Trastuzumab emtansine: a novel antibody-drug conjugate for HER2-positive breast cancer

INTRODUCTION: Trastuzumab emtansine (T-DM1) is an antibody-drug conjugate (ADC) that combines intracellular delivery of the potent cytotoxic agent, DM1 (a derivative of maytansine) with the antitumor activity of trastuzumab. While there are several ADCs in Phase III development, T-DM1 is the only one in which the targeting antibody has antitumor properties. T-DM1 is also the only ADC that is directed toward the human EGFR 2 (HER2). Effective therapies are limited in HER2-positive advanced or metastatic breast cancer (MBC), particularly following progression on available HER2-targeted therapies. AREAS COVERED: The mechanisms of action, preclinical efficacy and clinical profile of T-DM1 are reported. The latest preclinical and clinical data for T-DM1 are examined. EXPERT OPINION: T-DM1 has significant antitumor potency in vitro and in vivo, which is maintained in tumors resistant to trastuzumab or lapatinib. In Phase I and II trials, T-DM1 provided objective tumor responses and was well tolerated across various lines of therapy in patients with HER2-positive MBC. In addition, it showed similar efficacy to trastuzumab plus docetaxel in first-line MBC. Ongoing trials (including two Phase III studies) are investigating T-DM1 as single-agent therapy or combined with other chemotherapeutic or biologic agents, and the results should help to define the place of T-DM1 within current treatment algorithms for HER2-positive disease.     

Trastuzumab emtansine in breast cancer

Introduction: Trastuzumab emtansine (T-DM1) is a human epidermal growth factor receptor 2 (HER2)–targeted antibody–drug conjugate (ADC) composed of trastuzumab, a stable linker (MCC), and the cytotoxic agent DM1 (derivative of maytansine). Administration of T-DM1 leads to limited systemic exposure of free DM1, with no evidence of DM1 accumulation after repeated dosing.

Areas covered: Phase I and Phase II clinical trials with T-DM1 as a single agent and in combination with paclitaxel, docetaxel, and pertuzumab have shown substantial clinical activity and a favorable safety profile. A randomized, open-label, first-line trial comparing trastuzumab and docetaxel with single agent T-DM1 showed a significant improved progression-free survival for T-DM1.

Expert opinion: T-DM1 has successfully completed second-line Phase III development for advanced HER2-positive breast cancer. The Phase III EMILIA study demonstrated an overall survival benefit for T-DM1 compared to the combination of lapatinib and capecitabine in taxane-trastuzumab pretreated patients. T-DM1 may offer delivery on a personalized basis of very potent cytotoxic agents in a cellular selective manner.     

Treating metastatic breast cancer with systemic chemotherapies: current trends and future perspectives

Treatment selection for metastatic breast cancer (MBC) is guided by multiple factors, most importantly hormone receptor (HR) or HER2 expression, treatment history, and prognostic factors such as short disease-free interval, presence of visceral metastases, performance status, and degree of symptoms. Chemotherapy is indicated as initial therapy for patients with HR-negative disease and following failure of hormonal therapies in HR-positive disease. Patients treated with an anthracycline or a taxane in early-stage settings may no longer be candidates for those drugs in MBC, thus underscoring the need for alternative options. Sequential single-agent therapy or combination therapy are viable strategies. Trials have shown that ixabepilone plus capecitabine significantly improves progression-free survival compared with capecitabine alone in anthracycline- or taxane-pretreated or -resistant patients, and single-agent eribulin improves survival compared with the physician's choice of treatment in patients treated previously with at least two regimens for MBC. Regardless of the regimen, proactive management to detect treatment-related adverse events in a timely manner remains important for ensuring effective delivery of treatment. Many promising investigational agents are in development, including T-DM1 (trastuzumab emtansine) and pertuzumab for HER2-positive disease, as well as PARP-1 (poly[adenosine diphosphate ribose] polymerase-1) inhibitors and cetuximab for triple-negative disease. In addition, new options for the treatment of MBC following failure of an anthracycline and a taxane promise to improve patient outcomes. Nurses should remain vigilant for adverse events and remember that the goal of treatment remains control of the disease and palliation.     

The effect of different linkers on target cell catabolism and pharmacokinetics/pharmacodynamics of trastuzumab maytansinoid conjugates

Trastuzumab emtansine (T-DM1) is an antibody-drug conjugate consisting of the anti-HER2 antibody trastuzumab linked via a nonreducible thioether linker to the maytansinoid antitubulin agent DM1. T-DM1 has shown favorable safety and efficacy in patients with HER2-positive metastatic breast cancer. In previous animal studies, T-DM1 exhibited better pharmacokinetics (PK) and slightly more efficacy than several disulfide-linked versions. The efficacy findings are unique, as other disulfide-linked antibody-drug conjugates (ADC) have shown greater efficacy than thioether-linked designs. To explore this further, the in vitro and in vivo activity, PK, and target cell activation of T-DM1 and the disulfide-linked T-SPP-DM1 were examined. Both ADCs showed high in vitro potency, with T-DM1 displaying greater potency in two of four breast cancer cell lines. In vitro target cell processing of T-DM1 and T-SPP-DM1 produced lysine-N(ε)-MCC-DM1, and lysine-N(ε)-SPP-DM1 and DM1, respectively; in vivo studies confirmed these results. The in vitro processing rates for the two conjugate to their respective catabolites were similar. In vivo, the potencies of the conjugates were similar, and T-SPP-DM1 had a faster plasma clearance than T-DM1. Slower T-DM1 clearance translated to higher overall tumor concentrations (conjugate plus catabolites), but unexpectedly, similar levels of tumor catabolite. These results indicate that, although the ADC linker can have clear impact on the PK and the chemical nature of the catabolites formed, both linkers seem to offer the same payload delivery to the tumor.     

Use of Pertuzumab for the Treatment of HER2-Positive Metastatic Breast Cancer

Introduction

Targeting the human epidermal growth factor receptor (HER) family of tyrosine kinase receptors has proven to be effective as a therapeutic strategy for HER type 2 (HER2)-positive breast cancer. Since resistance to trastuzumab occurs relatively frequently, particularly in the metastatic setting, novel anti-HER2 targeted therapies with complementary and/or synergistic mechanisms of action have been under development. Pertuzumab, a HER2-targeted monoclonal antibody that prevents HER2 dimerisation, is the first of a class of promising targeted agents for the treatment of HER2-positive breast cancer.

Methods

A review of the biomedical literature published prior to February 2013 was conducted in English using PubMed. ClinicalTrials.gov was searched for appropriate clinical trials. The search terms used included breast neoplasm, pertuzumab, dimerisation, and HER2-positive. Abstracts of studies presented at the ASCO and ESMO Annual Meetings, and San Antonio Breast Cancer Symposium were also included.

Results

Pertuzumab represents a novel anti-HER2 targeted therapy for HER2-positive breast cancers. In this article, we describe the mechanism of action of pertuzumab, as well as its drug development process and preclinical testing results. Based on the results of ancillary studies, dual inhibition using pertuzumab and trastuzumab was shown to be effective for the management of HER2-positive metastatic breast cancers pre-treated with trastuzumab-based therapy. For the first-line setting, the combination of both pertuzumab and trastuzumab with docetaxel (CLEOPATRA trial; clinical evaluation of pertuzumab and trastuzumab) has changed the paradigm of patient management.

Conclusion

Pertuzumab provided a more comprehensive inhibition of HER2-driven signalling pathways. When administered together with trastuzumab, pertuzumab represent a significant advancement for the treatment of HER2-positive metastatic breast cancer patients.     

ABP 980: promising trastuzumab biosimilar for HER2-positive breast cancer

Introduction: Approval of the HER2-targeted antibody trastuzumab dramatically improved outcomes for patients with HER2-positive breast cancer. Multiple trastuzumab biosimilars, including ABP 980, are in clinical development. Biosimilars are not identical to the reference biologic, but exhibit equivalence and safety in analytical and clinical studies.

Areas covered: A brief introduction to trastuzumab, overview of trastuzumab biosimilars, and detailed review of ABP 980 preclinical and clinical studies are included. We searched PubMed and 2016–2017 ASCO and ESMO conference proceedings for ‘ABP 980’ or ‘trastuzumab biosimilar’. ‘ABP 980 and breast cancer’ or ‘trastuzumab biosimilar and breast cancer’ were used to search clinicaltrials.gov for phase III trials. Analytical studies of ABP 980 pharmacokinetics (PK) or pharmacodynamics (PD), phase I studies of ABP 980 safety and PK/PD, and phase III studies of clinical efficacy vs trastuzumab are included.

Expert opinion: Questions remain regarding long-term impact of biosimilars on overall healthcare costs, insurance coverage of multiple approved biosimilars, and extensive clinical safety and efficacy follow-up. By producing a competitive market, trastuzumab biosimilars are anticipated to improve access to standard of care therapies, although real-world evidence remains to be obtained. Increased global access to HER2-targeted therapy may eventually alter the landscape of breast cancer and survival rates.     

Mechanism of action of the trastuzumab biosimilar CT-P6

ABSTRACT

Objectives: Therapeutic monoclonal antibody biosimilars are expected to help reduce the sizeable economic burden of targeted treatments. Trastuzumab (Herceptin®), a recombinant humanized monoclonal antibody that binds to the extracellular domain of HER2, is approved for use in HER2-overexpressing breast cancer (in both the adjuvant and metastatic settings) and HER2-positive gastric cancer. CT-P6 (Herzuma®) is a biosimilar of trastuzumab, designed to bind with high affinity and specificity to the same HER2 epitope as the reference product. We investigated whether CT-P6 exerts its effects through the same mechanism of action as trastuzumab.

Methods: The mechanism of action of CT-P6 and trastuzumab, both as monotherapy and in combination with paclitaxel or pertuzumab, was compared in HER2-overexpressing breast cancer and gastric cancer cell models.

Results: We confirmed that CT-P6 functions in a manner similar to trastuzumab by binding to the HER2 receptor, which is central to the effects of trastuzumab in all indications.

Conclusions: Collectively, the results of this study show that the mechanisms of action of CT-P6 and trastuzumab are similar in HER2-positive breast cancer and gastric cancer models and, therefore, CT-P6 can be expected to perform similarly in the clinical setting.     

Dual HER2 inhibition strategies in the management of treatment-refractory metastatic colorectal cancer: History and status

Human epidermal growth factor receptor 2 (HER2) signaling pathway activation has been identified as a contributor to de novo or acquired resistance to epidermal growth factor receptor (EGFR) inhibitors in a small subset of patients with metastatic colorectal cancer (mCRC). Dual anti-HER2-targeted treatment exhibits strong antitumor activity in preclinical models of HER2-positive mCRC, supporting its testing in clinical trials. The HERACLES trial at four Italian academic cancer centers has confirmed the effectiveness of dual blockage of HER2 with trastuzumab plus lapatinib in patients with heavily pretreated HER2-positive mCRC, refractory to the anti-EGFR antibodies cetuximab or panitumumab. Here, we reviewed the preclinical studies exploring the role of HER2 signaling in the development of anti-EGFR therapy resistance and discussed the status of clinical trials assessing the activity of HER2 inhibitors in this setting.     

HER2 as a target for breast cancer therapy

Importance of the field: Differential levels of HER2 expression in normal versus HER2-overexpressing breast carcinomas, together with the demonstration of a key role for HER2 in tumor progression, make HER2 an ideal target for specific therapeutic approaches.

Areas covered in this review: This review considers the clinical value of trastuzumab and lapatinib, the two HER2-targeted therapies approved for clinical practice. References were chosen by searching the PubMed and MEDLINE datasets using as search term: ‘HER2’, in association with ‘prognosis’, ‘response’, ‘trastuzumab’, ‘lapatinib’ and ‘resistance’.

What the reader will gain: This review deals with HER2 as a target for breast carcinoma treatment, focusing on anti-HER2 therapies used in clinical practice, their merits and shortcomings.

Take home message: The benefit of anti-HER2 therapies demonstrated in clinical trials indicates that HER2 is, to date, one of the most promising molecules for targeted therapy. Nevertheless, since tumor cells utilizing alternative growth signaling pathways through transmembrane receptors as well as intracellular signaling transduction molecules can bypass HER2 blockade, a future ambitious aim is the successful combination of anti-HER2 strategies with drugs directed to molecules that contribute to anti-HER2 resistance.     

VB-111 for cancer

Introduction: Antibody, small molecule and protein inhibitors of angiogenesis are used in the management of several cancers. These do not specifically target tumor vascularity, and resistance can be problematic. VB-111 is a vascular-targeting agent consisting of a non-replicating adenovirus vector with a pre-proendothelin-1 promoter that encodes an apoptotic receptor.

Areas covered: The rationale and design of VB-111, its mechanism of action, and preclinical studies examining antitumor activity, toxicology and pharmacodynamics are reviewed. Phase I and Phase II clinical trials are also reviewed.

Expert opinion: VB-111 is a vascular-targeting gene therapeutic that is both tissue- and condition-specific, with effects limited to endothelial cells undergoing angiogenesis. Systemic administration produces selective destruction of tumor vascularity. Synergistic antitumor activity can be observed when combined with chemotherapy. VB-111 has been found to be safe and well tolerated in a Phase I clinical trial in patients with advanced solid tumors. Phase II clinical trials are in progress. VB-111 is novel agent for cancer that may have application as monotherapy and in combination with other therapies.     

Herpes simplex virus oncolytic vaccine therapy in melanoma

Importance of the field: Advanced melanoma is a devastating disease with a five year survival for Stage IV disease of 10 – 20% and a median survival of 6 – 18 months depending on sub-stage. Current FDA approved therapies demonstrate limited response rates, few complete remissions and no proven survival benefit. New therapies are clearly needed. JSI/34.5-/47-/GM-CSF is a herpes simplex virus-1 (OncoVEX^GM-CSF) oncolytic vaccine therapy designed to induce local and systemic anti-tumor immune responses.

Areas covered in this review: Evolution of current herpes simplex virus oncolytic vaccines from preclinical to clinical studies from 1994 to 2010.

What the reader will gain: Preclinical studies have shown that herpes simplex virus-1 oncolytic vaccines generate local tumor destruction through the lytic action of the virus and local and systemic immune responses. Phase I studies demonstrated limited toxicities with no neurotoxicty. Phase II studies demonstrated durable regressions in patients with metastatic melanoma. A Phase III trial in melanoma is ongoing to determine clinical effectiveness, and a Phase III trial in head and neck cancer will initiate during 2010.

Take home message: JSI/34.5-/47-/GM-CSF is a new generation herpes simplex virus-1 oncolytic vaccine that demonstrates direct tumor lysis and systemic immune responses. Early clinical studies have yielded preliminary evidence of activity.     

Herceptin-based therapy for breast cancer

HER2 gene is overexpressed or amplified in approximately 30% of breast cancer. Breast cancer patients with HER2-overexpression or amplification have shortened disease free and overall survival. The HER2 protein is a useful target for antibody therapy of cancers overexpressing the HER2 gene. Since the recombinant humanized anti-HER2 monoclonal antibody, trastuzumab (Herceptin) was introduced into clinical practice, trastuzumab has become one of the key drugs in the treatment for HER2 positive metastatic breast cancer(MBC). However, much controversy exists on the optimal use of trastuzumab. In this paper, positioning of trastuzumab in the treatment algorithm for HER2 positive MBC as well as early breast cancer will be reviewed and discussed on the basis of our experience.     

A HER2-specific Modified Fc Fragment (Fcab) Induces Antitumor Effects Through Degradation of HER2 and Apoptosis

FS102 is a HER2-specific Fcab (Fc fragment with antigen binding), which binds HER2 with high affinity and recognizes an epitope that does not overlap with those of trastuzumab or pertuzumab. In tumor cells that express high levels of HER2, FS102 caused profound HER2 internalization and degradation leading to tumor cell apoptosis. The antitumor effect of FS102 in patient-derived xenografts (PDXs) correlated strongly with the HER2 amplification status of the tumors. Superior activity of FS102 over trastuzumab or the combination of trastuzumab and pertuzumab was observed in vitro and in vivo when the gene copy number of HER2 was equal to or exceeded 10 per cell based on quantitative polymerase chain reaction (qPCR). Thus, FS102 induced complete and sustained tumor regression in a significant proportion of HER2-high PDX tumor models. We hypothesize that the unique structure and/or epitope of FS102 enables the Fcab to internalize and degrade cell surface HER2 more efficiently than standard of care antibodies. In turn, increased depletion of HER2 commits the cells to apoptosis as a result of oncogene shock. FS102 has the potential of a biomarker-driven therapeutic that derives superior antitumor effects from a unique mechanism-of-action in tumor cells which are oncogenically addicted to the HER2 pathway due to overexpression.     

Adding Pertuzumab to Trastuzumab and Taxanes in HER2 positive breast cancer

Introduction: The monoclonal antibody trastuzumab has improved the median disease free and overall survival of patients with early stage breast cancer that overexpresses the human epidermal growth factor receptor 2 (HER2). Despite this advance, some patients experience cancer relapse and novel approaches are always needed. One such advance is the monoclonal antibody pertuzumab, which prevents dimerisation between members of the HER family of transmembrane glycoprotein receptors.

Areas covered: In this review, the authors analyse recent research which has focused on the development of new HER2 targeting agents for HER2-positive breast cancer, particularly pertuzumab, and its addition to trastuzumab and taxanes.

Expert opinion: Pertuzumab has significantly improved disease control in patients with advanced HER2 positive breast cancer when added to chemotherapy and trastuzumab. Although pertuzumab has also increased response rates in the preoperative setting, this has not yet translated into increased overall survival. The authors believe that future research should focus on improvements in novel biomarkers to select patients for new treatments.     

Antitumor activity of the Hsp90 inhibitor IPI-504 in HER2-positive trastuzumab-resistant breast cancer

Hsp90 facilitates the maturation and stability of numerous oncoproteins, including HER2. The aim of this study was to assess the antitumor activity of the Hsp90 inhibitor IPI-504 in trastuzumab-resistant, HER2-overexpressing breast cancer cells. Therapy with trastuzumab, IPI-504, and the combination of trastuzumab and IPI-504 was evaluated in trastuzumab-sensitive and trastuzumab-resistant cells. Inhibition of protein targets, cell proliferation, and tumor growth was assessed in vitro and in xenograft models. IPI-504 inhibited proliferation of both trastuzumab-sensitive and trastuzumab-resistant cells. Administration of IPI-504 markedly reduced total levels of HER2 and Akt, as well as phosphorylated Akt and mitogen-activated protein kinase (MAPK), to an equal extent in trastuzumab-sensitive and trastuzumab-resistant cells. IPI-504, used as single agent or in combination with trastuzumab, also inhibited in vivo the growth of both trastuzumab-sensitive and -resistant tumor xenografts. As a mechanism for the observed antitumor activity, IPI-504 resulted in a marked decrease in the levels of HER2, Akt, p-Akt, and p-MAPK in trastuzumab-resistant xenografts as early as 12 hours after a single dose of IPI-504. IPI-504-mediated Hsp90 inhibition may represent a novel therapeutic approach in trastuzumab refractory HER2-positive breast cancer.     

Clinical development of CT-P6 in HER2 positive breast cancer

ABSTRACT

Introduction: CT-P6 (trastuzumab-pkrb, Herzuma) is a trastuzumab biosimilar approved for use in HER2 positive breast cancer and HER2 positive gastric cancer. CT-P6 has been shown to exhibit similar safety and efficacy profiles to its reference product, trastuzumab. Preclinical and clinical studies have been performed to prove equivalence between CT-P6 and the trastuzumab originator.

Areas Covered: In this review, we examine the evidence comparing CT-P6 with its reference product, trastuzumab. Both monoclonal antibodies function to target cells that overexpress HER2 on the cell surface. Preclinical pharmacologic modeling of CT-P6 shows a similar mechanism of action to trastuzumab, similar pharmacologic properties and a phase I trial in healthy volunteers showed similar pharmacokinetics. A multicenter phase III randomized clinical trial in patients with early breast cancer showed equivalent safety and efficacy between CT-P6 and trastuzumab. One-year follow-up of patients showed identical rates of cardiotoxicity.

Expert Opinion: Preclinical and clinical studies showed CT-P6 pharmacologic profile, safety and efficacy are equivalent to trastuzumab. As such, it is a safe and effective alternative for use in patients with HER2 positive breast cancer and gastric cancer. Its implementation into clinical practice can potentially increase patient access and help financially alleviate overburdened health-care systems.     

Recent advances in the HER2 targeted therapy of gastric cancer

Recent advances in molecular targeted therapies, including targeting human epidermal growth factor receptor 2(HER2), had a major forward step in the therapy for gastric cancer patients. Application of HER2-targeted therapies, in particular trastuzumab in combination with chemotherapy in metastatic HER2-positive gastric cancers, resulted in improvements in response rates, time to progression and overall survival. Nevertheless, as with breast cancer, many patients with gastric cancer develop resistance to trastuzumab. Several promising therapies are currently being developed in combination with chemotherapy to increase the efficacy and overcome the cancerresistance. Here we review the current overview of clinical application of agents targeting HER2 in gastric cancer. We also discuss the ongoing trials supporting the use of HER2-targeted agents combined with cytotoxic agents or other monoclonal antibodies.     

Trastuzumab for gastric cancer

Background: Gastric cancer is a disease with different management approaches in different regions, especially between Western and Asian countries. Surgery is the mainstay of treatment for non-metastatic disease. Perioperative chemotherapy or adjuvant radio-chemotherapy is recommended, since recurrences are common after curative resection. Unfortunately, advanced or metastatic gastric cancer constitutes the majority of patients in clinical practice. For these patients systemic chemotherapy is the standard treatment, to provide palliation and prolong survival; however, prognosis remains poor. Several molecular targeting agents are under evaluation in international randomized studies. Objective: To review chemotherapy and targeted therapies for gastric cancer, chemical and pharmacological characteristics of trastuzumab, and evidence for its clinical use in gastric cancer. Methods: Examination of relevant literature. Results/conclusions: HER-2 is overexpressed/amplified in approximately 22% of gastric cancer patients. Trastuzumab, a recombinant humanized anti-HER-2 monoclonal antibody, is, to our knowledge, the first biological therapy that has showed a survival improvement by nearly 3 months (reduced risk of death by 26%), thus trastuzumab in combination with chemotherapy is a treatment option for patients with HER2-positive advanced gastric cancer. Trastuzumab's role in curative gastric cancer treatment needs to be studied, as well as monotherapy, maintenance therapy and second line treatment in the palliative setting.     

基于T2WI影像组学标签预测乳腺癌人表皮生长因子受体2表达状态

目的 探讨基于MR T2WI的影像组学标签在术前预测乳腺癌人表皮生长因子受体2（HER2）表达状态的价值。方法 回顾性收集209例乳腺癌患者的T2WI,将患者随机分为训练组（n=145）和验证组（n=64）。手动勾画病灶ROI,并于Matlab 2013a平台中提取组学特征。通过组间相关系数及最小绝对收缩和选择算子逻辑回归模型筛选组学特征并构建组学标签。比较HER2表达阳性与阴性亚组患者的影像组学得分差异,采用ROC曲线评价训练组中影像组学标签预测HER2的效能,并以获得的预测阈值用于验证组中进行验证。结果 最终获得由13个组学特征构成的影像组学标签。在训练组及验证组中,HER2阳性亚组与阴性亚组患者间组学得分差异均有统计学意义（P均<0.05）。基于T2WI的影像组学标签在训练组及验证组中的AUC分别为0.798、0.707。结论 基于T2WI构建的影像组学标签对术前预测乳腺癌HER2表达状态具有一定价值。