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.     

胸水中VEGF、TNF-α 的检测对良恶性胸水的鉴别诊断意义

目的:探讨检测胸水中血管内皮生长因子(VEGF)、肿瘤坏死因子(TNF-α)水平对良恶性胸水的鉴别诊断意义。方法:采用酶联免疫检测法(ELISA)测定34例良性胸腔积液患者和44例恶性胸腔积液患者胸水中VEGF、TNF-α水平。结果:良性胸腔积液组患者胸水中TNF-α水平显著高于恶性胸腔积液组(P<0.05);良性胸腔积液组患者胸水中VEGF水平显著低于恶性胸腔积液组(P<0.05)。结论:胸水中VEGF、TNF-α水平的检测对良、恶性胸水患者具有鉴别诊断意义。     

MMP-2 VEGF在肺腺癌细胞中的表达及其意义

目的研究探讨基质金属蛋白酶2(MMP-2)及血管内皮生长因子(VEGF)在胸腔积液、痰液中肺腺癌细胞的不同表达及二者在肺癌细胞侵袭转移过程中的相互关系。方法选择胸腔积液、痰液共计264例癌性及异型增生细胞标本经免疫细胞化学方法分别检测MMP-2 VEGF的表达情况。结果免疫细胞化学结果显示:MMP-2在胸腔积液中腺癌细胞、异型增生上皮细胞的表达率分别为71.7%(99/138)、16.7%(6/36),在胸膜炎和结核病变典型良性胸腔积液增生上皮细胞中不表达;在痰腺癌细胞中的表达率为39.1%(27/69),统计结果显示MMP-2在恶性胸腔积液腺癌细胞中的表达率明显高于在异型增生的上皮、增生的上皮及痰腺癌细胞的表达率(P均0.05)。VEGF在胸腔积液中腺癌细胞、异型增生上皮细胞的表达率分别为89.1%(123/138)、33.3%(12/36),在胸膜炎和结核病变典型良性胸腔积液增生上皮细胞中不表达;在痰腺癌细胞中的表达率为47.8%(33/69),VEGF在恶性胸腔积液腺癌细胞中表达率明显高于在异型增生的上皮细胞、增生的上皮细胞及痰腺癌细胞的表达率(P均0.05),且MMP-2同VEGF总阳性表达率之间成正相关(r=0.867,P=0.049)。结果 MMP-2 VEGF在胸水腺癌细胞中高表达,可能与肺腺癌的转移、侵袭有关;两者联合做免疫细胞化学检查对肺腺癌细胞病理诊断有辅助意义。     

Evaluation of serum and pleural levels of soluble B7-H4 in lung cancer patients with pleural effusion

Abstract

Objective: To evaluate the diagnostic value of sB7-H4 and CEA in both serum and pleural effusion of lung cancer patients.

Methods: Levels of sB7-H4 and CEA in 90 patients with malignant pleural effusion due to lung cancer and 58 patients with benign pleural effusion were measured by ELISA.

Results: The sB7-H4 and CEA levels in pleural effusion, serum and their ratio (F/S) were higher in lung cancer group than that in benign group (p?<?0.01). The diagnostic efficiency of sB7-H4 combined CEA was superior to either sB7-H4 or CEA.

Conclusions: Measurement of sB7-H4 and CEA might be useful diagnostic value for malignant effusion.     

肺癌性胸腔积液中生存素基因检测的诊断意义探讨

目的：生存素基因（survivin）是一种新近发现的抗凋亡基因,在肿瘤组织中呈现表达。本文旨在探讨和比较肺癌性胸腔积液和结核性胸腔积液中生存素基因的表达情况,以及其联合细胞学检查对判断肺癌性胸腔积液的敏感度。方法：应用逆转录酶-聚合酶链反应法（RT-PCR）检测2007年06月～2008年03月42例肺癌患者癌性胸腔积液标本,及同时期28例结核性胸腔积液标本的生存素mRNA表达情况,并联合细胞学检查结果进行对比分析。结果：42例肺癌患者胸腔积液标本中生存素mRNA的阳性率为52138％（22／42）;癌细胞的检出率为30．95％（13／42）;生存素mRNA检测联合细胞学检查诊断肺癌的敏感性为61．90％（26／42）,显著高于单独胸腔积液细胞学检测的敏感性（P〈0．001）。28例结核性胸腔积液标本的生存素mRNA阳性率为7．14％（2／28）,显著低于肺癌患者胸腔积液标本生存素mRNA的阳性率（P〈0．001）。结论：运用RT—PCR方法检测胸腔积液中生存素mRNA的表达在判断肺癌性胸腔积液中具有一定的敏感性和特异性,可能作为肺癌辅助诊断的一个新检测指标。     

血清及胸腔积液中CA19-9、SCC-Ag及CYFRA21-1对肺癌诊断意义的对比研究

目的:探讨肺癌患者血清及胸腔积液中的糖蛋白抗原19-9(CA19-9)、鳞状细胞癌抗原(SCC-Ag)和细胞角蛋白19片段(CYFRA21-1)对肺癌的诊断意义。方法:选取2016年1月到2017年6月在我院接受治疗的肺癌患者67例作为肺癌组,另选取我院同期收治的肺良性病变患者55例纳入良性病变组。采用电化学发光法检测并对比两组患者血清及胸腔积液中的CA19-9、SCC-Ag和CYFRA21-1水平,比较所有研究对象血清及胸腔积液中CA19-9、SCC-Ag和CYFRA21-1的阳性率并分析其诊断价值。结果:肺癌组患者血清及胸腔积液中的CA19-9、SCC-Ag和CYFRA21-1水平显著高于良性病变组,有统计学差异(P0.05)。CA19-9、SCC-Ag和CYFRA21-1在胸腔积液中的阳性率高于在血清中的阳性率,有统计学差异(P0.05)。胸腔积液中CA19-9、SCC-Ag和CYFRA21-1单项检测对肺癌的灵敏度显著高于血清检测,血清及胸腔积液中CA19-9、SCC-Ag和CYFRA21-1三项联合检测的灵敏度、特异性、阳性预测值均高于单项检测,差异均有统计学意义(P0.05)。结论:肺癌患者血清及胸腔积液中CA19-9、SCC-Ag和CYFRA21-1呈现高表达,三项指标联合检测可提高诊断肺癌的灵敏度、特异性和阳性预测值。     

Intrapleural instillation of interferon γ in patients with malignant pleurisy due to lung cancer

 The effect of intrapleural instillation of recombinant human interferon γ (IFNγ) at increasing doses of (1–12) × 10⁶ U was examined in six patients with cytologically positive pleural effusion due to lung cancer. Intrapleural instillation was repeated up to three times. Clinically, no reaccumulation of pleural effusion was observed in one patient and disappearance of lung cancer cells from the pleural effusion was seen in two other patients. No severe side-effects were observed. Considerable levels of IFNγ remained in the pleural effusion as well as in patients’ serum up to 7 days after instillation of 2 × 10⁶ U and higher doses. The total cell number showed a transient decrease on day 1 of therapy. Levels of pro-inflammatory cytokines, such as tumor necrosis factor α, interleukin(IL)-1β and IL-6, in the pleural effusion remained almost stable after IFNγ instillation. On the other hand, intrapleural IL-1 receptor antagonist levels were remarkably elevated by the instillation of IFNγ. IL-2- and IL-12-inducible killer activity of pleural mononuclear cells tended to increase slightly. Despite the inability of IFNγ to control pleural effusion in this treatment schedule, IFNγ instilled by an intrapleural route had a potential local antitumor activity. Moreover, since IFNγ persists in pleural effusions for a long time after a single instillation, such a therapy in combination with other fibrogenic biological response modifiers can be promising. Received: 28 February 1997 / Accepted: 23 July 1997     

On the identification of biomarkers for non-small cell lung cancer in serum and pleural effusion

The current imperative need for new biomarkers of non-small cell lung cancer (NSCLC) prompted us to compare the proteome of serum and pleural effusion samples from cancer patients with those with benign lung diseases as pneumonia or tuberculosis. Samples were prefractionated through affinity chromatography prior to 2D-DIGE to detect proteins with altered expression in cancer patients. Overall, we identified more potential biomarkers in pleural effusion, which is closer to the affected organ, than in serum. Nevertheless, in both cases principal component analysis demonstrated that the pattern of significantly altered proteins discriminates between disease groups.The biomarker candidates comprise proteins increased in malignant pleural effusions as gelsolin and the metalloproteinase inhibitor 2, and others with lower levels as S100-A8 and S100-A9. The most interesting protein was the pigment epithelium-derived factor (PEDF), which is related to angiogenesis inhibition, and was significantly overexpressed both in serum and pleural effusion from NSCLC patients. More than 12 PEDF isoforms were specifically immunodetected in both fluids in 2-D blots, most of them overexpressed in NSCLC. Thus, further validation would be ideally directed to quantify individual PEDF isoforms, as it may be only one or some of them the ones altered in the cancer process.     

Autoantibodies against p53 are not increased in human ascites and pleural effusions

 Mutated human p53 may give rise to the formation of autoantibodies and may be a marker for a worse prognosis. We speculated that ascites or pleural effusions may enhance the formation of such autoantibodies in cancer patients and, therefore, we measured the presence of autoantibodies in the ascites or pleural effusion of 40 patients with advanced malignancies. As controls, p53 autoantibodies were measured in 15 patients with effusions who did not have a malignancy. Using a specific enzyme-linked immunosorbent assay, p53 autoantibodies could only be detected in the effusions of 5/40 patients (12.5%) with known malignancies. The formation of autoantibodies did not correlate with the presence or absence of tumor cells in the effusion. The effusions of the patients without tumor were all negative for p53 autoantibodies. Our study shows that malignant or reactive effusions do not stimulate the local or systemic production of autoantibodies against p53. Received: 14 November 1995 / Accepted: 8 February 1996     

Generation of killer activity by interleukin-12 of mononuclear cells in malignant pleural effusions due to lung cancer

 In the present study, we examined the ability of interleukin (IL)-12 to generate an antitumor effect in the tumor-growing site. Mononuclear cells (MNC) were obtained from 12 malignant pleural effusions due to lung cancer in the tumor-growing site. Non-major-histocompatibility-complex-restricted killer activity, examined by 4-h ⁵¹Cr release assay against Daudi lymphoma cells as well as various lung cancer cell lines (H69 and PC-9), and in vitro production of interferon γ (IFNγ), measured by enzyme immunoassay, were investigated as mediators of antitumor effects of host cells activated by IL-12. IL-12 induced killer activity of MNC in pleural effusions (pleural MNC) dose-dependently. Moreover, pleural MNC produced a signficant amount of IFNγ in response to IL-12. The killer activities of IL-12-activated blood MNC were higher than those of pleural MNC. The supernatants of pleural effusions of these untreated patients suppressed killer induction by IL-12 of blood MNC of healthy volunteers. These observations suggest that MNC present at the site of growing tumors may act as effector cells against lung cancer in the presence of IL-12. Received: 31 December 1996 / Accepted: 10 September 1997     

Cystatins C,E/M and F in human pleural fluids of patients with neoplastic and inflammatory lung disorders

Secretory type 2 cystatins, like cystatins C, E/M and F, are thought to be involved in many pathobiological processes, including vascular amyloidosis, rheumatoid arthritis, Alzheimer's disease, osteoporosis, viral and bacterial infections, inflammatory disorders and tumour invasion and metastasis. In order to define the levels of cystatins C, E/M, and F in pleural effusions and to investigate whether these cystatins correlate with diagnostic parameters of pleural and lung diseases, we determined their concentrations in 160 pleural effusions. The median concentration of cystatin C in pleural effusions was 1437 microg/l (95.8 nM), ranging between 18-3967 microg/l. Cystatin C did neither correlate with malignant nor with benign diseases. The concentration of cystatin E/M was significantly higher in effusions of primary pleural tumours (mesotheliomas) compared to secondary pleural tumours and benign diseases. Furthermore, there was a significant correlation between the concentration of cystatin E/M of mesotheliomas and the pleural fluid tumour cell count and of cystatin C. The median values of cystatin F were significantly increased in parapneumonic/empyema thoracis pleural effusions and tuberculous pleurisy compared to malignant pleural effusions, respectively. The concentration of cystatin F in benign effusions correlated significantly with diagnostic parameters and inflammation (total protein; lactate dehydrogenase; C-reactive protein). Finally, only in the group of parapneumonic/empyema thotatin F and the neutrophil count. In conclusion, pleural effusions of different origin contain high levels of cystatin C, perhaps constituting the major part of an inhibitor reservoir. The level of cystatin E/M appears to be significantly associated with primary pleural tumours and cystatin F correlates with inflammatory processes of lung disorders.     

The interval between the diagnosis of malignancy and the development of effusions, with reference to the role of cytologic diagnosis

An analysis was made of the time lapse between the diagnosis of malignancy and the development of an effusion in relation to the sex and age of the patients and the site of the primary malignancy. The total number of patients studied was 254; of these, 171 patients had a pleural and 83 patients a peritoneal effusion. In the total group, sex distribution was two men to three women: about equal in the pleural effusion group and about two men to nine women in the ascites group, with the latter ratio reflecting the large number of primary malignant processes in the breast and ovaries. The average age at the time of the effusion, whether it was located in the pleural or in the peritoneal cavity, was about 55 years. This figure was roughly 60 years for men and 51 years for women. The nine-year average age difference between sexes can be explained by the size of the four largest groups of different primary malignant localizations and their sex distribution. The interval between the discovery of the primary malignancy and the first fluid sample was longer for patients with a pleural effusion (average of 77.0 weeks) than for patients with ascites (average of 54.5 weeks). The longest interval was seen in the breast carcinoma group, with the shortest interval in lung carcinoma patients. The interval was significantly longer for women, being 111.9 weeks for pleural effusions and 57.9 weeks for ascites (average for both sites of 88.7 weeks). In 30.7% of the patients, the primary malignancy was discovered at the same time or later than the effusion; in patients with lung cancer, a strikingly higher percentage of 53.0% was found. In this respect, the cytologic diagnosis of effusions is of great importance not only for the detection and proper identification of a malignant process but also as an indicator of the life expectancy of a patient.     

Circulating and local nuclear expression of survivin and fibulin-3 genes in discriminating benign from malignant respiratory diseases: correlation analysis

Survivin is an inhibitor of apoptosis as well as a promoter of cell proliferation. Fibulin-3 is a matrix glycoprotein that displays potential for tumor suppression or propagation. The present study aimed to validate the expression levels of survivin and fibulin-3 in benign and malignant respiratory diseases. This case–control study included 219 patients categorized into five groups. Group A included 63 patients with lung cancer, group B included 63 patients with various benign lung diseases, group D included 45 patients with malignant pleural mesothelioma (MPM), and group E included 48 patients with various benign pleural diseases. Group C included 60 healthy individuals (control group). Serum survivin and fibulin-3 levels were measured by ELISA, whereas their nuclear expressions in the lung and pleura were assessed via Western blot analysis. The results showed significantly higher survivin serum levels and significantly lower fibulin-3 levels in group A compared with in group B and controls (P<0.001). There were significantly higher serum levels of survivin and fibulin-3 in group D compared with in group E and controls (P<0.001), consistent with observed nuclear survivin and fibulin-3 expression levels. Fibulin-3 was determined to have higher value than survivin in discriminating lung cancer from MPM (P<0.05). Survivin and fibulin-3 could be useful diagnostic markers for lung and pleural cancers, and fibulin-3 expression was particularly useful in differentiating lung cancer from MPM.     

Diagnostic value of ferritin in the differential diagnosis of malignant effusions

The diagnostic value of ferritin in pleural effusions or ascites was studied in 151 samples from 147 patients (four patients had both kind of effusions). Samples (99 pleural effusions, 52 ascites) were evaluated in 4 groups: benign transudate (27 cases), benign nontuberculous exudate (26 cases), tuberculous exudate (47 cases) and malignant exudate (51 cases). Median ferritin levels in effusions were 67 ng/ml, 805 ng/ml, 889 ng/ml, 998 ng/ml and median effusion/serum (E/S) ratios were 0.7. 2.0, 4.9, 3.2 respectively. There was a significant difference between the concentrations of ferritin in malignant (51 cases) and nonmalignant effusions (100 cases) (p < 0.001), but the specificity and positive predictive value were low (43% and 45% respectively). Ferritin levels in transudate group were significantly lower than those in the others (p < 0.001). However, ferritin concentrations in three exudate groups were similar (p > 0.05). When compared the all inflammatory effusions (malignant, tuberculous, nontuberculous inflammatory exudates) with noninflammatory effusions (transudate and exudate), we determined a significant difference (p < 0.001). CONCLUSIONS: 1) Elevated ferritin concentration in effusions is significant indicators of exudates; 2) It is not good a parameter to discriminate the malignant effusions from the benign ones; 3) They can be useful in the differential diagnosis of the inflammatory exudations from the noninflammatory ones.     

In-depth Proteomic Analysis of Six Types of Exudative Pleural Effusions for Nonsmall Cell Lung Cancer Biomarker Discovery

Pleural effusion (PE), a tumor-proximal body fluid, may be a promising source for biomarker discovery in human cancers. Because a variety of pathological conditions can lead to PE, characterization of the relative PE proteomic profiles from different types of PEs would accelerate discovery of potential PE biomarkers specifically used to diagnose pulmonary disorders. Using quantitative proteomic approaches, we identified 772 nonredundant proteins from six types of exudative PEs, including three malignant PEs (MPE, from lung, breast, and gastric cancers), one lung cancer paramalignant PE, and two benign diseases (tuberculosis and pneumonia). Spectral counting was utilized to semiquantify PE protein levels. Principal component analysis, hierarchical clustering, and Gene Ontology of cellular process analyses revealed differential levels and functional profiling of proteins in each type of PE. We identified 30 candidate proteins with twofold higher levels (q<0.05) in lung cancer MPEs than in the two benign PEs. Three potential markers, MET, DPP4, and PTPRF, were further verified by ELISA using 345 PE samples. The protein levels of these potential biomarkers were significantly higher in lung cancer MPE than in benign diseases or lung cancer paramalignant PE. The area under the receiver-operator characteristic curve for three combined biomarkers in discriminating lung cancer MPE from benign diseases was 0.903. We also observed that the PE protein levels were more clearly discriminated in effusions in which the cytological examination was positive and that they would be useful in rescuing the false negative of cytological examination in diagnosis of nonsmall cell lung cancer-MPE. Western blotting analysis further demonstrated that MET overexpression in lung cancer cells would contribute to the elevation of soluble MET in MPE. Our results collectively demonstrate the utility of label-free quantitative proteomic approaches in establishing differential PE proteomes and provide a new database of proteins that can be used to facilitate identification of pulmonary disorder-related biomarkers.The lungs are covered by parietal and visceral pleural membranes, including a small amount of fluid (10–20 ml) in the pleural cavity that helps the lungs expand and contract smoothly. Pleural effusions (PE)¹, an accumulation of pleural fluid, contain proteins originating from the plasma filtrate and are released by inflammatory or epithelial cells. PE is triggered by a variety of etiologies, including malignancies and benign diseases such as pneumonia (PN), tuberculosis (TB), pulmonary embolism, heart failure, renal dysfunction, and autoimmune disease (1). Based on their biochemical characteristics, PEs are classified as transudative or exudative; determination of the PE type is a crucial step in the differential diagnosis and management of PEs. Transudative effusions, generally caused by systemic diseases, can be effectively distinguished from exudative PEs using the established modified Light''s criteria (2, 3). However, further discrimination among different exudate types such as malignant and nonmalignant effusions (e.g. paramalignancies or acute and chronic inflammatory diseases) is sometimes diagnostically challenging because of similar biochemical and/or cellular profiles. For example, neutrophil-rich fluid is generally observed in patients with bacterial PN whereas lymphocytic effusions are generally observed in cancer or chronic inflammatory diseases such as TB (4).PEs caused by cancer are generally divided into two categories, malignant (MPE) and paramalignant (PMPE). MPEs result when cancer cells metastasize to the pleural cavity (stage IV), wherein exfoliated malignant cells are observed in pleural fluid by cytological examination or detected in percutaneous pleural biopsy, thoracoscopy, thoracotomy, or at autopsy (5). PMPE occurs in cancer patients with no evidence of tumor invasion in the pleural space and may be caused by airway obstruction with lung collapse, lymphatic obstruction, or the systemic effects of cancer treatment (5). A high percentage of MPEs (>75%) arise from lung, breast, and ovarian cancer or lymphoma/leukemia. Lung cancer is a major etiology underlying MPE (6); however, only ∼40–87% patients with MPE can be accurately diagnosed upon initial examination (7). Inaccurate diagnosis of MPE and PMPE underestimates or overestimates the disease stage and leads to inappropriate therapy. Thus, it is important to identify a specific and powerful biomarker to distinguish MPE from benign diseases and PMPE.Notably, tumor-proximal body fluids are promising sources for biomarker discovery because they represent a reservoir of in vivo tumor-secreted proteins without a large dynamic range or complexity of plasma or serum (8). Tumor-proximal fluids include PEs, nipple aspirate, stool, saliva, lavage, and ascites fluid. Previously, we utilized the powerful analytical capability of high-abundance protein depletion followed by one-dimensional SDS-PAGE combined with nano-LC-MS/MS (GeLC-MS/MS) for biomarker discovery to generate a comprehensive MPE proteome data set from 13 pooled nonsmall cell lung cancer (NSCLC) patients (9). Because a variety of pathological conditions can lead to exudative effusions, generating different PE proteomic profiles would accelerate discovery of potential PE biomarkers that can be used to discriminate between malignant and nonmalignant pulmonary disorders. The aim of this study is to establish differential PE proteomes from six types of exudative PEs, including three MPEs (from NSCLC, breast, and gastric cancers), one PMPE from NSCLC, and two benign diseases (TB and PN), using a label-free semiquantitative proteomics approach. Our results were verified by clinical validation of three potential biomarkers using an enzyme-linked immunosorbent assay (ELISA; Fig. 1).Open in a separate windowFig. 1.Biomarker discovery strategy for identifying differentially expressed proteins from six pleural effusion (PE) types. The strategy comprised prefractionation by removal of high-abundance proteins, GeLC-MS/MS, comparative analysis of the six PE proteomes based on spectral counts, proteome clustering, functional classification of differentially expressed proteins, and selection and validation of biomarker candidates by ELISA.     

Cell origins and diagnostic accuracy of interleukin 27 in pleural effusions

The objective of the present study was to investigate the presence of interleukin (IL)-27 in pleural effusions and to evaluate the diagnostic significance of pleural IL-27. The concentrations of IL-27 were determined in pleural fluids and sera from 68 patients with tuberculous pleural effusion, 63 malignant pleural effusion, 22 infectious pleural effusion, and 21 transudative pleural effusion. Flow cytometry was used to identify which pleural cell types expressed IL-27. It was found that the concentrations of pleural IL-27 in tuberculous group were significantly higher than those in malignant, infectious, and transudative groups, respectively. Pleural CD4(+) T cells, CD8(+) T cells, NK cells, NKT cells, B cells, monocytes, macrophages, and mesothelial cells might be the cell sources for IL-27. IL-27 levels could be used for diagnostic purpose for tuberculous pleural effusion, with the cut off value of 1,007 ng/L, IL-27 had a sensitivity of 92.7% and specificity of 99.1% for differential diagnosing tuberculous pleural effusion from non-tuberculous pleural effusions. Therefore, compared to non-tuberculous pleural effusions, IL-27 appeared to be increased in tuberculous pleural effusion. IL-27 in pleural fluid is a sensitive and specific biomarker for the differential diagnosing tuberculous pleural effusion from pleural effusions with the other causes.     

Diagnostic interest of the monoclonal antibody CA1 in malignant pleural effusion

The Ca1 antibody was used in an immunohistochemical procedure on smears of cells from 40 patients with malignant pleural effusion. The control group consisted of 25 benign pleural effusions with a high percentage of reactive mesothelial cells. The Ca1 Mc Ab was positive in 19 (79%) of the 24 pleural effusions with positive malignant cytology. In all the benign cases the Ca1 Mc Ab was negative (100% specificity). The Ca1 Mc Ab detected malignant mesothelial cells in two cases and was negative with reactive mesothelial cells and other nucleated cells present in the pleural effusion. We conclude that the Ca1 antibody offers a useful diagnostic method for malignant pleural effusions, when the morphological interpretation is doubtful.     

ACE/ACE2 Ratio and MMP-9 Activity as Potential Biomarkers in Tuberculous Pleural Effusions

Objective: Pleural effusion is common problem, but the rapid and reliable diagnosis for specific pathogenic effusions are lacking. This study aimed to identify the diagnosis based on clinical variables to differentiate pleural tuberculous exudates from other pleural effusions. We also investigated the role of renin-angiotensin system (RAS) and matrix metalloproteinase (MMPs) in the pathogenesis of pleural exudates.Experimental design: The major components in RAS and extracellular matrix metabolism, including angiotensin converting enzyme (ACE), ACE2, MMP-2 and MMP-9 activities, were measured and compared in the patients with transudative (n = 45) and exudative (n = 80) effusions. The exudative effusions were come from the patients with tuberculosis (n = 20), pneumonia (n = 32), and adenocarcinoma (n = 28).Results: Increased ACE and equivalent ACE2 activities, resulting in a significantly increased ACE/ACE2 ratio in exudates, were detected compared to these values in transudates. MMP-9 activity in exudates was significantly higher than that in transudates. The significant correlation between ACE and ACE2 activity that was found in transudates was not found in exudates. Advanced analyses showed significantly increased ACE and MMP-9 activities, and decreased ACE2 activity in tuberculous pleural effusions compared with those in pneumonia and adenocarcinoma effusions. The results indicate that increased ACE and MMP-9 activities found in the exudates were mainly contributed from a higher level of both enzyme activities in the tuberculous pleural effusions.Conclusion: Interplay between ACE and ACE2, essential functions in the RAS, and abnormal regulation of MMP-9 probably play a pivotal role in the development of exudative effusions. Moreover, the ACE/ACE2 ratio combined with MMP-9 activity in pleural fluid may be potential biomarkers for diagnosing tuberculous pleurisy.     

血清和胸水中CA125在结核性和癌性胸水中的表达及临床意义

目的:探讨血清和胸水中CA125在结核性和癌性胸水中的表达及鉴别诊断意义。方法:抽选我院确诊的结核性胸水病人85例(结核组)和癌性胸水病人71例(癌症组),检测两组患者血清和胸水中CA125表达,并以胸水/血清中CA125比值10(p-CA125/s-CA12510)为临界值,观察其对癌性胸水的鉴别特异度、灵敏度及准确性。结果:癌症组胸水中CA125表达及p-CA125/s-CA125比值均显著高于结核组(P0.05);但血清中两组CA125表达比较差异无显著性(P0.05);两组胸水中,以35U/ml为临界值,两组患者阳性率92.9%(79/85)、100%(71/71)比较差异无显著性(X2=7.0718,P=0.0078)。癌症组中p-CA125/sCA125比值10的比率(84.5%VS 17.6%)明显高于结核组(X2=66.6244,P=0.0000);并以其为诊断癌性胸水的临界值,鉴别诊断特异度、灵敏度及准确性分别为82.3%、84.5%、83.3%。结论:血清和胸水中CA125表达对于鉴别结核性或者是癌性胸水的临床意义不大,但是p-CA125/s-CA125比值对于鉴别结核性和癌性胸水具有一定临床价值。