Comparative study of epidermal growth factor receptor mutation analysis on cytology smears and surgical pathology specimens from primary and metastatic lung carcinomas.

BACKGROUND: The detection of epidermal growth factor receptor (EGFR) mutations on small biopsy or fine-needle aspiration samples is required to guide therapy in nonsmall cell lung cancer (NSCLC). In this study, the authors compared results from EGFR mutation testing on both cytologic smears and surgical specimens and also compared the performance of platforms using 2 different technologies (pyrosequencing and real-time polymerase chain reaction) for both specimen types. METHODS: Specimens from 114 patients were divided into 2 subsets. The first subset had 60 paired cytology smears and surgical specimens, including 37 paired specimens from the same site and 23 paired specimens from different sites. The second subset consisted of nonpaired cytology smears and formalin-fixed, paraffin-embedded (FFPE) tissues (including 8 cell blocks), which were compared on the pyrosequencing and real-time polymerase chain reaction platforms. Laser-capture microscopy was used to enrich tumor in the FFPE specimens before DNA extraction. RESULTS: All cytology smears that were used in the study were adequate for analysis on both platforms. Comparison between smears and concurrent FFPE tissues from the same anatomic site had a concordance rate of 97%. The concordance rate between the pyrosequencing platform and the real-time polymerase chain reaction platform was 84% and 85% for FFPE tissues and cytology smears, respectively. CONCLUSIONS: The current results indicated that direct extraction and analysis of EGFR mutations from cytology smears can be performed successfully on both a pyrosequencing platform and a real-time polymerase chain reaction platform with results comparable to those achieved in matched surgical specimens. In fine-needle aspiration/endobronchial ultrasound samples with limited tissue, cytology smears can be important for molecular analysis. Cancer (Cancer Cytopathol) 2013;121:361-369. © 2012 American Cancer Society.

Monoamine oxidase A expression is suppressed in human cholangiocarcinoma via coordinated epigenetic and IL-6-driven events.

The secretion of dopamine and serotonin is increased in cholangiocarcinoma, which has growth-promoting effects. Monoamine oxidase A (MAOA), the degradation enzyme of serotonin and dopamine, is suppressed in cholangiocarcinoma via an unknown mechanism. The aims of this study were to (i) correlate MAOA immunoreactivity with pathophysiological parameters of cholangiocarcinoma, (ii) determine the mechanism by which MAOA expression is suppressed and (iii) evaluate the consequences of restored MAOA expression in cholangiocarcinoma. MAOA expression was assessed in cholangiocarcinoma and nonmalignant controls. The control of MAOA expression by promoter hypermethylation was evaluated and the contribution of interleukin-6 (IL-6) signaling to the suppression of MAOA expression was determined. The effects of MAOA overexpression on cholangiocarcinoma growth and invasion were also assessed. MAOA expression is correlated with differentiation, invasion and survival in cholangiocarcinoma. The MAOA promoter was hypermethylated immediately upstream of the start codon in cholangiocarcinoma samples and cell lines but not in nonmalignant counterparts. IL-6 signaling also decreased MAOA expression via a mechanism independent of hypermethylation, involving the regulation of the balance between SP-1 transcriptional activity and its inhibitor, R1 repressor. Inhibition of both IL-6 signaling and DNA methylation restored MAOA levels to those observed in cholangiocytes. Forced MAOA overexpression inhibited cholangiocarcinoma growth and invasion. MAOA expression is suppressed by the coordinated control of promoter hypermethylation and IL-6 signaling. MAOA may be a useful prognostic marker in the management of cholangiocarcinoma, and therapies designed to increase MAOA expression might prove beneficial in the treatment of cholangiocarcinoma.