Abstract
This is a case report of a 40-year-old woman who, after conservative breast cancer treatment, developed a HER2 positive solitary brain metastasis in the left temporal lobe, without extracranial disease. She underwent surgery resection followed by stereotactic radiotherapy and, because of early brain progression, she was submitted to the first line therapy with pertuzumab, trastuzumab and weekly paclitaxel. After six months of treatment, a brain magnetic resonance imaging revealed a complete disappearance of brain recurrence, which persisted for more than 24 months.
In human epidermal growth factor receptor 2 (HER2)-expressing breast cancer (BC) subtype the incidence of brain metastases (BM) after the diagnosis of the primary tumor is between 3.2% and 3.7% and significantly raises (30-50%) in patients who do not receive adjuvant anti-HER2 monoclonal antibody trastuzumab (T) (1, 2).
It has been reported that, although T significantly improves the prognosis of patients with HER2-positive advanced BC (3), the overall survival from the time of diagnosis in women with BC and BM (BCBM) is less than 1.2 years (4, 5).
Recently, according to the Cleopatra trial, the combination of pertuzumab (P) and T plus docetaxel showed a significant impact on progression-free survival and overall survival in HER2-positive metastatic BC patients (6). Although this trial did not enroll BCBM patients, an exploratory analysis showed that time to BM development as the first site of disease progression and overall survival were significantly prolonged in patients receiving P plus T vs. T alone (respectively, 15 vs. 11.9 months p=0.0049, and 34.4 vs. 26.3 months p=0.11) (7). These findings are one of the main reasons to treat BCBM patients with the dual blockade plus taxanes as a first-line option.
This is a case report of a HER2-positive BC woman with BM as a unique site of disease progression. This patient experienced an impressive clinical benefit by anti-HER2 dual blockade.
Case Report
On November 2009, a 40-year old woman presented with a 20×20 mm mass in her left breast, with palpable fixed axillary nodes. A core needle biopsy of the breast tumor revealed an invasive ductal carcinoma and the fine needle aspiration of an axillary node documented metastasis from BC. Total body Computed Tomography (CT scan) showed absence of distant metastases. The clinical stage at diagnosis was cT2N2M0. The immunohistochemical analysis revealed that the tumor expressed estrogen receptor (ER, 50%), but not progesterone receptor (PGR, 0%) and HER2 (0%).
She received neo-adjuvant chemotherapy including 4 courses of 3-weekly doxorubicin 60 mg/m2 plus cyclophosphamide 600 mg/m2 followed by 4 courses of 3-weekly docetaxel 100 mg/m2. A radical mastectomy with axillary node dissection was subsequently performed. The histological examination revealed a pathological partial response with residual ductal infiltrating carcinoma in the left breast and absence of metastases in the axillary nodes (pT1bN0). The biological profile was: ER 55%, PgR 25%, HER2-negative and Ki-67 15%. The patient received anti-estrogen treatment with tamoxifen plus triptorelin until November 2014.
On October 2015, after persistent headache, she underwent total body CT scan and brain magnetic resonance imaging (MRI): a single BM in the left temporal lobe was discovered, without extracranial diffusion of the disease. A surgical resection of the right temporal metastasis was performed and the histological examination confirmed the origin from breast carcinoma, with the following biological features: ER 55%, PGR 20%, HER2 2+, SISH amplified. On November 2015, the woman received 4 courses of stereotactic brain radiotherapy in the site of surgery. After 40 days from surgery, the brain MRI revealed the presence of a small nodular recurrence close to the surgical cavity (Figure 1A and B). The patient did not complain of any neurological symptoms. Again, the total body CT scan showed a absence of extra-cranial diffusion of the disease.
Between December 2015 and May 2016, the patient received 8 cycles of T (8 mg/kg iv loading dose followed by 6 mg/kg every three weeks), P (840 mg iv loading dose followed by 420 mg every three weeks) and weekly paclitaxel (80 mg/m2) over a period of six months for a total of 24 weekly administrations. The therapy was well tolerated without serious adverse events. During the course of combined treatment, the patient had brain MRI every 3 months which showed a progressive shrinkage of BM (Figure 2A and B), while the CT scan did not document extracranial metastases. From June 2016 the patient has been receiving maintenance treatment with the dual monoclonal blockade. She has an optimal performance status, without any neurological symptom. The last brain MRI has confirmed the persistence of a complete response obtained from May 2016 (Figure 2C and D).
Discussion
The management of patients with BCBM include both surgery and radiotherapy (RT), which are the standard first-line modalities for treatment of BM.
Whole brain radiotherapy (WBRT) is recommended for the treatment of multiple BM while stereotactic radiosurgery (SRS) is an option in patients with oligometastatic disease.
Systemic therapy plus T, administered after WBRT, appears to have a positive impact on survival among HER2 positive BC patients with BM, probably due to the control of extracranial disease (8).
Pertuzumab is a humanized monoclonal antibody which binds to the subdomain II dimerization arm of HER2 receptor and inhibits the interaction of HER2 with its main co-receptor HER3 (9). As well as T, P stimulates antibody-dependent and cell-mediated cytotoxicity. In HER2-positive preclinical tumor models the combination of T plus P resulted in greater antitumor inhibition than either agent alone (10). On this basis the efficacy and safety of P plus T were evaluated in phase II and III clinical trials carried out in patients with HER2-positive metastatic BC (11-13). The impressive findings of the registrative CLEOPATRA study with the significantly prolonged progression free survival and overall survival in favour of dual blockade with P+T and docetaxel doubtless defined the standard of care in first-line metastatic BC (12).
Recently, Dang et al. demonstrated that paclitaxel given once per week with T and P is highly effective and well-tolerated and could be an alternative to docetaxel-based combination therapy in first and second line setting (14).
No data are available on the ability of P to cross the blood brain barrier (BBB), but the delay in the involvement of the central nervous system, as shown by Swain et al., leads to the hypothesis of a possible synergistic activity of P plus T on central nervous system (CNS) metastases (7).
In the second setting, recent trials evaluated BMBC patient's outcome with HER2 directed agents after T failure. Trastuzumab emtansine (T-DM1) is an antibody-drug conjugate of the anti-microtubule emtansine and T.
In the EMILIA study, in which T-DM1 was compared with lapatinib plus capecitabine in advanced HER2 positive metastatic BC pre-treated with Trastuzumab, TDM-1 conferred a prolonged overall survival also in patients with pre-existing BCBM (26.8 vs. 12.9 months, p=0.008) (15).
The activity of other HER2-directed drugs (lapatinib and neratinib) have been also investigated in BMBC patients.
Lapatinib, a reversible dual inhibitor of the intracellular tyrosine kinase domain of HER1 and HER2, is expected to cross the BBB due to its very low molecular weight. Its efficacy, has been investigated in combination with capecitabine in a small cohort of 44 HER2-positive untreated metastatic BMBC patients. In this single arm phase II trial (Landscape study), objective CNS response rate was of 65.9% (95%CI=50.1-79.5) and all were partial responses (16).
In the CEREBEL phase III trial, 540 metastatic BC patients were randomly assigned (1:1) to receive lapatinib-capecitabine or trastuzumab-capecitabine; the trial was not conclusive in terms of the incidence of CNS metastases as first site of relapse which was the primary end point of the study (3% in the patients in the lapatinib-capecitabine arm and 5% in the T-capecitabine arm, 21.6%; 95%CI=22-25%; p=5.360) (17).
Neratinib, an irreversible pan-ERBB tyrosine kinase inhibitor, in combination with paclitaxel was recently compared with T plus paclitaxel, as first-line treatment of metastatic HER2-positive BC. In this randomized, controlled, open-label trial (NEFERT-T), neratinib plus paclitaxel was not superior to T-paclitaxel in terms of PFS [12.9 months (95%CI=11.1-14.9) and 12.9 months (95%CI=11.1-14.8), respectively (p=0.89)]. However, the incidence of BM was lower (relative risk, 0.48; 95%CI=0.29-0.79; p=0.002) and the time to CNS metastasis was delayed (HR=0.45; 95%CI=0.26-0.78; p=0 .004) in the experimental arm (18).
Despite the paucity of data available on the activity of the new anti-HER2 compounds in the subgroup of HER2-positive BC women who developed BM as a first and single site of disease progression, our patient was treated with P plus T and paclitaxel for an early brain progression after loco-regional therapy (surgery and stereotactic radiation). A long duration of complete response in the BM (20+ months) was achieved. In this case, both the capacity of metastases itself to break the BBB facilitating the entrance of therapeutic agents and the previous surgery, which may have induced an alteration of BBB increasing the penetration of the two monoclonal antibodies, could explain the success in controlling the growth of BMs (19). In support of our findings, Mounsey et al., recently reported a longer overall survival from BCBM diagnosis among patients who received HER2 targeted therapy compared to those who did not (2.1 years [95%CI=1.6-2.6] vs. 0.65 years [95%CI=0.4-1.3; p=0.001) (20). The same positive impact on survival was also observed among HER2-positive BC patients who received targeted therapies after local treatment for solitary breast cancer BM (21). Finally, our findings could encourage clinicians to use the anti-HER2 double blockade for BMs even before loco-regional approaches (surgery, stereotactic RT, surgery plus stereotactic RT), especially in cases of single or oligo asymptomatic BMs, without extracranial disease. This therapeutic approach could help clinicians to eventually delay toxicities deriving from loco-regional therapies, such as (neurocognitive impairment, radionecrosis).
Footnotes
This article is freely accessible online.
- Received March 15, 2018.
- Revision received April 3, 2018.
- Accepted April 10, 2018.
- Copyright© 2018, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved