HER-2/neu and topoisomerase IIalpha in breast cancer

Topoisomerase IIalpha in Wilms' tumour: gene alterations and immunoexpression

BACKGROUND

Topoisomerase IIalpha (topoIIalpha) is an essential enzyme gene in regulating DNA structure and cell proliferation and is encoded by the TOP2A. Using cDNA microarray analysis, TOP2A has been reported to be one of the top genes overexpressed in Wilms' tumour.

AIM

To evaluate the role of TopoIIalpha in Wilms' tumorigenesis and its prognostic value.

METHODS

TOP2A gene copy numbers were determined using the fluorescence in situ hybridisation technique, and protein expression levels of TopoIIalpha by immunostaining in 39 samples of primary and 18 samples of metastatic Wilms' tumour.

RESULTS

TOP2A gene amplification was detected only in anaplastic Wilms' tumours, and none of the Wilms' tumours showed deletion of the TOP2A gene. TopoIIalpha protein overexpression was detected in 97% of Wilms' tumours, and correlated strongly with proliferation, as measured by Ki-67 (r = 0.85). The high TopoIIalpha expression was associated with the presence of vascular invasion, prominent apoptosis, metastases and adverse clinical outcomes (p<0.05).

CONCLUSIONS

Our findings suggest that TopoIIalpha overexpression in Wilms' tumours is caused by a change at the transcription level, except for anaplastic Wilms' tumours, in which gene amplification was present. High levels of TopoIIalpha protein are correlated with tumour aggressiveness. The assessment of TopoIIalpha expression in Wilms' tumour may have prognostic value.

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.

Prognostic relevance of disseminated tumor cells in the bone marrow and biological factors of 265 primary breast carcinomas

Introduction

The prognostic significance of disseminated tumor cells in the bone marrow (DTC-BM) of breast cancer patients has been demonstrated in many studies. Yet, it is not clear which of the primary tumors' biological factors predict hematogenous dissemination. We therefore examined 'tissue micro arrays' (TMAs) of 265 primary breast carcinomas from patients with known bone marrow (BM) status for HER2, Topoisomerase IIα (Top IIa), Ki 67, and p53.

Methods

BM analysis was performed by cytospin preparation and immunocytochemical staining for cytokeratin (CK). TMAs were examined by immunohistochemistry (IHC) for HER2, Top IIa, Ki 67 and p53, and fluorescence in situ hybridization (FISH) for HER2.

Results

HER2 (2+/3+) was positive in 35/167 (21%) cases (FISH 24.3%), Top IIa (>10%) in 87/187 (46%), Ki 67 in 52/184 (28%) and p53 (>5%) in 61/174 cases (34%). Of 265 patients, 68 (25.7%) showed DTC-BM with a median of 2/2 × 10⁶ cells (1 to 1,500). None of the examined factors significantly predicted BM positivity. Significant correlation was seen between HER2 IHC and Top IIa (p = 0.06), Ki 67 (p = 0.031), and p53 (p < .001). Top IIa correlated with Ki 67 and p53, and Ki 67 also with p53 (p = 0.004). After a median follow-up of 60.5 months (7 to 255), the presence of DTC-BM showed prognostic relevance for overall survival (p = 0.03), whereas HER2 (IHC, p = 0.04; FISH, p = 0.03) and Ki 67 (p = 0.04) correlated with disease free survival, and HER2 with distant disease free survival (IHC, p = 0.06; FISH, p = 0.05).

Discussion

The congruence of the examined factors' expression rates indicates a causal line of suppressor, proliferation, and mitosis markers, and growth factor receptors. Hematogenous tumor cell spread seems to be an independent process. The examination of these factors on DTC-BM is the aim of ongoing research.

Isolated tumor cells in the bone marrow (ITC-BM) of breast cancer patients before and after anthracyclin based therapy: influenced by the HER2- and Topoisomerase IIα-status of the primary tumor?

PURPOSE

The presence of isolated tumor cells in the bone marrow (ITC-BM) is an independent prognostic factor in all stages of breast cancer. Both the expression/amplification of human epithelial growth factor receptor 2 (HER2) and Topoisomerase IIalpha (TOP IIa), a key enzyme of DNA replication and main target of anthracyclins, in breast cancer tissue seem to have predictive value regarding the effectiveness of systemic therapies.

METHODS

To investigate the correlation between these factors and their influence on clinical outcome, tumor tissue of 54 patients who were screened for ITC-BM before and after anthracyclin-based chemotherapy (abCTX) was examined for HER2 and TOP IIa by immunohistochemistry (IHC) and fluorescence in situ hybridization (FISH).

RESULTS

By IHC, 31% of the tumors showed positive for HER2 (2+/3+), 14.6% were amplified in FISH. TOP IIa expression (>50%) was found in 13/53 patients (25%), FISH was positive in 5/47 cases (11%). TOP IIa amplification was not seen in cases without HER2 amplification, five of the seven HER2 amplified cases also were amplified for TOP IIa (71% co-amplification). Forty-three patients had adjuvant, seven neo-adjuvant, four palliative abCTX. ITC-BM were present in 24% of patients before and 31% after CTX. Patients with HER2 (IHC, P = 0.29) and TOP IIa (FISH, P = 0.16) positive tumors tended to stay or become negative in BM status after abCTX and vice versa. After a median follow-up of 44 months (6-127), none of the factors reached significance for overall survival. Yet, patients with HER2 (P = 0.16) and TOP IIa (P = 0.09) positive tumors showed a trend towards prolonged disease-free survival. Remarkably, none of the TOP IIa FISH-positive patients developed distant metastases (P = 0.099) or died (P = 0.19) after CTX so far.

CONCLUSIONS

HER2- and TOP IIa positivity seem to improve the effect of abCTX. The combination of the prognostic value of ITC-BM and the predictive capacity of HER2 and TOP IIa could help to stratify patients for certain therapies. The direct examination of those factors on ITC-BM is the focus of ongoing studies.

Regulation of p38 Phosphorylation and Topoisomerase IIα Expression in the B-Cell Lymphoma Line Jiyoye by CD26/Dipeptidyl Peptidase IV Is Associated with Enhanced In vitro and In vivo Sensitivity to Doxorubicin

CD26 is a Mr 110,000 surface-bound glycoprotein with diverse functional properties, including having a key role in normal T-cell physiology and the development of certain cancers. In this article, we show that surface expression of CD26, especially its intrinsic dipeptidyl peptidase IV (DPPIV) enzyme activity, results in enhanced topoisomerase IIalpha level in the B-cell line Jiyoye and subsequent in vitro sensitivity to doxorubicin-induced apoptosis. In addition, we show that expression of CD26/DPPIV is associated with increased phosphorylation of p38 and its upstream regulators mitogen-activated protein kinase kinase 3/6 and apoptosis signal-regulating kinase 1 and that p38 signaling pathway plays a role in the regulation of topoisomerase IIalpha expression. Besides demonstrating that CD26 effect on topoisomerase IIalpha and doxorubicin sensitivity is applicable to cell lines of both B-cell and T-cell lineages, the potential clinical implication of our work lies with the fact that we now show for the first time that our in vitro results can be extended to a severe combined immunodeficient mouse model. Our findings that CD26 expression can be an in vivo marker of tumor sensitivity to doxorubicin treatment may lead to future treatment strategies targeting CD26/DPPIV for selected human cancers in the clinical setting. Our article thus characterizes the biochemical linkage among CD26, p38, and topoisomerase IIalpha while providing evidence that CD26-associated topoisomerase IIalpha expression results in greater in vitro and in vivo tumor sensitivity to the antineoplastic agent doxorubicin.

The role of the liposomal anthracyclines and other systemic therapies in the management of advanced breast cancer

For patients whose breast cancers are not responsive to endocrine therapy, there are a large number of cytotoxic drugs that will induce a response. In spite of the introduction of new, very active drugs such as the taxanes, vinorelbine, capecitabine, gemcitabine, and trastuzumab, the anthracyclines are still as active as any--and more active than most--drugs used to treat breast cancer. Their inclusion in combinations to treat early and advanced disease prolongs survival. However, they cause nausea, vomiting, alopecia, myelosuppression, mucositis, and cardiomyopathies. There is no evidence that increasing the dose of conventional anthracyclines or any other of the cytotoxics beyond standard doses will improve outcomes. Schedule may be more important than dose in determining the benefit of cytotoxics used to treat breast cancer. Weekly schedules and continuous infusions of 5-fluorouracil and doxorubicin may have some advantages over more intermittent schedules. Liposomal formations of doxorubicin reduce toxicity, including cardiotoxicity; theoretically they should also be more effective because of better targeting of tumor over normal tissues. Both pegylated liposomal doxorubicin (Doxil/Caelyx [PLD]) and liposomal doxorubicin (Myocet [NPLD]) appeared to be as effective as conventional doxorubicin and much less toxic in multiple phase II and phase III studies. PLD has been evaluated in combinations with cyclophosphamide, the taxanes, vinorelbine, gemcitabine, and trastuzumab, and NPLD has been evaluated in combination with cyclophosphamide and trastuzumab. Both liposomal anthracyclines are less cardiotoxic than conventional doxorubicin. The optimal dose of PLD is lower than that of conventional doxorubicin or NPLD. Patients treated with PLD have almost no alopecia, nausea, or vomiting, but its use is associated with stomatitis and hand-foot syndrome, which can be avoided or minimized with the use of proper dose-schedules. In contrast, the optimal dose-schedule of NPLD is nearly identical to that of conventional doxorubicin. The toxicity profile of NPLD is similar to that of conventional doxorubicin, but toxicities are less severe and NPLD is better tolerated than conventional doxorubicin at higher doses.

Topoisomerase IIalpha gene (TOP2A) amplification and deletion in cancer--more common than anticipated

In solid tumours the predominant genetic mechanism for oncogene activation is through amplification of genes. The HER-2 (also known as ErbB2/c-erbB2/HER-2/neu) oncogene is the most frequently amplified oncogene in breast cancer and is also commonly amplified in other forms of cancer. The HER-2 amplicon also contains other biologically relevant genes with altered copy numbers, among these genes is the topoisomerase IIalpha (TOP2A). TOP2A gene is located adjacent to the HER-2 oncogene at the chromosome location 17q12-q21 and is either amplified or deleted, with equal frequency, in almost 90% of HER-2 amplified primary breast tumours. Recent data suggest that amplification and deletion of TOP2A may account for both sensitivity and resistance to topoII-inhibitor-chemotherapy, depending on the specific genetic defect at the TOP2A locus. In this issue of the Cytopathology, Bofin et al. present preliminary evidence for high prevalance of TOP2A amplification and deletion not only in the HER-2 amplified breast tumours, but also in the primary breast tumours without the HER-2 amplification. This finding together with the concept that TOP2A gene amplification and deletion seem to account for both relative chemosensitivity and resistance to topoII-inhibitor therapy further highlights the importance of screening for TOP2A gene copy number aberrations when topoII-inhibitors are considered either alone or in combination of other chemotherapeutic drugs for the treatment of cancer patients.