Paolo Graziano

Immunohistochemical subtyping of nonsmall cell lung cancer not otherwise specified in fine-needle aspiration cytology: a retrospective study of 103 cases with surgical correlation.

Histopathological subtyping of nonsmall cell lung cancer (NSCLC) is currently relevant in treatment decision because of a differential activity of specific therapeutic agents. Immunohistochemistry highlights cell differentiation lineages and, in this study, it was applied to maximize the proportion of accurately subtyped NSCLC not otherwise specified (NOS) on fine‐needle aspiration cytology (FNAC) samples.

Solitary Fibrous Tumors of the Pleura: An Analysis of 110 Patients Treated in a Single Institution

BACKGROUND Solitary (localized) fibrous tumors of the pleura (SFTP) are rare slow-growing neoplasms that generally have a favorable prognosis. The aim of this paper is to evaluate the predictors of outcome in a series of 110 patients with SFTP. METHODS The records of 110 patients (63 men; mean age 56.4 years; range, 17 to 79) surgically treated for SFTP from July 1990 to February 2008, were evaluated for demographics, operative procedure, histopathology, morbidity, mortality, postoperative chemotherapy or radiotherapy, and long-term follow-up. RESULTS Operative mortality was 0.9% (1 of 110) and the overall morbidity was 10.9% (12 of 110). The main surgical approach was video-assisted thoracoscopic surgery (69 procedures with a conversion rate of 14.5%); 40 patients underwent thoracotomy and 1 had sternotomy. The visceral pleura was the site of origin in 95 tumors, the parietal pleura in 13, the mediastinal pleura in 2 cases. Sixty-three tumors were pedunculated, 35 were sessile, and 12 were inverted fibroma. Tumors were pathologically benign in 95 cases (86.4%), and malignant in 15 (13.6%). Symptomatic patients presented with malignant tumors more often than asymptomatic (19.1% versus 9.5%). Overall 10-year survival rate was 97.5%. The overall disease-free survival rate was 90.8% (95.7% in benign cases and 67.1% in malignant cases; p < 0.05). Eight patients presented with recurrence of disease, 4 cases of which were malignant and 4 were benign. CONCLUSIONS Solitary fibrous tumor of the pleura is a rare disease that includes both benign and malignant variants.The outcome is mostly benign, with an overall 10-year survival rate of 97.5%. Pathologically benign lesions show a better disease-free survival rate than malignant lesions (95.7% versus 67.1%; p < 0.05). Surgery is the gold standard of treatment as neither radiotherapy nor chemotherapy proved to be effective.

ΔNp63 (p40) and thyroid transcription factor-1 immunoreactivity on small biopsies or cellblocks for typing non-small cell lung cancer: A novel two-hit, sparing-material approach

Introduction: Diagnosing non-small cell lung cancer on biopsy/cellblock samples by morphology may be demanding. As sparing material for molecular testing is mandatory, a minimalist immunohistochemistry (IHC)-based diagnostic approach is warranted by means of novel, reliable, and easy-to-assess biomarkers. Methods: Forty-six consecutive biopsy/cellblock samples and the corresponding resection specimens (as the gold standard for morphology and IHC) from 30 adenocarcinomas (AD), 10 squamous carcinomas (SQC), 5 adenosquamous carcinomas (ADSQC), and 1 sarcomatoid carcinoma (SC) were IHC-evaluated for p40 [corresponding to nontransactivating &Dgr;Np63 isoforms] and thyroid transcription factor-1 (TTF1) by semiquantitative assessment. For p40, also immunodecoration intensity was taken into account and dichotomized as strong or low. Results: Nonrandom and overlapping distributions of the relevant markers were found in biopsy/cellblock and surgical specimens, which closely correlated with each other and the diverse tumor categories, with no differences in area under curve-receiver-operating-characteristic curves for each marker between any two samples, including p40 and p63. Diagnostic combinations were p40−/TTF1+ or TTF1− for AD (where p40 was negative, apart from 5/30 AD showing at the best 1–2% tumor cells with low intensity); p40+/TTF1− (p40 strong and by far higher than 50%) for SQC; and p40+/TTF1+ or p40+/TTF1− (p40 strong and less than 50%) for ADSQC. The single SC case was p40−/TTF1−, suggesting glandular lineage. Practically, 41/46 (89%) tumors were correctly classified by IHC on small samples, including 30 AD, 10 SQC, 1/5 ADSQC, and no SC. Underdiagnosis of ADSQC was actually because of sampling error of biopsies/cellblocks rather than insufficient biomarker robustness, whereas underdiagnosis of SC was really because of the failure of either marker to highlight epithelial-mesenchymal transition. Conclusions: This minimalist IHC-based model of p40 and TTF1 on biopsy/cellblock samples was effective to correctly subtype most cases of lung cancer.

Review Article: A Reevaluation of the Clinical Significance of Histological Subtyping of Non—Small-Cell Lung Carcinoma: Diagnostic Algorithms in the Era of Personalized Treatments

The classification of lung cancer has always been primarily based on the morphologic assessment of routinely stained histological sections, but this approach may be difficult or even unfeasible in cytological preparations or small biopsies. Moreover, the simplistic dichotomization between small-cell carcinoma and non-small cell carcinoma (NSCLC) should be overcome, as new drugs have been discovered that are effective in specific subtypes of lung cancer. A more accurate characterization of NSCLC, however, may be hard in carcinomas lacking clear-cut signs of differentiation. The incorporation into the diagnostic algorithm of poorly differentiated carcinomas of an immunohistochemical panel including markers of squamous (high-molecular-weight cytokeratins, p63) and glandular (TTF-1, cytokeratin 7) cell differentiation seems the most promising approach. The evaluation of lung cancer for gene mutations, gene amplification, tumor-related angiogenesis, expression levels of DNA repair genes and genomic or proteomic profiles represents an exciting challenge for the pathologist in the near future.

Large cell carcinoma of the lung: clinically oriented classification integrating immunohistochemistry and molecular biology

This study aimed at challenging pulmonary large cell carcinoma (LLC) as tumor entity and defining different subgroups according to immunohistochemical and molecular features. Expression of markers specific for glandular (TTF-1, napsin A, cytokeratin 7), squamous cell (p40, p63, cytokeratins 5/6, desmocollin-3), and neuroendocrine (chromogranin, synaptophysin, CD56) differentiation was studied in 121 LCC across their entire histological spectrum also using direct sequencing for epidermal growth factor receptor (EGFR) and v-Ki-ras2 Kirsten rat sarcoma viral oncogene homolog (KRAS) mutations and FISH analysis for ALK gene translocation. Survival was not investigated. All 47 large cell neuroendocrine carcinomas demonstrated a true neuroendocrine cell lineage, whereas all 24 basaloid and both 2 lymphoepithelioma-like carcinomas showed squamous cell markers. Eighteen out of 22 clear cell carcinomas had glandular differentiation, with KRAS mutations being present in 39 % of cases, whereas squamous cell differentiation was present in four cases. Eighteen out of 20 large cell carcinomas, not otherwise specified, had glandular differentiation upon immunohistochemistry, with an exon 21 L858R EGFR mutation in one (5 %) tumor, an exon 2 KRAS mutation in eight (40 %) tumors, and an ALK translocation in one (5 %) tumor, whereas two tumors positive for CK7 and CK5/6 and negative for all other markers were considered adenocarcinoma. All six LCC of rhabdoid type expressed TTF-1 and/or CK7, three of which also harbored KRAS mutations. When positive and negative immunohistochemical staining for these markers was combined, three subsets of LCC emerged exhibiting glandular, squamous, and neuroendocrine differentiation. Molecular alterations were restricted to tumors classified as adenocarcinoma. Stratifying LCC into specific categories using immunohistochemistry and molecular analysis may significantly impact on the choice of therapy.

Immunhistochemistry by Means of Widely Agreed-Upon Markers (Cytokeratins 5/6 and 7, p63, Thyroid Transcription Factor-1, and Vimentin) on Small Biopsies of Non-small Cell Lung Cancer Effectively Parallels the Corresponding Profiling and Eventual Diagnoses on Surgical Specimens

Introduction: More detailed typing of non-small cell lung cancer on small biopsy specimens is increasingly required, albeit sometimes demanding with morphology alone. Little, however, is known about the likelihood of immunohistochemistry (IHC)-assessed small biopsies to effectively parallel profiling and, hence, eventual diagnoses of surgical specimens. Methods: Sixty-three preoperative biopsies and the corresponding surgical specimens from 30 consecutive squamous cell carcinomas, 22 adenocarcinomas, 2 adenosquamous carcinomas, eight sarcomatoid carcinomas, and one yolk sac tumor were jointly evaluated semiquantitatively for cytokeratins 5/6 and 7, p63, thyroid transcription factor-1, and vimentin immunoreactivity. Surgical specimens were the gold standard for morphology and IHC. Results: Hierarchic clustering analysis of both surgical specimens and biopsies showed a nonrandom and overlapping distribution of the relevant markers, which closely correlated with each other and the diverse tumor categories, as confirmed by mosaic plot analysis. There were no differences in area under the curve-receiver operating characteristic curves for each marker between any two samples, with the exception of p63 that paralleled more effectively squamous cell carcinoma on biopsies than surgical specimens. Fifty-nine of 63 (94%) lesions were correctly classified by IHC on biopsy compared with 53 of 63 (84%) by revised morphology, with the predictive positive value being 97% for squamous cell carcinoma, 88% for adenocarcinoma, and 100% for sarcomatoid and adenosquamous carcinoma. Yolk sac tumor and three of eight sarcomatoid carcinomas, however, failed any diagnostic recognition. Conclusions: Diverse cell differentiation lineages of non-small cell lung cancer may be consistently detected by IHC in small biopsies, making the eventual typing of tumors effective in most cases.

Multiparametric molecular characterization of pulmonary sarcomatoid carcinoma reveals a nonrandom amplification of anaplastic lymphoma kinase (ALK) gene

BACKGROUND Genetic alterations for targeting therapy are largely unexplored issues in pulmonary sarcomatoid carcinoma (PSC), a life-threatening tumor subset. METHODS EGFR, HER2, KRAS, p53, CTNNB1, BRAF and PIK3CA mutations were assessed by direct sequencing, ALK, EGFR and HER2 gene status by fluorescence in situ hybridization (FISH), and ALK protein expression by immunohistochemistry (IHC) in 20 pleomorphic carcinomas (PLC), two pulmonary blastomas (PB) and one carcinosarcoma (CS). Surgical specimens and, in case of positivity, the corresponding preoperative biopsies were analyzed. Furthermore, 51 consecutive metastatic lung adenocarcinomas (MELAD) were used as controls for FISH and IHC assays of ALK gene. RESULTS While no rearrangements of ALK were detected in PSC, relevant amplification was identified 5/23 (22%) surgical specimens and paired biopsies (four PLC and one PB, two females and three males, four current and one never smoker, aged 30-83 years). Considering tumor heterogeneity, the percentage of ALK amplified tumor cells ranged from 11% to 43%, with a mean gene copy gain (GCG ± SD) of 6.9 ± 0.8 and no signal differences between the epithelial (6.5 ± 0.9) and the sarcoma-like components (6.8 ± 0.9) of tumors. In the remaining 18 non-amplified PSC, the relevant value was 2.9 ± 0.5 in 1-80% tumor cells (p<0.001). ALK amplification was closely associated with chromosome 7 (EGFR) or 17 (HER2) polysomy (p<0.001). Out of 51 MELAD, 10 were ALK-rearranged (p=0.026) and only one amplified (p=0.009). No amplified tumors, either PSC or MELAD, expressed the relevant protein by IHC, while the 10 ALK-rearranged MELAD were strongly positive. TP53, KRAS and CTNNB1 mutations accounted for 30%, 22%, and 4% of cases, respectively, with no significant relationship with ALK amplification. No mutations for EGFR, HER2, BRAF or PIK3CA gene were observed. CONCLUSION ALK gene amplification is a nonrandom and clonally related event in a subset of PSC, but its biologic rationale deserves further investigation. KRAS mutation could represent a novel tool for therapy of such so deadly tumors with MEK inhibitors.

miR-205 Expression Levels in Nonsmall Cell Lung Cancer Do Not Always Distinguish Adenocarcinomas From Squamous Cell Carcinomas.

Accurate classification of nonsmall cell lung cancers is of paramount clinical relevance, as novel chemotherapeutic agents show different efficacy in adenocarcinomas (ADCs) compared with squamous cell carcinomas (SQCCs). Cyto and histomorphology may sometimes be insufficient for this distinction and immunohistochemistry may improve diagnostic accuracy. The measurement of miR-205 may be another tool for the distinction between ADC and SQCC. The aim of our study was to compare morphologic and immunohistochemical classification with the relative quantification of miR-205 and miR-21 insurgically resected and well-characterized lung tumors (25 ADCs, 24 SQCCs, 1 adenosquamous). The miR-21 relative levels were similar in SQCC and ADC, whereas the miR-205 relative levels were lower in ADC (P<0.0001). The miR-205 sample score value, determined according to Lebanony et al, was higher in ADC (range, 2.8 to 9.08) compared with SQCC (range, −4.17 to 2.445) (P<0.0001). Accordingly, 22 tumors were classified as ADC and 28 tumors as SQCC, although 8 cases (2 SQCCs and 6 ADCs) were in the range of “near cutoff values.” Four cases classified as SQCC (according to the sample score method) corresponded to cases classified as ADC on the basis of morphoimmunohistochemical evaluation. In conclusion, the relative quantification of miR-205 and miR-21 seems to be a promising diagnostic tool. However, the molecular approach is still not completely satisfactory as it may misclassify a non-negligible percentage of cases. Therefore, it cannot be used as a substitute of accurate morphologic and immunophenotypical characterization of tumors, but could be used as an adjunctive diagnostic criterion in selected cases.

Morphology and a Limited Number of Immunohistochemical Markers May Efficiently Subtype Non–Small-Cell Lung Cancer

reported on the high sensitivity andspecificityofhsa-miR-205expressioninsquamouscellcarcinomaof the lung. This method provides an accurate subclassificationof non–small-cell lung cancer (NSCLC) in the light of novelhistology-based therapeutic strategies, such as antiangiogeneticagents, multityrosine kinase inhibitors, and pemetrexed.

Complex Mutations & Subpopulations of Deletions at Exon 19 of EGFR in NSCLC Revealed by Next Generation Sequencing: Potential Clinical Implications

Microdeletions at exon 19 are the most frequent genetic alterations affecting the Epidermal Growth Factor Receptor (EGFR) gene in non-small cell lung cancer (NSCLC) and they are strongly associated with response to treatment with tyrosine kinase inhibitors. A series of 116 NSCLC DNA samples investigated by Sanger Sequencing (SS), including 106 samples carrying exon 19 EGFR deletions and 10 without deletions (control samples), were subjected to deep next generation sequencing (NGS). All samples with deletions at SS showed deletions with NGS. No deletions were seen in control cases. In 93 (88%) cases, deletions detected by NGS were exactly corresponding to those identified by SS. In 13 cases (12%) NGS resolved deletions not accurately characterized by SS. In 21 (20%) cases the NGS showed presence of complex (double/multiple) frameshift deletions producing a net in-frame change. In 5 of these cases the SS could not define the exact sequence of mutant alleles, in the other 16 cases the results obtained by SS were conventionally considered as deletions plus insertions. Different interpretative hypotheses for complex mutations are discussed. In 46 (43%) tumors deep NGS showed, for the first time to our knowledge, subpopulations of DNA molecules carrying EGFR deletions different from the main one. Each of these subpopulations accounted for 0.1% to 17% of the genomic DNA in the different tumors investigated. Our findings suggest that a region in exon 19 is highly unstable in a large proportion of patients carrying EGFR deletions. As a corollary to this study, NGS data were compared with those obtained by immunohistochemistry using the 6B6 anti-mutant EGFR antibody. The immunoreaction was E746-A750del specific. In conclusion, NGS analysis of EGFR exon 19 in NSCLCs allowed us to formulate a new interpretative hypothesis for complex mutations and revealed the presence of subpopulations of deletions with potential pathogenetic and clinical impact.