Serum ProGRP and NSE levels predicting small cell lung cancer transformation in a patient with ALK rearrangement-positive non-small cell lung cancer: A case report.

The resistance mechanisms to anaplastic lymphoma kinase (ALK) inhibitors comprise ALK gene variations, such as ALK point mutations and copy-number gains, the activation of bypass signaling through the activation of other oncogenes and small cell lung cancer (SCLC) transformation. To date, few studies have investigated whether tumor markers for SCLC correlate with the SCLC transformation in EGFR-mutant NSCLC and ALK-positive non-SCLC (NSCLC). The present case study reported a patient with SCLC transformation after alectinib treatment. The patient exhibited elevation of pro-gastrin-releasing peptide precursor and neuron-specific enolase levels, which may be predictive of SCLC transformation during the resistance to ALK-tyrosine kinase inhibitors.

Introduction

Anaplastic lymphoma kinase (ALK) gene rearrangements are present in 3-5% of patients with non-small cell lung cancer (NSCLC). Research has revealed the promising clinical activity of ALK-tyrosine kinase inhibitors (TKIs) in the treatment of patients with NSCLC who contain ALK rearrangements. Crizotinib was the first ALK-TKI approved for patients with ALK rearrangement-positive NSCLC. Recently, two second-generation ALK-TKIs (alectinib and ceritinib) have been approved for the treatment of ALK rearrangement-positive NSCLC in Japan. Although these inhibitors exhibited significant clinical responses, almost all patients treated with them developed resistance. Some studies have reported that the resistance mechanisms in patients with ALK rearrangement-positive NSCLC comprised ALK gene alterations, such as ALK point mutations and copy-number gains (1,2), bypass signaling activation through the activation of other oncogenes (3,4), and SCLC transformation (5,6). However, to date, no study has reported a correlation between tumor markers and SCLC transformation in both EGFR-mutant and ALK rearrangement-positive NSCLC. Here, we report a case of a patient with SCLC transformation after alectinib treatment who exhibited an elevation of pro-gastrin-releasing peptide precursor (ProGRP) and neuron-specific enolase (NSE) levels, suggesting these to be predictive of SCLC transformation during the development of resistance to ALK-TKIs.

Case report

A 62-year-old former smoker male (38 pack-year history) with contralateral lung metastases presented with lung adenocarcinoma in clinical stage T1aN3M1a. The patient provided informed consent. He underwent biopsy of the left supraclavicular lymph node, and both immunohistochemistry (IHC) and fluorescence in situ hybridization (FISH) revealed adenocarcinoma with ALK rearrangement. Accordingly, he received cytotoxic chemotherapy (carboplatin, pemetrexed, and bevacizumab), to which his best response was a stable disease. After 4 months of the treatment initiation, his drug regimen was changed to 300 mg alectinib two times daily, which is the approved dosage in Japan, due to the disease progression. Eventually, he attained complete radiological remission. After 1 year of alectinib treatment, brain magnetic resonance imaging revealed a new central nervous system (CNS) metastasis. Accordingly, he underwent stereotactic radiotherapy (SRT) for the isolated CNS lesion and continued receiving alectinib beyond the CNS progression. After 2 years of the alectinib initiation, computed tomography (CT) revealed a new mass (55×60 mm) in the left lobe of the liver (Fig. 1A). The pathological finding corroborated SCLC transformation (Fig. 2A). In addition, the detection of the ALK overexpression and rearrangement with IHC and FISH confirmed SCLC transformation in this specimen (Fig. 2B and C). During rebiopsy, serum ProGRP, NSE, and carcinoembryonic antigen (CEA) levels were 275.5 pg/ml, 21.8 ng/ml and 10.8 ng/ml, respectively (serum ProGRP and CEA levels upon ALK rearrangement-positive NSCLC diagnosis were 56.3 pg/ml and 4.2 ng/ml, respectively). Accordingly, he temporally received ceritinib after alectinib treatment; however, serum ProGRP, NSE, and the size of liver metastasis continued to increase. Thus, we switched to cisplatin and etoposide. After four cycles, CT revealed a partial response of the liver lesion to the treatment (Fig. 1B). After 3 months, liver metastasis reprogressed (Fig. 1C). Hence, we treated the patient with three more regimens [amrubicin (AMR), nivolumab, and irinotecan], but the tumor progressed. After 4 years of the treatment initiation, the patient died due to disease progression.

Figure 1.

CT scans of liver metastasis. CT scans (A) just before the initiation of CDDP and ETP; (B) after four cycles of CDDP and ETP; and (C) just before the initiation of AMR. CT, computed tomography; CDDP, cisplatin; ETP, etoposide; AMR, amrubicin.

Figure 2.

Histopathological analysis of liver metastasis after alectinib treatment. (A) Hematoxylin and eosin staining indicated small round cell proliferation, which is consistent with the diagnosis of SCLC (original magnification, ×100). (B) Tumor cells were positive for ALK immunohistochemistry (original magnification, ×100) and (C) break-apart signals were observed in ALK FISH. SCLC, small cell lung cancer; ALK, anaplastic lymphoma kinase; FISH, fluorescence in situ hybridization.

Discussion

This case report retrospectively analyzed the serial tumor markers CEA, NES, and ProGRP because the diagnosis of ALK rearrangement-positive NSCLC in a patient (Fig. 3). Three months before SCLC transformation was confirmed by a liver biopsy, serum CEA, NES, and ProGRP levels were within normal limits. However, after SCLC transformation, serum ProGRP and NSE levels correlated with tumor response to chemotherapy for SCLC and were significantly beneficial for monitoring tumor progression. Thus, this study revealed that tumor markers, such as ProGRP and NSE, can predict SCLC transformation at the time of developing resistance to ALK-TKIs.

Figure 3.

Time course of serum CEA, NSE and ProGRP levels before and after rebiopsy for SCLC transformation. CEA, carcinoembryonic antigen; NSE, neuron-specific enolase; ProGRP, pro-gastrin-releasing peptide precursor; SCLC, small cell lung cancer.

Apparently, ProGRP and NSE are two of the tumor markers of SCLC that are preferentially used to diagnose diseases. Typically, the diagnostic specificity of NSE is rather limited owing to a relatively high false-positive rate. Conversely, the diagnostic sensitivity and specificity of ProGRP in SCLC are higher compared to those in NSE (7). To date, no study has investigated whether tumor markers for SCLC could be predictive markers for SCLC transformation in not only EGFR-mutant NSCLC but also ALK rearrangement-positive NSCLC. To the best of our knowledge, only one case study of SCLC transformation in EGFR-mutant NSCLC reported the elevation of serum ProGRP and NSE levels. However, whether tumor makers could be predictive for the diagnosis of SCLC transformation, due to the confirmed pathological diagnosis at autopsy, remains unclear. Hence, our case is the first to report that both ProGRP and NSE could be useful predictive markers for SCLC transformation.

Research has identified several ALK-TKI resistance mechanisms in patients with ALK rearrangement-positive NSCLC, and each resistance mechanism exhibits a different sensitivity to other ALK inhibitors in ALK rearrangement-positive NSCLC (8). Thus, identifying the resistance mechanism that remains sensitive to other ALK inhibitors could be essential in selecting appropriate ALK inhibitors as subsequent ALK-TKIs. In addition, non-invasive liquid biopsies and cell-free DNA (cfDNA) genotyping have been developed to detect these resistance mechanisms efficiently because multiple tumor biopsies are related to both risks and discomfort (6,9–12). However, liquid biopsies are limited in the diagnosis of histological transformation. Hence, we anticipate that combining ProGRP and specific cfDNA for the detection of ALK resistance mutation could be more useful. Indeed, in our case, both ProGRP and NSE levels were elevated at the time of developing resistance to alectinib, suggesting that we could predict SCLC transformation before rebiopsy. Further investigation of the correlation between tumor markers ProGRP and NSE and SCLC transformation is warranted.