situ" carcinomas we demonstrated the enhanced membrane staining of the HER2 receptor protein. In these cases we frequently observed DNA aneuploidy,the presence of p53 mutational protein and CD44v6 glycoprotein. The immunohistochemical studies of HER2 protein in invasive carcinomas have revealed, an interrelationship between the grade of differentiation, histological type, aggressiveness and biological behaviour of the "in situ" and invasive carcinomas. In clinical studies trastuzumab, a humanized monoclonal antibody recognizing extracellular domain of HER2 receptor protein, has proved to be effective in HER2 overexpressing metastatic breast cancer either as monotherapy or in combination with chemotherapeutical agents. The DAKO "HercepTest" is a semiquantitative, standardised method for the determination of HER2 overexpression.     

Reverse-phase protein microarray highlights HER2 signaling activation in immunohistochemistry/FISH/HER2-negative breast cancers

Evaluation of: Wulfkuhle JD, Berg D, Wolff C et al. Molecular analysis of HER2 signaling in human breast cancer by functional protein pathway activation mapping. Clin. Cancer Res. 18(23), 6426–6435 (2012).

Exhaustive characterization and mapping of pivotal molecules and downstream effectors deregulated in breast cancer is of fundamental clinical value to define the most effective therapy. Wulfkuhle et al. applied reverse-phase protein microarray, a highly sensitive immunoassay able to perform quantitative and multiplexed analysis of total and/or modified cellular proteins, to assess protein levels and activation/phosphorylation status of the HER family (EGFR, HER2, HER3) and downstream signaling molecules in HER2⁺ and HER2^- breast cancers. The research was performed using laser capture microdissected tumor epithelial cells from frozen samples and formalin-fixed paraffin embedded specimens, which were also analyzed by immunohistochemistry (IHC) and FISH. This study identified a subgroup of IHC/FISH/HER2^- patients with HER2 activation/phosphorylation levels comparable with those obtained from IHC/FISH/HER2⁺ tumors. HER2 signaling activation was independent from total HER2 expression and involved HER3 and EGFR activation. These findings indicate that molecular characterization by reverse-phase protein microarray of HER2 and its partners/effectors in the signaling cascade enables the identification of a subgroup of IHC/FISH/HER2^- patients showing HER2 signaling activation. These patients, currently excluded from targeted therapy administration, could potentially benefit from this and it could improve prognosis and survival.     

Intra-tumor genetic heterogeneity and alternative driver genetic alterations in breast cancers with heterogeneous HER2 gene amplification

BackgroundHER2 is overexpressed and amplified in approximately 15% of invasive breast cancers, and is the molecular target and predictive marker of response to anti-HER2 agents. In a subset of these cases, heterogeneous distribution of HER2 gene amplification can be found, which creates clinically challenging scenarios. Currently, breast cancers with HER2 amplification/overexpression in just over 10% of cancer cells are considered HER2-positive for clinical purposes; however, it is unclear as to whether the HER2-negative components of such tumors would be driven by distinct genetic alterations. Here we sought to characterize the pathologic and genetic features of the HER2-positive and HER2-negative components of breast cancers with heterogeneous HER2 gene amplification and to define the repertoire of potential driver genetic alterations in the HER2-negative components of these cases.ResultsWe separately analyzed the HER2-negative and HER2-positive components of 12 HER2 heterogeneous breast cancers using gene copy number profiling and massively parallel sequencing, and identified potential driver genetic alterations restricted to the HER2-negative cells in each case. In vitro experiments provided functional evidence to suggest that BRF2 and DSN1 overexpression/amplification, and the HER2 I767M mutation may be alterations that compensate for the lack of HER2 amplification in the HER2-negative components of HER2 heterogeneous breast cancers.ConclusionsOur results indicate that even driver genetic alterations, such as HER2 gene amplification, can be heterogeneously distributed within a cancer, and that the HER2-negative components are likely driven by genetic alterations not present in the HER2-positive components, including BRF2 and DSN1 amplification and HER2 somatic mutations.

Electronic supplementary material

The online version of this article (doi:10.1186/s13059-015-0657-6) contains supplementary material, which is available to authorized users.     

Role of HER2 gene overexpression in breast carcinoma

The HER2 proto-oncogene encodes a transmembrane glycoprotein of 185 kDa (p185(HER2)) with intrinsic tyrosine kinase activity. Amplification of the HER2 gene and overexpression of its product induce cell transformation. Numerous studies have demonstrated the prognostic relevance of p185(HER2), which is overexpressed in 10% to 40% of human breast tumors. Recent data suggest that p185(HER2) is a ligand orphan receptor that amplifies the signal provided by other receptors of the HER family by heterodimerizing with them. Ligand-dependent activation of HER1, HER3, and HER4 by EGF or heregulin results in heterodimerization and, thereby, HER2 activation. HER2 overexpression is associated with breast cancer patient responsiveness to doxorubicin, to cyclophosphamide, methotrexate, and fluorouracil (CMF), and to paclitaxel, whereas tamoxifen was found to be ineffective and even detrimental in patients with HER2-positive tumors. In vitro analyses have shown that the role of HER2 overexpression in determining the sensitivity of cancer cells to drugs is complex, and molecules involved in its signaling pathway are probably the actual protagonists of the sensitivity to drugs. The association of HER2 overexpression with human tumors, its extracellular accessibility, as well as its involvement in tumor aggressiveness are all factors that make this receptor an appropriate target for tumor-specific therapies. A number of approaches are being investigated as possible therapeutic strategies that target HER2: (1) growth inhibitory antibodies, which can be used alone or in combination with standard chemotherapeutics; (2) tyrosine kinase inhibitors (TKI), which have been developed in an effort to block receptor activity because phosphorylation is the key event leading to activation and initiation of the signaling pathway; and (3) active immunotherapy, because the HER2 oncoprotein is immunogenic in some breast carcinoma patients.     

p185HER2 signal transduction in breast cancer cells.

A partially agonistic monoclonal antibody, 4D5, known to bind to the extracellular domain of p185HER2 and shown to inhibit long term growth of p185HER2-overexpressing breast cancer cells, was used to study signal transduction and phosphotyrosyl protein substrates associated with this receptor. Normal breast epithelial cells and breast carcinoma cells expressing low levels of p185HER2 were not affected by 4D5. HER2/neu-overexpressing breast cancer cells (BT-474 and SK-Br-3) exposed to 4D5 exhibited rapid phosphorylation of both p185HER2 and an associated 56-kDa phosphotyrosyl protein (ptyr56). Paralleling the 4D5- stimulated phosphorylation of p185HER2 and ptyr56 was a 5-10-fold induction of c-fos mRNA and phosphatidylinositol 4-kinase activity and a 2-fold induction of inositol 1,4,5-trisphosphate 3'-kinase activity. The increased phosphatidylinositol 4-kinase activity immunoprecipitated with p185HER2 and also co-eluted with ptyr56 from an antiphosphotyrosine immunoaffinity column. These results indicate that short term (less than 6 h) 4D5 activation of p185HER2 in overexpressing breast cancer cells produces agonistic-like signaling typical of homologous tyrosine kinase growth factor receptors such as epidermal growth factor receptor. The data also suggest that ptyr56 represents a novel phosphorylated substrate associated with 4D5-stimulated p185HER2.     

Effect of fixation period on HER2/neu gene amplification detected by fluorescence in situ hybridization in invasive breast carcinoma.

This study investigated if formalin fixation duration affects HER2/neu gene amplification detection by fluorescence in situ hybridization (FISH) in breast cancer. Tumor tissues from 35 cases were divided into three groups and subjected to two formalin fixation protocols per group (12 hr, 27 hr in the first; 2 hr, 17.5 hr in the second; 28.5 hr, 541 hr in the third) before FISH analysis. There was no significant difference in FISH signal detection between the two different fixation protocols in the first two groups. In the third, no signal was detected in 4/6 cases fixed for an extended duration.     

HER2-positive circulating tumor cells in breast cancer

Purpose

Circulating Tumor Cells (CTCs) detection and phenotyping are currently evaluated in Breast Cancer (BC). Tumor cell dissemination has been suggested to occur early in BC progression. To interrogate dissemination in BC, we studied CTCs and HER2 expression on CTCs across the spectrum of BC staging.

Methods

Spiking experiments with 6 BC cell lines were performed and blood samples from healthy women and women with BC were analyzed for HER2-positive CTCs using the CellSearch®.

Results

Based on BC cell lines experiments, HER2-positive CTCs were defined as CTCs with HER2 immunofluoresence intensity that was at least 2.5 times higher than the background. No HER2-positive CTC was detected in 42 women without BC (95% confidence interval (CI) 0–8.4%) whereas 4.1% (95%CI 1.4–11.4%) of 73 patients with ductal/lobular carcinoma in situ (DCIS/LCIS) had 1 HER2-positive CTC/22.5 mL, 7.9%, (95%CI 4.1–14.9%) of 101 women with non metastatic (M0) BC had ≥1 HER2-positive CTC/22.5 mL (median 1 cell, range 1–3 cells) and 35.9% (95%CI 22.7–51.9%) of 39 patients with metastatic BC had ≥1 HER2-positive CTC/7.5 mL (median 1.5 cells, range 1–42 cells). In CTC-positive women with DCIS/LCIS or M0 BC, HER2-positive CTCs were more commonly detected in HER2-positive (5 of 5 women) than HER2-negative BC (5 of 12 women) (p = 0.03).

Conclusion

HER2-positive CTCs were detected in DCIS/LCIS or M0 BC irrespective of the primary tumor HER2 status. Nevertheless, their presence was more common in women with HER2-positive disease. Monitoring of HER2 expression on CTCs might be useful in trials with anti-HER2 therapies.     

Target therapy in HER2-overexpressing breast cancer patients

The development of new therapeutic strategies, such as monoclonal antibodies directed against human epidermal growth factor receptor-2 (HER2), has offered new hopes for women with early breast cancer whose tumors overexpress HER2. We retrospectively analyzed the population-based data of Breast Cancer Registry of Palermo in 2004-2006, and selected 1401 invasive breast cancer cases, nonmetastatic at diagnosis, having HER2/neu oncogene expression determined. We have correlated this information to age, tumor stage at diagnosis (TNM), nodal involvement, and receptor status (ER and PgR). Survival analysis was conducted dividing the patients in two different groups according to date of diagnosis: one group diagnosed in 2004 and a second group in 2005-2006. In the 460 cases of 2004, nodal involvement, receptor status, age at diagnosis and TNM maintained a strong predictive value (p?相似文献   

Antibody-drug conjugates in breast cancer: Marching from HER2-overexpression into HER2-low

The recent decade has witnessed a vigorous prosper of antibody-drug conjugates (ADCs) in solid tumors including breast cancer. Integrating the specificity of monoclonal antibodies and potency of cytotoxic drugs, ADCs are capable of delivering cytotoxic agents directly to tumor cells and surrounding accomplices with heterogeneous antigen expression by exerting the distinctive bystander effect. Up till now, three ADCs (T-DM1, T-DXd and SG) have attained the official approval and stepped into clinical practices in breast cancer, with numerous promising products in the pipeline. As an unprecedented breast cancer subgroup identified following solidified drug benefit, the cognitive and therapeutic paradigm of HER2-low population which was previously thought lacking definite targets and efficacious regimens has been thoroughly rewritten by ADCs, and several encouraging achievements are expected in ongoing trials. Herein, we discuss the contrived knowledge, latest advancements and future perspectives of ADCs in HER2-overexpressing and HER2-low breast cancer.     

The cooperation between hMena overexpression and HER2 signalling in breast cancer

hMena and the epithelial specific isoform hMena(11a) are actin cytoskeleton regulatory proteins belonging to the Ena/VASP family. EGF treatment of breast cancer cell lines upregulates hMena/hMena(11a) expression and phosphorylates hMena(11a), suggesting cross-talk between the ErbB receptor family and hMena/hMena(11a) in breast cancer. The aim of this study was to determine whether the hMena/hMena(11a) overexpression cooperates with HER-2 signalling, thereby affecting the HER2 mitogenic activity in breast cancer. In a cohort of breast cancer tissue samples a significant correlation among hMena, HER2 overexpression, the proliferation index (high Ki67), and phosphorylated MAPK and AKT was found and among the molecular subtypes the highest frequency of hMena overexpressing tumors was found in the HER2 subtype. From a clinical viewpoint, concomitant overexpression of HER2 and hMena identifies a subgroup of breast cancer patients showing the worst prognosis, indicating that hMena overexpression adds prognostic information to HER2 overexpressing tumors. To identify a functional link between HER2 and hMena, we show here that HER2 transfection in MCF7 cells increased hMena/hMena(11a) expression and hMena(11a) phosphorylation. On the other hand, hMena/hMena(11a) knock-down reduced HER3, AKT and p44/42 MAPK phosphorylation and inhibited the EGF and NRG1-dependent HER2 phosphorylation and cell proliferation. Of functional significance, hMena/hMena(11a) knock-down reduced the mitogenic activity of EGF and NRG1. Collectively these data provide new insights into the relevance of hMena and hMena(11a) as downstream effectors of the ErbB receptor family which may represent a novel prognostic indicator in breast cancer progression, helping to stratify patients.     

Immunoproteomics of HER2-positive and HER2-negative breast cancer patients with positive lymph nodes

Identification of more and more novel tumor antigens and autoantibodies will lead to the earlier diagnosis, better prognosis prediction, and more efficient therapy of cancer in the future. Immunoproteomics techniques have successfully been used for finding novel cancer biomarkers in different subgroups of cancer patients. HER2 is a marker for an aggressive breast cancer, particularly in node-positive (NP) cases. The aim of our study was to identify antigens eliciting a humoral immune response in HER2+ and HER2- NP breast cancers by two-dimensional electrophoresis (2D), Western blotting, and mass spectrometry. Sera from 18 women with newly diagnosed NP breast cancer (9 HER2+ and 9 HER2-) and 9 healthy volunteers were individually investigated for the presence of antibodies to MCF7 breast cancer cell line proteome. Reactive spots in 2D blots were matched to stained 2D gels. Twenty-eight of matched spots were identified by mass spectrometry. Among them were LDH-A, glyceraldehydes-3-phosphate dehydrogenase, enolase-α, phosphoglycerate dehydrogenase, proteasome 26S non-ATPase subunit 13, triosephosphate isomerase, hnRNP K, hsp27, hsp90, prohibitin, nucleophosmin, 14-3-3?, PP2A regulatory subunit, and ribonuclease inhibitor-angiogenin. The five former antigens were more commonly reacted with sera from HER2+ cases, and the three latter antigens were more commonly reacted with sera from HER2- cases. Noteworthy, the antigenicity of the 28 spots showed a few differences when SBR3 cell line was used as the source of antigens. Although some of the identified antigens were previously defined as tumor antigens, others were novel. Further investigations for their utilizations as markers for breast cancer diagnosis, progression, and therapy are warranted.     

A novel treatment strategy of HER2-targeted therapy in combination with Everolimus for HR+/HER2- advanced breast cancer patients with HER2 mutations

The incidence of HER2 somatic mutations in breast cancer is about 2–4%, mainly occurring in the HR+/HER2- subtype. Preclinical studies suggest that HER2 mutations can lead to constitutive HER2 activation, but effective treatment options for the clinical management of patients with HER2 mutations remain obscure. Our study analyzed HER2 mutation status by performing next-generation sequencing using tumor tissues and over 300 plasma samples from 72 metastatic breast cancer patients. We observed that two patients bearing HER2 mutations (Patient #1 bearing S310F and V777L mutations, Patient #2 bearing 778insGSP mutation) achieved a durable partial response to Trastuzumab combined with Everolimus. In vitro experiments showed that T47D and MCF7 cells overexpressing these HER2 mutants (S310F, V777L, 778insGSP and L755S) were sensitive to HER2-targeted therapies combined with the mTOR inhibitor Everolimus. These findings provide a treatment option for patients with HER2 mutations by combining HER2-targeted therapies with Everolimus.     

The influence of HER2 genotypes as molecular markers on breast cancer outcome

Alterations of the human epidermal growth factor receptor 2 (HER2) protooncogene have been implicated in the carcinogenesis and prognosis of breast cancer. A polymorphism has been identified at codon 655 (ATC/isoleucine to GTC/valine [I655V]) in the transmembrane domain-coding region of this gene, which may be associated with the risk of breast cancer. In this study we aimed to determine whether the risk of breast cancer is associated with the I655V polymorphism of HER2 transmembrane domain-coding region at codon 655. The genomic DNA from breast cancer patients and control subjects underwent analysis by the polymerase chain reaction-fragment length polymorphism. We observed no overall association between HER2 genotype and breast cancer (p = 0.53). However, an elevated positive association was observed for Ile/Val+Val/Val versus Ile/Ile genotypes in women >age 60 years (p = 0.02). Further, other risk factors--namely, the body mass index and family history--were found to be risk factors for developing breast cancer (p = 0.006 and p = 0.00, respectively). In conclusion, results of this study suggest that polymorphisms of the HER2 gene may be important susceptibility biomarkers for breast cancer risk among older women.