Ultrastructural studies of cells in body cavity effusions

Transmission electron microscopic examination of benign (16 cases) and malignant (2 cases) mesothelial cells and metastatic carcinoma (10 cases) was performed. These studies showed long, slender, branching and bushy microvilli with high length-to-diameter ratios to be the most important distinguishing features of the mesothelial cells. Cytoplasmic intermediate filaments were present in all mesothelial cells as well as in carcinoma cells. The mesothelial cells showed an absence of mucin vacuoles, intracellular lumens and luminal tight junctions, which are seen in adenocarcinoma cells. The pinocytotic vesicles were found to be more numerous in the mesothelial cells. Lipid vacuoles, lysosomes, Golgi apparatus and intercellular lumens appeared to be variably present in all mesothelial and carcinoma cells. The methodology is discussed and pertinent literature reviewed.     

Heparanase expression: a potential ancillary diagnostic tool for distinguishing between malignant cells and reactive mesothelium in body cavity effusions

OBJECTIVE: Heparanase, an endoglycosidase that cleaves heparan sulphate, is frequently expressed in carcinomas and was suggested to play a role in cell invasion and metastasis. We investigated whether heparanase expression may serve as a reliable marker to discriminate benign mesothelial cells from malignant cells shed into body cavities. METHODS AND RESULTS: Cytological smears of effusions from 51 hospitalized patients were immunostained for heparanase. Strong immunoreactivity was noted in 35 of 40 (88%) carcinoma samples and in all three malignant mesothelioma cases. Only rare (<3%) reactive mesothelial cells were noted showing a faint negligible staining. Specificity was 100%, sensitivity 88%, and positive and negative predictive values were 100% and 89% respectively. CONCLUSIONS: Our results suggest that heparanase may be of value as a complementary component in a diagnostic panel of markers, contributing to its reliability and accuracy.     

Diagnostic accuracy of cytology and immunocytology in carcinomatous effusions

Background: Immunocytology substantially improves the diagnostic accuracy of conventional cytology in the diagnosis of carcinomatous effusions. Due to the unequivocal characterization of the various cell populations, a sensitivity of 92% and specificity of 100% was achieved by immunocytology, examining samples of 1234 serous effusions. Objective: Cytology plays a central role in the aetiological clarification of serous effusions. The sensitivity of this method for the diagnosis of carcinomatous effusions varies between 40% and 80%. The aim of the present study was to investigate whether immunocytology substantially improves the diagnostic quality of the cytological examination in the diagnosis of carcinomatous effusions. Method: Consecutive serous effusions were examined by conventional cytology and by immunocytology. The immunocytological examination was performed on smears, using a standard panel of three antibodies against pancytokeratin, human epithelial antigen 125 and calretinin. Results: Altogether, 1234 effusion samples were examined. A total of 603 effusions were caused by carcinomas, five by malignant mesotheliomas, 11 by malignant lymphomas and 615 by non‐malignant disorders. In conventional cytology, carcinomatous effusions were correctly diagnosed in 314 samples, corresponding to a sensitivity of 52%. In 31 specimens (5%) tumour cells without further specification were described and in 161 samples (27%) the presence of tumour cells was suspected (84% overall sensitivity). A total of 97 carcinomatous effusions (16%) were diagnosed false‐negatively and 50 (8%) of the 615 non‐malignant effusions false‐positively (92% specificity). In immunocytology, 561 carcinomatous samples were correctly diagnosed, representing a sensitivity of 93%. In six cases (1%) the presence of tumour cells was suspected. A total of 36 carcinomatous effusions (6%) were diagnosed false‐negatively (94% over‐all sensitivity). Out of the 615 non‐malignant specimens, there were no false‐positive diagnoses (100% specificity). Conclusion: Immunocytology is a simple, cost‐effective, routinely practicable method which substantially improves the diagnostic accuracy of conventional cytology in the diagnosis of carcinomatous effusions. Therefore, we recommend the use of immunocytology in all those cases where cytology on its own is not completely unequivocal.     

Natural killer cells in carcinomatous pleural effusions

Summary Effector cells in carcinomatous pleural effusions of patients with primary or secondary lung cancer were examined for natural killer (NK) activity against K562 cells in a 4-h chromium release assay, and for mitogenic responses and lymphocyte subpopulation constitutions. NK activity of lymphocyte-rich mononuclear cells isolated from carcinomatous pleural effusions by centrifugation on a discontinuous gradient of Ficoll-Hypaque was markedly low in seven of 40 patients studied, and absent in the other 33 cases. NK activity of peripheral blood mononuclear cells from the patients was lower than that of cells from normal donors, but always higher than that of effusion cells from the same patients. NK cells in the peripheral blood and in pleural effusions had some characteristics in common, in that they lacked a capacity to bind sheep erythrocytes, were nonadherent to Sephadex G-10 beads and nylon wool, and belonged to large granular lymphocytes. On the other hand, nonmalignant effusions of patients with congestive heart failure had significant NK activity. The effector cells in the effusions included a higher frequency of T cells than those in the peripheral blood of the same patients. Proliferative responses to phytohemagglutinin and concanavalin A of effusion cells were comparable to those of normal blood cells and were higher than those of blood cells from the same patients. The reason for low NK activity and high mitogenic response in carcinomatous pleural effusions is as yet undefined.     

GLUT1 antibody staining in thin-layer specimens of benign and malignant body cavity effusions

OBJECTIVE: To determine whether GLUT1 antibody could replace one or more of the currently used antiepithelial antibodies and to assess whether ThinPrep methodology is suited to immunocytochemical (ICC) evaluation. STUDY DESIGN: In a prospective study of 10 fluids containing malignant cells from cases of proven adenocarcinoma and 10 cytologically benign effusions, multiple slides were prepared by ThinPrep technology for staining with four commercially available antibodies and appropriate isotype-matched negative controls. The antibodies used were GLUT1, CEA, B72.3 and Leu-M1 (CD 15). Tissue sections and ThinPrep slides were used as positive controls. Specimens were batched to ensure similar conditions for all antibody reactions. RESULTS: Of the 11 cases ultimately proven to be carcinoma, GLUT1 and B72.3 stained 7 each (63.6%), and CEA and Leu-M1 6 each (54.5%). No false positive staining was encountered, but one case chosen as a benign control was shown to contain immunopositive cells by three of the four epithelial markers used; this case was therefore an occult true positive rather than a false positive. CONCLUSION: In this small but controlled prospective analysis, GLUT1 demonstrated strong positive staining, with sensitivity similar to that of currently used epithelial markers. Using GLUT1 in conjunction with B72.3, no cases of carcinoma were missed. GLUT1 could be used in a panel of antibodies designed to confirm the presence of adenocarcinoma. ThinPrep methodology, which enables multiple slides to be prepared after routine microscopy determines the need for ICC, appears suited to this adjuvant investigation.     

Diagnostic utility of BCA-225 in detecting adenocarcinoma in serous effusions

OBJECTIVE: To determine the diagnostic value of the BCA-225 antibody in discriminating adenocarcinoma from benign mesothelium in body cavity effusions. STUDY DESIGN: One hundred four cases of unequivocally benign (34 cases) and malignant (70 cases) serous effusions with cell block material were immunostained for BCA-225 using the ABC method without antigen retrieval. The percentage of positively staining cells in each case was estimated in a blind fashion. RESULTS: BCA-225 stained at least 10% of morphologically malignant cells in 28 of 32 (88%) breast carcinomas and 58 of 67 (87%) adenocarcinomas overall. Neuroendocrine carcinomas (two cases) and one mesothelioma were positive in < or = 5% of their respective tumor cells. Of 34 benign cases, 6 (18%) exhibited positive staining, albeit in rare, morphologically benign cells. CONCLUSION: BCA-225 is able to discriminate adenocarcinoma from reactive mesothelium in cell block preparations and may prove useful as part of an antibody panel.     

Suppressor cells for natural killer activity in carcinomatous pleural effusions of cancer patients

Summary Carcinomatous pleural effusions of 25 of 32 patients with lung cancer, which had markedly low or no natural killer (NK) activity against K562 cells in a 4 h chromium release assay, contained cells capable of suppressing the lytic function of blood NK cells from normal donors and cancer patients. Suppressor cells were found to be Sephadex G-10- and serum coated plastic dish-adherent monocyte/macrophages in 21 of 25 patients and nylon wool-nonadherent lymphocytes in the other four cases. Nonmalignant pleural effusions did not contain any type of suppressor cells. Twenty-four-hour preincubation of suppressor cells with effector cells was required for mediation of the suppressor function. Neither culture supernatants of effusion cells and NK cells nor effusion supernatants suppressed NK activity. The presence of indomethacin during the preincubation and cytotoxicity assay did not abrogate suppressor function. Suppressor cells did not reduce the number of lymphocyte/K562 conjugates. Contaminating tumor cells were not responsible for the suppression of cytotoxic activity. NK cells precultured with suppressor cells were not able to show cytotoxic function even after removal of the suppressor cells. When effusion mononuclear cells were passed through a Sephadex G-10 column and then preincubated for 24 h, these cells showed a significant increase in NK activity. The results suggest that carcinomatous pleural effusions contain at least two classes of suppressor cells for NK activity, monocyte/macrophages, and nylon wool-nonadherent lymphocytes, which could be one of the causes of impaired NK activity in carcinomatous pleural effusions.     

Diagnostic value of clot examination for malignant cells in serous effusions

Objective:  To assess the diagnostic value of clot examination for satisfactory processing and confirmation of malignancy in serous effusions in routine cytological evaluation and compare the results with those of conventional smear and cell block preparations.
Methodology:  Body cavity fluids ( n  = 600) received in our laboratory were processed according to a pre-designed protocol for the study as follows: Day1: on receipt of the specimen, smears were made and a cell block was prepared from the sediment. Day2: after overnight sample storage of the remaining specimen at 2–8 °C all fluids were examined for the presence of a clot at the bottom of the container. Fluids in which clot had formed were fixed in formalin. The clot was then placed on a lens paper, wrapped and processed routinely. Diagnostic yields were compared.
Results:  In this study, we included 600 cases of serous fluids from pleural, pericardial and peritoneal effusions. In 73% ( n  = 437) of samples, clot formation was seen, while in 27%, ( n  = 163) no clot had formed. Routine smear and cell block preparations showed malignant cells in 9.6% ( n  = 42). However, with the addition of the clot preparation, the number of cases in which atypical/malignant cells were seen increased from 42 to 85 (19.4%), with a P  < 0.001. Special stains and immunohistochemistry (IHC) were also performed on clot preparations in 10 difficult cases.
Conclusion:  Clot preparation from body cavity fluids on the second day can be used as an adjunct to smear and routine cell block preparation to improve the accuracy and yield of the cytological diagnosis and may also be of great help for special studies such as IHC staining.     

Lower proliferation rate in metastatic effusion mesothelial cells than in benign effusions

OBJECTIVE: To determine the proliferation rates of mesothelial cells in metastatic and benign effusions. STUDY DESIGN: Immunohistochemistry was performed on formalin-fixed pellets from 16 malignant and 9 benign clinical effusions. Dual staining with antibodies against Ki-67 (MIB-1) and desmin was applied to all effusions to differentiate between benign mesothelial cells and malignant cells, and the proportions of desmin+/Ki-67+ and desmin+/Ki-67- cells were calculated. RESULTS: In 7 malignant effusions no proliferating mesothelial cells were found, whereas some rate of proliferation could always be demonstrated in mesothelial cells in the benign effusions. Further, the median proportions of proliferating cells, malignant 2% vs. benign 11%, differed significantly. CONCLUSIONS: To our knowledge this finding has not been previously described, and it may have implications for both cytologic diagnosis and the understanding of tumor biology and the interaction between tumor cells and mesothelial cells.     

Comparison of light and transmission electron microscopy for the evaluation of body cavity effusions

Evaluation of 282 body cavity effusions by both light and transmission electron microscopy showed that the two methods compare favorably. The major advantages of electron microscopy are higher rates of unequivocally positive diagnoses, improved diagnosis in borderline or suspicious cases and better discrimination between benign and malignant fluids or decreased numbers of inconclusive results. This was obtained without false-positive results. The major disadvantage of the method is the increased time and preparative procedures needed. As with light microscopy, the false-negative rate was high.     

Origin of coronary endothelial cells from epicardial mesothelium in avian embryos

It has been established that coronary vessels develop through self-assembly of mesenchymal vascular progenitors in the subepicardium. Mesenchymal precursors of vascular smooth muscle cells and fibroblasts are known to originate from an epithelial-to-mesenchymal transformation of the epicardial mesothelium, but the origin of the coronary endothelium is still obscure. We herein report that at least part of the population of the precursors of the coronary endothelium are epicardially-derived cells (EPDCs). We have performed an EPDC lineage study through retroviral and fluorescent labelling of the proepicardial and epicardial mesothelium of avian embryos. In all the experiments onlythe surface mesothelium was labelled after 3 h of reincubation. However, endothelial cells from subepicardial vessels were labelled after 24-48 h and endothelial cells of intramyocardial vessels were also labelled after 48-96 h of reincubation. In addition, the development of the coronary vessels was studied in quail-chick chimeras, obtaining results which also support a mesothelial origin for endothelial and smooth muscle cells. Finally, quail proepicardial explants cultured on Matrigel showed colocalization of cytokeratin and QH1 (mesothelial and endothelial markers, respectively) after 24 h. These results, taken together, suggest that EPDC show similar competence to that displayed by bipotential vascular progenitor cells [Yamashita et al., Nature 408: 92-96 (2000)] which are able to differentiate into endothelium or smooth muscle depending on their exposure to VEGF or PDGF-BB. It is conceivable that the earliest EPDC differentiate into endothelial cells in response to myocardially-secreted VEGF, while further EPDC would be recruited by the nascent capillaries via PDGFR-beta signalling, giving rise to mural cells.     

Usefulness of ploidy, AgNOR and immunocytochemistry for differentiating benign and malignant cells in serous effusions

OBJECTIVE: The objective of this study was to establish the value of different markers in differentiating reactive mesothelial cells from metastatic adenocarcinomatous cells in serous effusions (SE). METHODS: Forty-five SE were processed for morphological examination (Papanicolaou stain), assessment of ploidy, AgNOR counting and immunocytochemical assay of carcinoembryonic antigen (CEA), epithelial membrane antigens (EMA), Ber-EP4 and Leu-M1. Ploidy was established in an image-analyser in smears stained by the Feulgen stain method. AgNOR dots were counted in the smears stained with the silver nitrate assay for non-histone proteins present in the nucleolar organizer region. CEA, EMA, Ber-EP4 and Leu-M1 were evaluated by immunocytochemistry using the streptavidin-biotin complex method. RESULTS: All the smears with positive cytology were aneuploid. Three false negatives by morphological studies were aneuploid, with AgNOR values in two of them corresponding to the neoplastic group. CEA and Leu-M1 showed a low specificity; EMA and Ber-EP4 showed moderate sensitivity. CONCLUSIONS: The assessment of ploidy and the study of AgNOR were better methods than immunocytochemistry for distinguishing between reactive mesothelial cells and adenocarcinomatous cells in serous fluid.     

Lectin microarrays differentiate carcinoma cells from reactive mesothelial cells in pleural effusions

The aim of this study was to evaluate the diagnostic utility of lectin microarrays in pleural effusions of patients with lung cancer. A lectin microarray, LTL, PSA, LCA, UEA-1, AAL, MAL-I, MAL-II, SNA, WGA, ECL, DSA, STL, SWGA, HPA, ConA, GNA, HHL, BPL, EEL, Jacalin, WFA, ACL, MPL, DBA, SBA, was used to determine the glycoprotein profile of cells in pleural effusions from patients with lung cancer (54 cases), and with benign lung disease (54 cases). The A549 cell line, used as an experimental control, was positive for AAL, MAL-I, WGA, STL, Jacalin and ACL binding. Adenocarcinoma cells in pleural effusions were positive for ECL, DSA, AAL, MAL-I, WGA, STL, Jacalin, and ACL binding. AAL, WGA, and ACL positive binding was the most common, found in 54, 48, and 38 samples, respectively. ECL and DSA binding was positive in only 4 samples. In comparison, reactive mesothelial cells displayed positive binding for all markers in the microarray panel. SNA and AAL positive binding was detected in the majority of samples; 50/54 and 48/54 samples, respectively. Positive binding of DBA, MAL-II and EEL was present in only 2, 4 and 4 samples, respectively. SNA binding had the highest sensitivity (92.6 %), specificity (100 %), and accuracy (96.3 %). SNA may be used as a biomarker to distinguish reactive mesothelial cells from adenocarcinoma cells. The lectin microarrays proved able to distinguish carcinoma cells from reactive mesothelial cells in pleural effusions.     

Differential proteome profiling of pleural effusions from lung cancer and benign inflammatory disease patients

The pleural effusion proteome has been found containing information that directly reflects pathophysiological status and represents a potential diagnostic value for pulmonary diseases. However, the variability in protein composition between malignant and benign effusions is not well understood. Herein, we investigated the changes of proteins in pleural effusions from lung adenocarcinoma and benign inflammatory disease (pneumonia and tuberculosis) patients by two-dimensional difference gel electrophoresis (2D-DIGE). Twenty-eight protein spots displayed significantly different expression levels were positively identified by MALDI-TOF-MS representing 16 unique proteins. Five identified protein candidates were further validated and analyzed in effusions, sera or tissues. Among them, hemopexin, fibrinogen gamma and transthyretin (TTR) were up-regulated in cancer samples. The effusion concentration of serum amyloid P component (SAP) was significantly lower in lung cancer patients than in benign inflammatory patients, but no differences were found in sera samples. Moreover, a Jumonji C (JmjC)-domain-containing protein, JMJD5, was observed to be down-regulated in malignant effusions, lung cancer tissues and cancer cells. These results shed light on the altered pleural effusion proteins as a useful and important complement to plasma or other routine clinical tests for pulmonary disease diagnosis.     

Immunocytochemical panel for distinguishing carcinoma cells from reactive mesothelial cells in pleural effusions

Objective:  The aim of this study was to evaluate the individual and combined diagnostic utility of carcinoembryonic antigen (CEA), cytokeratin 19 fragments (CK19) and HBME-1 in pleural effusions of patients with lung cancer.
Study design:  CEA, CK19 and HBME-1 were detected by immunocytochemistry in pleural effusions from patients with lung cancer (86 cases) and without lung cancer (40 cases).
Results:  CEA and CK19 expression were significantly higher in the carcinoma cell group and in three subgrouped as adenocarcinoma (AC), squamous cell carcinoma (SCC) and small cell lung cancer than in the mesothelial cell group, whereas HBME-1 expression was lower in the former group ( P <  0.01). In the subgrouped tumours, CEA expression was higher in AC than in SCC ( P <  0.05), whereas HBME-1 expression was higher in SCC than in AC ( P <  0.01). Used alone, CK19 had the highest sensitivity (95.3%) and accuracy (93.7%), whereas CEA had the highest specificity (97.5%). When combinations of antibodies were evaluated together and membrane staining with HBME-1 taken as a negative outcome, CK19 and HBME-1 gave a high diagnostic performance: sensitivity of 100.0% and accuracy of 95.2% respectively.
Conclusion:  A panel of CEA, CK19 and HBME-1 monoclonal antibodies proved to be suitable for distinguishing carcinoma cells from reactive mesothelial cells in pleural effusions.     

Potential of radial basis function neural networks in discriminating benign from malignant lesions of the lower urinary tract

OBJECTIVE: To investigate the potential value of morphometry and neural network tools for discriminating benign from malignant nuclei and lesions of the lower urinary tract. STUDY DESIGN: The study group consisted of 33 cases of lithiasis, 41 cases of inflammation, 66 cases of benign hyperplasia of the prostate, 4 cases of carcinoma in situ, 48 cases of grade 1 transitional cell carcinoma of the bladder (TCCB) and 123 cases of grade 2 and 3 TCCB. Images of routinely processed voided urine smears stained by the Giemsa technique were analyzed by a custom image analysis system. Analysis of the images gave a data set of features from 31,158 nuclei. A radial basis function (RBF)-type neural network was employed to discriminate benign from malignant nuclei, based on the extracted morphometric and textural features. Subsequently a second RBF classifier was employed to discriminate benign from malignant cases. The nuclei from 156 randomly selected cases (50% of total cases) was used as a training set, and the nuclei from the remaining 159 cases made up the test set. Similarly, in an attempt to discriminate at the patient level, the same 156 cases were used to train an RBF classifier; the remaining 159 cases were used for the test set. The cases used for training and testing the 2 classifiers (nuclear and patient level) were the same for the 2 kinds of classifiers. RESULTS: Application of the RBF classifier permitted the correct classification of 93.64% of benign nuclei and 85.61% of malignant, giving an overall accuracy of 84.45%. At the patient level the RBF classifier permitted an overall accuracy of 94.97%. These results were on the test sets. CONCLUSION: The role of nuclear morphologic features in the cytologic diagnosis of lower urinary tract alterations was confirmed by the results of this study. The observed overlap in feature space indicates that the nuclear characteristics do not form strictly separate clusters; that fact explains the difficulty morphologists have with reproducible identification of nuclei from the lower urinary tract. Application of RBF offers good classification at the nuclear and patient level and promises to become a powerful tool for everyday practice in the cytologic laboratory.     

Diagnostic utility of snail in metaplastic breast carcinoma

Aims

As one of the five Lactate dehydrogenase (LDH) isoenzymes, LDH5 has the highest efficiency to catalyze pyruvate transformation to lactate. LDH5 overexpression in cancer cells induces an upregulated glycolytic metabolism and reduced dependence on the presence of oxygen. Here we analyzed LDH5 protein expression in a well characterized large cohort of primary lung cancers in correlation to clinico-pathological data and its possible impact on patient survival.

Methods

Primary lung cancers (n = 269) and non neoplastic lung tissue (n = 35) were tested for LDH5 expression by immunohistochemistry using a polyclonal LDH5 antibody (ab53010). The results of LDH5 expression were correlated to clinico-pathological data as well as to patient's survival. In addition, the results of the previously tested Transketolase like 1 protein (TKTL1) expression were correlated to LDH5 expression.

Results

89.5% (n = 238) of NSCLC revealed LDH5 expression whereas LDH5 expression was not detected in non neoplastic lung tissues (n = 34) (p < 0.0001). LDH5 overexpression was associated with histological type (adenocarcinoma = 57%, squamous cell carcinoma = 45%, large cell carcinoma = 46%, p = 0.006). No significant correlation could be detected with regard to TNM-stage, grading or survival. A two sided correlation between the expression of TKTL1 and LDH5 could be shown (p = 0.002) within the overall cohort as well as for each grading and pN group. A significant correlation between LDH5 and TKTL1 within each histologic tumortype could not be revealed.

Conclusions

LDH5 is overexpressed in NSCLC and could hence serve as an additional marker for malignancy. Furthermore, LDH5 correlates positively with the prognostic marker TKTL1. Our results confirm a close link between the two metabolic enzymes and indicate an alteration in the glucose metabolism in the process of malignant transformation.