Introduction

In China, the most recent official data indicate continued increases in breast carcinoma incidence and associated mortality rates.¹ Although the introduction of trastuzumab, a therapeutic monoclonal antibody specific for the human epidermal growth factor receptor 2 (HER2), has revolutionized the management of HER2-positive breast cancers,² many patients present with HER2-negative tumors that are unresponsive to HER2-targeted therapies. All protocols in the present study were approved by the Human Clinical and Research Ethics Committee of the Zhejiang Cancer Hospital (Hangzhou, China). The patient provided written informed consent for the publication of case details and any accompanying images.

According to a previous report, about 2% of the patients with HER2-negative breast cancer harbor a somatic mutation in HER2, and such mutation was found to be associated with poor survival.³ In addition, a HER2 somatic mutation is considered a potential alternative pathway to HER2 activation; therefore, such tumors may be sensitive to anti-HER2 therapy.⁴ Here, we present a case of a patient with metastatic breast cancer (MBC) who harbored a HER2 V777L mutation despite a lack of HER2 amplification (via fluorescent in situ hybridization, FISH) from the tumor tissue. This patient achieved a significant clinical response to a combination chemotherapy regimen that included trastuzumab.

Case report

A 47-year-old Chinese woman was initially diagnosed with de novo stage IV breast cancer at a local hospital in September 2016. Breast ultrasonography located a primary lesion measuring 44×40×29 mm behind the left nipple, and abdominal computed tomography (CT) detected multiple lesions in both lobes of the liver. A core needle biopsy of the left breast mass revealed invasive ductal carcinoma (IDC). An immunohistochemical (IHC) study revealed an estrogen receptor-positive (ER+) frequency of 40%, progesterone receptor-positive (PR+) frequency of 20%, Ki-67 index frequency of 15%, and HER2 negativity (HER2-). Pathologic analysis of a liver tumor biopsy revealed metastatic IDC, with an IHC status of 70% ER+, 70% PR+, 15% Ki-67+, and HER2-. Although she subsequently received several lines of chemotherapy and hormonal therapy (fulvestrant; docetaxel+epirubicin+cyclophosphamide (TEC); paclitaxel; transcatheter arterial chemoembolization [TACE]; anastrozole and capecitabine), the tumors progressed rapidly.

On September 11, 2017, she visited Zhejiang Cancer Hospital with the complaint of a gradually enlarged and painful mass in her left breast and was determined to have an Eastern Cooperative Oncology Group performance score of 1. She had experienced regular menstrual cycles since undergoing menarche at 13 years of age and gave birth to her first child, who was breastfed, at 26 years of age. She entered menopause at 47 years of age. She had no history of oral contraceptive use, no family history of breast cancer, no psychosocial history, and no co-morbidities. Figure 1 summarizes the clinical course of this patient, who provided informed consent for the publication of these case details.

After she arrived at our hospital, physical and imaging examinations revealed a bulky mass in the left breast, multiple enlarged lymph nodes in the left axilla, and multiple massive tumors in both lobes of the liver (Figures 2A and 3A–C). A core needle biopsy of the primary lesion was obtained for IHC and next-generation sequencing (NGS) analyses, which sequenced the entire coding regions of 365 cancer-related genes and 47 introns of 25 genes frequently rearranged in cancer (Table 1). The pathologic analysis revealed IDC, with an IHC status of HER2 2+, 65% ER+, 5% PR+, and 40% Ki-67+. FISH indicated HER2– (HER2 signals =3.43, CEP17 signals =2.67, HER2/CEP 17=1.29, and chromosome 17= diploid) (Figure 4A–C). A pathologic review of the liver lesion prior to initial treatment indicated a metastasis of breast origin and the following IHC status: 70% ER+, 70% PR+, 15% Ki-67+, and HER2- (Figure 4D and E). Consistent with the prior IHC and FISH test results for the lesions, NGS of the left breast tumor did not detect ERBB2 amplification but rather identified a V777L mutation in HER2 at an allelic frequency of 40.90%. This mutation was also detected in circulating tumor DNA (ctDNA) at an allelic frequency of 33.85% (Table 1 and Figure 5). A mutation in TP53 (G245V: 70.6% in breast tumor, 41.51% in ctDNA) was also identified.

Following a multidisciplinary team conference, a treatment regimen comprising vinorelbine (25 mg/m² on days 1 and 8, every 3 weeks [Q3W]) plus trastuzumab (6 mg/kg, 8 mg/kg loading dose, q3w) was administered, which quickly relieved the pain in the left breast (Figure 2). A grade 1/2 gastrointestinal reaction and hematologic toxicity were observed during 4 cycles of this regimen. CT scans showed significant shrinkage of all lesions after the first 2 cycles of treatment, although heterogeneous responses were observed in the right and left liver lobes (Figure 3). Ultimately, the patient achieved a partial response (PR). Although the National Comprehensive Cancer Network guidelines for therapeutic efficacy evaluation do not recommend regular biological tumor marker detection, we observed remarkable declines in the patient's serum carbohydrate antigen 153 (from 180.34 to 6.9 ng/mL) and carcinoembryonic antigen levels (from 3,228.7 to 330.5 U/mL).

Discussion

Advances in chemotherapy and endocrine therapy have yielded impressive improvements in the clinical outcomes of patients with ER+, HER2- breast cancer. However, some de novo MBCs inevitably exhibit metastatic multidrug resistance,⁵ and effective strategies for these refractory cases are urgently needed.

Since its introduction almost 2 decades ago, anti-HER2 therapy has successfully prolonged the survival of many patients with HER2-positive MBC.⁶ Although somatic HER2 mutation has been suggested as a potential mechanism underlying resistance to trastuzumab,⁷ patients harboring unamplified or mutated HER2 may also respond to anti-HER2 agents.^4,8 In our case, NGS analyses of the breast tumor and ctDNA consistently revealed the presence of the HER2 V777L mutation prior to anti-HER2 therapy. The significant clinical response of this previously heavily treated and refractory HER2-mutant, non-HER2-amplified MBC to trastuzumab-based mono-chemotherapy was thus highly interesting.

Although reports from around the world describe overall HER2 mutation rates of approximately 1.6%–9% in MBC,^8–10 much higher rates are reported in Asian countries, with values of 16.7% in Korea⁹ and 13.3% in China.¹⁰ However, according to ctDNA data obtained at our institution, 9% (4/44) of the MBC patients seen between August 21, 2015, and June 12, 2018, were found to harbor the HER2 V777L mutation. This discrepancy may be attributable to differences in ethnicities or deep sequencing profiles.

Approximately two-thirds of known HER2 mutations were detected in HER2-negative breast cancers,⁸ and a majority of HER2 somatic mutations drive tumorigenesis in HER2- MBCs. In a recent report of a Chinese cohort of patients with MBC, 13.3% (16/120) harbored HER2 mutations.¹⁰ Most such mutations are detected in the tyrosine kinase domain of HER2 protein, primarily in exons 19–20. The most frequent mutation point is HER2 L755S (24%) in exon 19, followed by HER2 V777L (13.7%) in exon 20. Eight HER2 mutations have been proven to enhance kinase activity and tumorigenesis in preclinical studies.^4,11 Additionally, several mutation carriers exhibit resistance to lapatinib but sensitivity to neratinib, which could irreversibly inhibit the HER2 pathway.¹²

The HER2 mutation was first reported in lung cancer,¹³ and subsequent preclinical studies of breast and colorectal cancer found that these mutations were responsive to anti-HER2 agents, such as trastuzumab, lapatinib, and neratinib.^4,14 Interestingly, a previous case of HER2-mutated inflammatory breast carcinoma responded impressively to a combination of lapatinib or trastuzumab with chemotherapy.¹⁵ Recently, the HER2 V777L mutation was found to induce acquired resistance to trastuzumab in HER2-amplified breast cancer.¹⁶ According to some retrospective studies of non-MBCs, this mutation appears to correlate with worse relapse-free survival (vs wild-type HER2) among HER2-positive patients but not among HER2-negative patients.^3,12 Furthermore, a recent prospective study in China reported worse progression-free survival among patients with HER2 amplification and mutation, compared to those lacking the mutation (5.0 vs 8.4 months).¹⁰ Although patients who lack HER2 amplification but harbor a mutation may remain sensitive to anti-HER2 therapy, particularly irreversible tyrosine kinase inhibitors,^10,17 the prognostic value and responses of HER2-mutated MBCs lacking HER2 amplification to trastuzumab therapy have not previously been elucidated. Although a possible association between HER2 pathway resistance and HER2 amplification in MBCs has been reported,^9,16 an HER2 mutation cannot be considered an HER2 resistance mechanism in these tumors.¹⁸ Accordingly, in the present case we prescribed trastuzumab together with vinorelbine as a potentially effective anti-HER2 palliative therapy regimen.

Conclusion

The relationship between the HER2 mutation status and the effects of HER2-targeted therapies in HER2-negative MBCs remains unclear. However, the HER2 mutation status should be considered in both HER2-amplified and non-amplified patients with MBC and particularly in heavily pretreated and refractory cases. Additionally, predictive biomarkers are needed to optimize palliative strategies for advanced and refractory breast cancers.

Ethics approval and consent form

The case reported in the study was approved by the ethics committee of Zhejiang Cancer Hospital. Consent was obtained from the patient for the use of images and medical information in this study.

Acknowledgment

This work was supported by the Zhejiang Province Medical Science Fund Project of China (2015KYB052) and the clinical research fund of Zhejiang Medical Association (2016ZYC-A06).

Disclosure

The authors report no conflicts of interest in this work.