Abstract
BackgroundEndocrine treatment is the most preferable systemic treatment in metastatic breast cancer patients that have had an estrogen receptor (ER) positive primary tumor or metastatic lesions, however, approximately 20% of these patients do not benefit from the therapy and demonstrate further metastatic progress. One reason for failure of endocrine therapy might be the heterogeneity of ER expression in tumor cells spreading from the primary tumor to distant sites which is reflected in detectable circulating tumor cells (CTCs).MethodsA sensitive and specific staining protocol for ER, keratin 8/18/19, CD45 was established. Peripheral blood from 35 metastatic breast cancer patients with ER-positive primary tumors was tested for the presence of CTCs. Keratin 8/18/19 and DAPI positive but CD45 negative cells were classified as CTCs and evaluated for ER staining. Subsequently, eight individual CTCs from four index patients (2 CTCs per patient) were isolated and underwent whole genome amplification and ESR1 gene mutation analysis.ResultsCTCs were detected in blood of 16 from 35 analyzed patients (46%), with a median of 3 CTCs/7.5 ml. In total, ER-negative CTCs were detected in 11/16 (69%) of the CTC positive cases, including blood samples with only ER-negative CTCs (19%) and samples with both ER-positive and ER-negative CTCs (50%). No correlation was found between the intensity and/or percentage of ER staining in the primary tumor with the number and ER status of CTCs of the same patient. ESR1 gene mutations were not found.ConclusionCTCs frequently lack ER expression in metastatic breast cancer patients with ER-positive primary tumors and show a considerable intra-patient heterogeneity, which may reflect a mechanism to escape endocrine therapy. Provided single cell analysis did not support a role of ESR1 mutations in this process.
Highlights
Breast cancer is the most common malignancy among women, accounting for approximately 23% of all cancer cases
circulating tumor cells (CTCs) detection and evaluation of ER expression We have established a triple immunostaining protocol for the simultaneous investigation of estrogen receptor (ER), keratins (K) 8/18/19, and CD45 expression on our CTC model system with the possibility of further single cell ESR1 gene mutation analysis
The protocol was used for the detection and characterization of CTCs on blood samples obtained from metastatic breast cancer patients diagnosed for metastases on average 7.2 years after initial primary tumor resection
Summary
Breast cancer is the most common malignancy among women, accounting for approximately 23% of all cancer cases. The most common subtype is the luminal A type, presenting up to 50–60% of all breast cancer cases [2,6]. These tumors are characterized by high estrogen receptor alpha (ER) expression and are - due to their low proliferation rate - associated with a relatively good prognosis [6,7]. The luminal B subtype represents 10–20% of all breast tumors and is characterized by a mixed expression of ERa, PR, and/or ERBB2. Endocrine treatment is the most preferable systemic treatment in metastatic breast cancer patients that have had an estrogen receptor (ER) positive primary tumor or metastatic lesions, approximately 20% of these patients do not benefit from the therapy and demonstrate further metastatic progress. One reason for failure of endocrine therapy might be the heterogeneity of ER expression in tumor cells spreading from the primary tumor to distant sites which is reflected in detectable circulating tumor cells (CTCs)
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