Evaluation of EGFR mutation status in cytology specimens: An institutional experience

Epidermal growth factor receptor (EGFR) mutation status has been shown to predict response to anti‐EGFR tyrosine kinase inhibitors in non‐small cell lung cancer (NSCLC). In patients with advanced‐stage NSCLC, evaluation of mutational status is increasingly requested on biopsy or fine‐needle aspiration specimens, which often have limited material. There are limited data on the suitability of cytology cell blocks (CB) for EGFR mutation testing. In this study, we report our institutional experience with cytology cell block material for EGFR mutation testing. We retrospectively reviewed EGFR mutation analyses performed on 234 surgical (SP) and cytology (CB) from October 2007 to May 2010. One hundred ninety‐two SP specimens and 42 CB specimens were evaluated for EGFR mutation. CB specimens were evaluated for overall specimen size based on aggregate cellularity in comparison to small biopsy specimens, and percent tumor. Of the 192 SP and 42 CB specimens, 31 (16.1%) and 11 (26.2%) were positive for EGFR mutation, respectively; there does not appear to be an association between mutation detection rate and the source of the specimen (P = 0.124). Limited DNA was obtained from 70.0% (29/42), including 81.8% (9/11) of those which were mutation positive. Additionally, 45.4% (5/11) of mutation positive specimens had extremely low DNA yields. Although 16.6% (7/42) of CB specimens had <10% tumor, all 11 mutation positive CB cases had >10% tumor. These data indicate that CB specimens provide an alternative source for molecular evaluation of NSCLC, and that tumor percentage may be more important than specimen size and/or DNA yield in determining the suitability of these specimens for testing. Diagn. Cytopathol. 2013;41:316–323. © 2011 Wiley Periodicals, Inc.     

Transformation from EGFR/PTEN co‐mutated lung adenocarcinoma to small cell carcinoma in lymph node metastasis

There is minimal evidence of EGFR‐mutated lung adenocarcinoma transforming to small cell lung carcinoma (SCLC) without the administration of EGFR‐tyrosine kinase inhibitor (TKI). Here, we present a case of EGFR/PTEN co‐mutated lung adenocarcinoma with lymph node metastases, which comprised adenocarcinoma admixed with SCLC. EGFR L858R and PTEN R130Q mutations were shared between the primary tumor and lymph node metastasis. Additionally, EGFR I744M mutation was shared between the adenocarcinoma and SCLC components in the lymph node metastasis, confirming spontaneous transformation from adenocarcinoma to SCLC. Furthermore, TP53 and RB1 mutations were detected only in the SCLC components of the lymph node metastasis. Immunohistochemically, complete absence of Rb expression in SCLC was observed, suggesting the loss of function of RB1. Our case clearly shows that EGFR/PTEN co‐mutated lung adenocarcinoma transformed to SCLC in the lymph node without TKI‐mediated evolutionary selection pressures.     

Homogeneous EGFR amplification defines a subset of aggressive Barrett’s adenocarcinomas with poor prognosis

Marx A H, Zielinski M, Kowitz C‐M, Dancau A‐M, Thieltges S, Simon R, Choschzick M, Yekebas E, Kaifi J T, Mirlacher M, Atanackovic D, Brümmendorf T H, Fiedler W, Bokemeyer C, Izbicki J R & Sauter G
(2010) Histopathology 57, 418–426
Homogeneous EGFR amplification defines a subset of aggressive Barrett’s adenocarcinomas with poor prognosis Aims: The epidermal growth factor receptor (EGFR) is a tyrosine kinase (TK) involved in the tumour progression of many cancer types and may serve as an important therapeutic target (erlotinib, cetuximab). Heterogeneity of EGFR amplification and expression could represent a major drawback for anti‐EGFR therapy. The aim of this study was performed to determine the potential impact of tumour heterogeneity on anti‐EGFR therapy in Barrett’s adenocarcinoma (BAC). Methods and results: Tissue microarray (TMA) sections of 112 BAC and 45 lymph node metastases were analysed for EGFR amplification and expression using fluorescence in situ hybridization (FISH) and immunohistochemistry (IHC). A subset of 20 samples was also sequenced for EGFR exons 18–21 and Kirsten rat sarcoma viral oncogene homologue (KRAS) exons 2–3 mutations. EGFR amplification was seen in seven (6.25%) of 112 interpretable BAC and typically high‐level with more than 10–20 EGFR copies per tumour cell (EGFR/centromere 7 ratio >3). EGFR amplification was associated with high pT, pN and poor prognosis (P = 0.0004). Identical EGFR amplification status was found in 29 primary tumours and 29 matched lymph node metastases. Moreover, FISH analysis of three to 16 large sections from all amplified BAC and corresponding lymph node metastases did not reveal any heterogeneity of EGFR amplification. No EGFR mutation but one KRAS mutation was found. Conclusion: The high level and homogeneity of EGFR amplification in primary tumours and metastases suggests the potential therapeutic utility of anti‐EGFR drugs in BAC.     

Synonymous EGFR variant p.Q787Q is neither prognostic nor predictive in patients with lung adenocarcinoma

Patients with non‐small cell lung cancer (NSCLC) harboring activating mutations in the Epidermal Growth Factor Receptor (EGFR) benefit from targeted therapies. A synonymous polymorphism (rs1050171, p.Q787Q) was shown to be associated with improved overall survival (OS) in colorectal cancer patients. As data in NSCLC are limited, we retrospectively analyzed associations of p.Q787Q with clinicopathological parameters including clinical response and outcome in patients with lung adenocarcinoma (ADC) who received tyrosine kinase inhibitor (TKI) therapy. Of 642 ADC patients whose tumors were profiled by next generation sequencing, 102 (15.9%) carried EGFR mutations targetable by TKIs (30.4% male patients, median age 65.1 y, 19.6% smokers with 12.8 median pack years). Seventy‐nine patients (77.5%) received TKI therapy either as a first‐ or second‐line therapy. Of the 102 EGFR‐mutant tumors, 72 (70.6%) exhibited the p.Q787Q polymorphism and another 12 (11.8%) cases with p.Q787Q harbored an additional TKI insensitive mutation (p.T790M). The polymorphism was neither associated with classic clinicopathological parameters nor with overall survival (21.1 months vs. 20.1 months; P‐value = 0.91) or clinical response (P‐value = 0.122). The patients with p.T790M had worse survival compared to EGFR activating mutation carriers with and without p.Q787Q when analyzed as a separate group (27.5 months, P‐value = 0.02). In conclusion, p.Q787Q is neither a suitable prognostic nor predictive biomarker for ADC patients receiving anti‐EGFR therapy in first‐ or second‐line of therapy. © 2016 Wiley Periodicals, Inc.     

Can EGFR mutation status be reliably determined in pre‐operative needle biopsies from adenocarcinomas of the lung?

The identification of EGFR mutations in non‐small‐cell lung cancer is important for selecting patients, who may benefit from treatment with EGFR tyrosine kinase inhibitors. The analysis is usually performed on cytological aspirates and/or histological needle biopsies, representing a small fraction of the tumour volume. The aim of the present investigation was to evaluate the diagnostic performance of this molecular test. We retrospectively included 201 patients with primary adenocarcinoma of the lung. EGFR mutation status (exon 19 deletions and exon 21 L858R point mutation) was evaluated on both pre‐operative biopsies (131 histological and 70 cytological) and on the surgical specimens, using PCR. Samples with low tumour cell fraction were assigned to laser micro‐dissection (LMD). We found nine (4.5%) patients with EGFR mutation in the lung tumour resections, but failed to identify mutation in one of the corresponding pre‐operative, cytological specimens. Several (18.4%) analyses of the pre‐operative biopsies were inconclusive, especially in case of biopsies undergoing LMD and regarding exon 21 analysis. Discrepancy of mutation status in one patient may reflect intra‐tumoural heterogeneity or technical issues. Moreover, several inconclusive results in the diagnostic biopsies reveal that attention must be paid on the suitability of pre‐operative biopsies for EGFR mutation analysis.     

Case report of three EGFR TKI naïve lung adenocarcinoma containing double EGFR mutations (L858R/T790M or Exon 19 Deletion/T790M); Comparing genetic information and histology

EGFR T790M mutation is a crucial gene alteration causing EGFR TKI resistance. However, the implication of T790M mutation is still unknown for the stepwise progression of EGFR TKI naïve lung adenocarcinoma. In this study, we studied site-related EGFR T790M mutation analysis in EGFR TKI naïve lung adenocarcinomas harboring double EGFR mutation (L858R and T790M or Exon 19 deletion (Del.19) and T790M) by droplet digital (dd) PCR method. We examined three resected lung adenocarcinoma cases harboring EGFR double mutation including T790M. These cases didn’t receive EGFR TKI treatment. We divided formalin-fixed and paraffin embedded (FFPE) unstained slide tissues into 11–18 areas in each tumor and extracted DNAs from each area separately. The DNAs were analyzed by ddPCR. T790M mutation ratio (T790M/L858R or T790M/Del.19) were calculated. For three cases, we also performed EGFR FISH for analyzing EGFR copy number.In Case 2 and 3, T790M mutation ratio were 100% and 30% homogeneously and showed increased EGFR copy number also homogeneously. However, in case 1, it was different between invasive and non-invasive areas. EGFR copy number was also heterogeneous and showed increasing only in invasive area. We indicated a peculiar case harboring T790M heterogeneity and only invasive area had T790M mutation even though the case was not treated by EGFR TKI. It suggests that T790M is possibly significant not only for EGFR TKI resistance but also the progression in lung adenocarcinoma.     

EGFR mutation L747P led to gefitinib resistance and accelerated liver metastases in a Chinese patient with lung adenocarcinoma

Background: Mutations in the epidermal growth factor receptor gene (EGFR) are found in around half of Asian patients with non-small cell lung cancer (NSCLC). For this reason, EGFR tyrosine kinase inhibitors (TKI) are often prescribed depending on the EGFR status. Two common EGFR mutations, a deletion in exon 19 and L858R in exon 21, demonstrate a positive response to gefitinib, the first approved EGFR TKI. However, T790M and an insertion in EGFR exon 21 are resistant to EGFR TKI treatment. The relationships between the EGFR mutation type and response to the target drug have not been fully investigated. Case presentation: We describe a 66-year-old Chinese male diagnosed with stage IV lung adenocarcinoma based on evidence from a computed tomography (CT) scan and histological features of a biopsy taken during fiberoptic bronchoscopy surgery. Molecular analysis of EGFR exons 19 and 21 revealed the presence of only one mutation in exon 19: L747P (2239-2240 TT>CC). The patient requested gefitinib treatment for 2 weeks but his response was poor. A CT scan revealed that the number and relative volume of the liver metastases had increased after treatment. Conclusion: L747P (2239-2240 TT>CC) in exon 19 is a rare EGFR mutation that appears to lead to gefitinib resistance and might accelerate liver metastases.     

Gene amplification, mutation, and protein expression of EGFR and mutations of ERBB2 in serous ovarian carcinoma

EGFR and erbB-2 are targets for specific cancer therapy. The purpose of this study was to examine the frequency and clinicopathological correlations of gene amplification, protein expression, and mutations of EGFR and ERBB2 in serous carcinoma, the most common and aggressive type of ovarian cancer. Tissue microarray constructed of 398 carcinomas was examined by chromogenic in situ hybridization (CISH) and by immunohistochemistry. Cases with amplification of EGFR by CISH were further analyzed by fluorescence in situ hybridization. One hundred ninety-eight samples were analyzed for mutations in exons 18, 19, or 21 of EGFR and in exon 20 of ERBB2 using denaturating high-performance liquid chromatography and direct sequencing. Amplification of EGFR was present in 12% (41/333), low-level gain in 43% (144/333), and protein overexpression in 17% (66/379) of the tumors. Both increased copy number and overexpression of EGFR were associated with high tumor grade, greater patient age, large residual tumor size, high proliferation index, aberrant p53, and poor patient outcome. Furthermore, increased copy number of EGFR was associated with increased copy number of ERBB2. No mutations were identified in EGFR, whereas one tumor had an insertion mutation in exon 20 of ERBB2. Both amplification and protein overexpression of EGFR occur in serous ovarian carcinoma, but EGFR copy number has a stronger prognostic value. This makes EGFR amplification a potentially useful criterion for selecting patients in clinical trials testing the effect of EGFR inhibitors in serous ovarian carcinoma.     

Twenty‐One Novel EGFR Kinase Domain variants in Patients with Nonsmall Cell Lung Cancer

Somatic sequence variants in the epidermal growth factor receptor (EGFR) kinase domain are associated with sensitivity to tyrosine kinase inhibitors (TKIs) in patients with nonsmall cell lung cancer (NSCLC). Patients exhibiting sequence variants in this domain that produce kinase activity enhancement, are more likely to benefit from TKIs than patients with EGFR wild‐type disease. Although most NSCLC EGFR‐related alleles are concentrated in a few positions, established protocols recommend sequencing EGFR exons 18–21. In this study, 21 novel somatic variants belonging to such exons in adult Argentinean patients affected with NSCLC are reported. Of these, 18 were single amino acid substitutions (SASs), occurring alone or in combination with another genetic alteration (complex cases), one was a short deletion, one was a short deletion‐short insertion combination, and one was a duplication. New variants and different combinations of previously reported variants were also found. Moreover, two of the reported SASs occurred in previously unreported positions of the EGFR kinase domain. In order to characterize the new sequence variants, physicochemical, sequence and conformational analyses were also performed. A better understanding of sequence variants in NSCLC may facilitate the most appropriate treatment choice for this complex disease.     

Mutation status of somatic EGFR and KRAS genes in Chinese patients with prostate cancer (PCa)

Activating mutations of the epidermal growth factor receptor (EGFR) confers sensitivity to tyrosine kinase inhibitors (TKIs). In colorectal cancer and in lung adenocarcinomas, clinical trials have shown a lack of response to anti-EGFR therapy when KRAS gene mutations are present. In this study, the mutation status of specified exons of the EGFR and KRAS genes was profiled in patients with prostate cancer (PCa). Direct Sanger sequencing was used to screen for mutations in exons 19–21 of EGFR and in exon 2 of KRAS in 88 Chinese patients diagnosed with prostate adenocarcinomas. Mutations were detected in 11 patients. In nine cases (10 %), activating mutations in the region of EGFR encoding the tyrosine kinase (TK) domain were present. Deletions in exon 19 and the L858R substitution in exon 21 were “hotspot” mutations, together accounting for five (55 %) of nine cases. Many synonymous substitutions were also detected. KRAS mutations were found in two cases (2.3 % of 88). There were no cases with mutations in both EGFR and KRAS, suggesting that mutations in the two genes might be mutually exclusive. Although prognostic relevance of EGFR expression by immunohistochemistry (IHC) was observed in PCa patients in previous studies, we found no statistically significant association between EGFR or KRAS mutations and clinicopathological features (including age, smoking status, preoperative prostate-specific antigen, Gleason scores, and tumor stage). We contend that accurate profiling of the mutation status of EGFR and KRAS could improve prognostic stratification, and we suggest a potential anti-EGFR therapy for patients with PCa with EGFR mutations.     

EGFR/erB-1, HER2/erB-2, CK7, LP34, Ki67 and P53 expression in preneoplastic lesions of bronchial epithelium: an immunohistochemical and genetic study

A prognostic interpretation of preneoplastic lesions would have impact in bronchial carcinoma early diagnosis and through the study of Erb-B family receptors as they have an important role in lung carcinogenesis. The existence of drugs as tyrosine kinase inhibitors stressed the importance of studying gene alterations for selected chemoprevention schemes and characterization of carcinogenesis. Bronchial preneoplastic lesions were characterized by immunohistochemistry using the antibodies LP34 (high weigh molecular cytokeratin), CK7, chromogranin A, Ki67, p53, C-erbB-2 and EGFR. HER2 and EGFR gene copy number was also evaluated by fluorescent in situ hybridization in those lesions. The expected results defined the origin cell for basal cell hyperplasia and squamous metaplasia as adaptative lesions and dysplasia. By known experiences and published data, beyond the stem cell, the spectral evolution of bronchial preneoplastic lesions was demonstrated by characterizing basal cells (LP34) and their neoplastic potentiality. Dysplasias showed a higher expression of EGFR, Ki67 and p53 with a stepwise increase with the gravity of the respective grading. C-erbB-2 immunohistochemical overexpression was a rare event in preneoplastic lesions. Polysomy was the main mechanism for EGFR and HER2/neu higher gene copy number and together with increased proliferation index (Ki67) will account to preview bronchial carcinogenesis.     

Detection of EGFR mutations in liquid biopsy samples using allele-specific quantitative PCR: A comparative real-world evaluation of two popular diagnostic systems

PurposeThe detection of epidermal growth factor receptor (EGFR) mutations in plasma cell-free DNA (cfDNA) is an auxiliary tool for the molecular diagnosis of non-small cell lung cancer (NSCLC), especially when an adequate tumor tissue specimen cannot be obtained. We compared the diagnostic accuracy of two commonly used in vitro diagnostic-certified allele-specific quantitative PCR assays for detecting plasma cfDNA EGFR mutations.MethodsWe analyzed EGFR mutations in plasma cfDNA from 90 NSCLC patients (stages I–IV) before treatment (n ​= ​60) and after clinical progression on EGFR tyrosine kinase inhibitors (n ​= ​30) using the cobas EGFR mutation test v2 (Roche Molecular Systems, Inc.) and therascreen EGFR Plasma RGQ PCR kit (Qiagen GmbH).ResultsThere was higher concordance between plasma cfDNA and matched tumor tissue EGFR mutations with cobas (66.67%) compared with therascreen (55.93%). The concordance rate increased to 90.00% with cobas (Cohen's kappa coefficient, κ ​= ​0.80; p ​< ​0.0001) and 73.33% with therascreen (κ ​= ​0.49; p ​= ​0.0009) in advanced NSCLC patients. In treatment-naïve patients, cobas was superior to therascreen (sensitivity: 82.35% vs. 52.94%; specificity: 100% vs. 100%). In patients with clinical progression on EGFR tyrosine kinase inhibitors, EGFR exon 20 p.T790M was detected in 30% and 23% of cfDNA samples by cobas and therascreen, respectively.ConclusionsCobas was superior to therascreen for detection of plasma EGFR mutations in advanced NSCLC. Plasma cfDNA EGFR mutation analysis is complex; therefore, the diagnostic accuracy of commercially available assays should be validated.     

EGFR expression and gene copy number in triple-negative breast carcinoma

Most basal-like breast carcinomas are estrogen receptor negative, progesterone receptor negative, and cerb-B2/HER-2/neu negative—the so-called triple-negative breast carcinomas—with high epidermal growth factor receptor (EGFR) expression, which makes EGFR a target of treatment. We evaluated EGFR expression by immunohistochemistry (IHC) with two different clones (EGFR.31G7 and EGFR.25) and gene copy number by fluorescence in situ hybridization (FISH) with Locus specific identifier EGFR/CEP 7 dual probe in 62 triple-negative breast carcinomas. Any complete or incomplete membranous and/or cytoplasmic expression was regarded as IHC positive. Cases showing gene amplification (a ratio of EGFR gene to chromosome 7 of ≥2 or 15 copies per cell in ≥10% of cells) and high polysomy (≥4 copies in ≥40% of cells) were considered FISH positive. We detected EGFR.31G7 positivity in 38 of 62 cases (61.4%), which was composed of 12 of 62 (19.4%) cytoplasmic, 14 of 62 (22.6%) incomplete membranous, and 12 of 62 (19.4%) complete membranous staining. Among 38 of 49 (77.6%) EGFR.25-positive cases, 7 of 49 (14.3%) exhibited cytoplasmic, 10 of 49 (20.4%) exhibited incomplete membranous, and 21 of 49 (42.9%) exhibited complete membranous staining pattern. Ten of 62 (16.1%) FISH-positive cases were identified; 1 of 62 (1.6%) showed amplification, and the rest showed high polysomy. All FISH-positive cases were also found to be IHC positive (P = 0.01) by both EGFR clones. The amplified case displayed strong complete membranous staining with both clones. Among the high polysomic cases; 4 of 9 (44.4%) incomplete membranous, 4 of 9 (44.4%) complete membranous and 1 of 9 (11.1%) cytoplasmic expression of EGFR.31G7, and 6 of 8 (75%) complete membranous and 2 of 6 (25%) cytoplasmic expression of EGFR.25 were detected. Here, we report that membranous EGFR expression is associated with increased gene copy number (P = 0.035 for EGFR.31G7 and P = 0.026 for EGFR.25 clone). Because the markers to predict anti-EGFR treatment response in other system tumors such as EGFR mutation and amplification seem to be rare events in breast cancer, membranous staining pattern of EGFR might be the best way to decide the patient eligibility for anti-EGFR therapy.     

Next‐generation sequencing of Chinese stage IV lung cancer patients reveals an association between EGFR mutation status and survival outcome

Large‐scale genomic characterization of non‐small cell lung cancer (NSCLC) has revealed several putative oncogenic driver mutations that may constitute druggable therapeutic targets. However, there are little data to suggest that such gene alterations have clinical relevance. Over 12 consecutive months, tumor biopsy samples from 80 patients with stage IV NSCLC were analyzed for mutations in selected exons of 508 cancer‐related genes using next‐generation sequencing. From 85 specimens referred for genomic characterization, 80 (94%) specimens were successfully genotyped, and all had identifiable somatic alterations. Epidermal growth factor receptor (EGFR) and TP53 genes contained the highest frequency of observed mutations (65% and 40%, respectively) in the stage IV NSCLC cases. Notably, patients with EGFR mutations showed a significantly shorter survival time compared with patients expressing wild‐type EGFR (p = 0.0053). Moreover, of the 32 patients harboring EGFR mutations, EGFR‐L858R mutant patients showed a significantly shorter survival time compared with patients with other EGFR mutations (p = 0.036). In conclusion, tumors from stage IV NSCLC patients harbor characteristic gene alterations, of which EGFR L858R in particular appears to be a poor prognostic factor for overall survival.     

Mutational analysis of EGFR and K-RAS genes in lung adenocarcinomas

Both epidermal growth factor receptor (EGFR) and RAS gene mutations contribute to the development of non-small cell lung cancer (NSCLC). Because RAS is one of the downstream molecules in the EGFR signal transduction, the association between the somatic mutations of EGFR and RAS may be important in the pathogenesis of NSCLC . However, to date, such data are lacking. In this study, we analyzed the hotspot regions of K-RAS gene (codons 12, 13, 59 and 61) and EGFR gene (exons 18, 19 and 21) in 153 NSCLC tissue samples including 69 adenocarcinomas. Overall, we detected 30 EGFR mutations (19.6%) and 6 K-RAS mutations (3.9%) in the 153 NSCLCs. In the 69 adenocarcinomas, 26 EGFR mutations (37.7%) and six K-RAS mutations (8.7%) were detected. Of note, the 26 tumors with EGFR mutations did not harbor any K-RAS mutations, and the six tumors with K-RAS mutations did not harbor any EGFR mutations. Inverse relationship between K-RAS and EGFR mutations in the lung adenocarcinoma was statistically significant (P=0.046, ² test). As regards smoking history, EGFR mutation was significantly associated with never-smoking history, whereas K-RAS mutation was significantly associated with smoking history. Our data suggest that mutations of EGFR and K-RAS genes might separately, but not cooperatively, contribute to lung adenocarcinoma pathogenesis, and that EGFR and K-RAS mutants could separately be anti-neoplastic targets in lung adenocarcinomas.     

Anaplastic lymphoma kinase translocation is correlated with anaplastic lymphoma kinase expression and mutually exclusive with epidermal growth factor receptor mutation in Taiwanese non‐small cell lung cancer

The echinoderm microtubule‐associated protein‐like 4‐anaplastic lymphoma kinase (EML4‐ALK) fusion gene is an important biomarker for target therapy. The aim of this study is to better understand the clinical and molecular features of the EML4‐ALK fusion gene in lung cancer patients in Taiwan and therefore to generate an efficient algorithm for the detection of ALK translocation. In the first cohort, ALK translocation was identified in 1 adenocarcinoma from 100 lung cancer patients by using break apart fluorescent in situ hybridization (FISH). Next, we detected 6 ALK translocations in another 40 EGFR wild type adenocarcinomas but not in 40 cases with EGFR mutation. Histological analysis revealed that solid growth with signet‐ring cells or cribriform glands with extracellular mucin were noted in all the 7 ALK translocated cases. One ALK positive cancer with mucinous cribriform pattern had no ALK expression. ALK expression was correlated with ALK translocation (p < 0.001), but not with ALK gene copy number gain (CNG) (P = 0.838). ALK translocation was also mutually exclusive with EGFR mutation in Taiwanese non‐small cell lung cancer (P = 0.033). These results indicate that screening tests for EGFR mutation status and/or ALK expression could help efficiently select ALK translocated patients for target therapy.     

Gene amplification of ERBB2 and EGFR in adenocarcinoma in situ and intramucosal adenocarcinoma of Barrett's esophagus

We examined 11 cases of carcinoma arising from Barrett's esophagus consisting of two adenocarcinomas in situ (ACIS), two intramucosal adenocarcinomas, and seven overt invasive adenocarcinomas. Overexpression of p53 (implying a mutation of the p53 gene), ERBB2, and EGFR was measured by immunohistochemistry, and gene amplification of ERBB2 and EGFR was measured by fluorescence in situ hybridization (FISH). In all cases of ACIS and the intramucosal adenocarcinomas, almost all cancer cells overexpressed p53, however the populations overexpressing ERBB2 and EGFR varied in different cases: in one ACIS, ERBB2 was coexpressed in all the cancer cells, in the other ACIS and one intramucosal adenocarcinoma, ERBB2 was overexpressed in about 50% and only 10% of the p53‐positive cells respectively. EGFR was co‐expressed in 20% in the other intramucosal adenocarcinoma. Protein overexpression of ERBB2 or EGFR corresponded to the amplification of their respective genes on a cell by cell basis. These gene amplifications, however, were not found in the seven invasive adenocarcinomas. Thus we speculate that the gene amplification occurred late in the dysplasia‐carcinoma sequence probably after the mutation of p53. Furthermore, new clonal expansion accompanied by tumor invasion might have extinguished the originally amplified genes in these tumors.     

Clinicopathological characteristics of EGFR mutated adenosquamous carcinoma of the lung

Adenosquamous carcinoma of the lung (Ad‐Sq) is an uncommon subtype with poor prognosis. We analyzed the clinicopathological characteristics of Ad‐Sq, focusing the correlation between Epidermal Growth Factor Receptor (EGFR) mutation and clinicopathological factors. A total of 67 cases were selected from September 1992 to May 2011. EGFR mutational analysis (n = 59) was performed by direct sequence. We also performed immunohistochemical staining for EGFR mutated cases using the two mutation‐specific antibodies for deletion and L858R. Postoperative 3‐year survival rate of Ad‐Sq was 58.7%, statistically worse in comparison with adenocarcinoma (58.7% vs. 78.1%, P = 0.038). Twenty‐four percent (14/59) were positive for EGFR mutations. Patients who had never been smokers and who were lymphatic permeation positive were seen more frequently in the mutation positive group (P = 0.035, 0.027, respectively). Moreover, the EGFR mutated group tended to have a more positive prognosis than negative. Focusing on the pathological features, the lepidic growth pattern was more frequently seen in the positive group (P = 0.018). Immunoreactivity for the DEL‐specific and L858‐specific antibody were observed in both adenocarcinoma and squamous cell carcinoma components. Our study demonstrated that EGFR mutated Ad‐Sq had similar clinicopathological features as EGFR mutated adenocarcinoma.     

EGFR and KRAS mutations in metastatic lung adenocarcinomas

In primary lung adenocarcinoma, EGFR and KRAS mutations are found in approximately 10% to 20% and 20% to 30%, respectively. Few studies have investigated these mutations in metastases. Patients with EGFR mutations have a 70% to 80% response rate to tyrosine-kinase inhibitors therapy and a longer progression-free survival rate in contrast to patients with KRAS mutations that are associated with virtually no response tyrosine-kinase inhibitors. In this study, we have investigated EGFR and KRAS mutations in metastatic lung adenocarcinoma. Using Johns Hopkins Hospital archives, 1966 lung adenocarcinomas were found from January 2007 to May 2010. A total of 60 metastatic adenocarcinomas (28 cytologic and 32 surgical cases) with EGFR and KRAS studies were identified. In addition, 18 cases of primary and matched metastases were also included. Exons 18 to 21 of EGFR and exon 2 of KRAS (codons 12 and 13) were sequenced. In our study, EGFR and KRAS mutations were found in 21.7% (13 of 60 cases) and 28.3% (17 of 60 cases), respectively, and occurred more often with advanced stage of primary tumors. KRAS mutations were associated with poor prognosis and occurred exclusively in smokers in comparison with EGFR mutation. Of 9 pairs, mutations were concordant in 77.8%; 1 pair displayed acquisition of KRAS mutation, whereas 1 pair showed loss of EGFR mutation in the corresponding metastasis. Our findings suggest that EGFR and KRAS status should be tested in metastasis regardless of known mutations of the primary tumor. Additional studies are needed to further investigate the mechanisms of discordances in metastatic tumors.     

Exon 8 amplification of epidermal growth factor receptor (EGFR) in invasive breast carcinomas

Souka E, Alexiadis E, Theohari I, Giannopoulou I, Papadimitriou C & Nakopoulou L
(2012) Histopathology  61, 644–651 Exon 8 amplification of epidermal growth factor receptor (EGFR) in invasive breast carcinomas Aims: The rate of EGFR amplification in breast cancer ranges between 0% and 15%. Recent studies have focused on the amplification status of cytosine–adenine (CA) repeats in intron 1 of the gene and correlated it with increased EGFR protein. The aim of this study was to investigate, for the first time, the significance of coding exon 8 amplification of EGFR in invasive breast cancer. Methods and results: We investigated, by means of real‐time polymerase chain reaction (PCR), the amplification status of exon 8 of the EGFR gene in 148 paraffin‐embedded tissue sections, 115 with invasive breast carcinoma and 33 controls. Immunohistochemistry was utilized to detect EGFR and human epidermal growth factor receptor 2 (HER2) expression. Univariate and multivariate statistical analyses were performed for the evaluation of our results. EGFR amplification was observed in 7.8% of the patients, and EGFR was immunodetected in 9.6%. EGFR amplification was correlated positively with EGFR expression (P < 0.0001), HER2 expression (P = 0.023), coexpression of EGFR/HER2 (P < 0.0001) and nuclear grade (P = 0.047), and inversely with ER protein expression (P = 0.047). Conclusions: It appears that amplification of the coding sequence exon 8 exhibits similar biological behaviour to amplification of the regulatory sequence in intron 1, leading to elevated levels of EGFR protein.