1.Effect of Bidouyan Oral Liquid on Granulocyte-macrophage Colony-stimulating Factor Release and Epithelial Cell Proliferation of Nasal Polyps
Yuli ZHANG ; Hongru ZHANG ; Zaiwen HAN ; Qingming LIU
China Pharmacy 2001;0(12):-
OBJECTIVE:To investigate the effect of Bidouyan oral liquid(BOL) on granulocyte-macrophage colony-stimulating factor(GM-CSF) release,ultrastructure changes of eosinophil and epithelial cell proliferation in cultured tissue of nasal polyps METHODS:Nasal polyp tissue was cultured in medium containing different concentrations of BOL The growth of epithelial cells surrounding tissue block and ultrastructure changes of eosinophil in culture tissue were observed The content of GM-CSF in supernate was detected by ELISA RESULTS:In comparison with control,the neogenetic epithelial cells cultured in medium with BOL were fewer in number The contents of GM-CSF were decreased with the increase of the concentrations of BOL with significant differences(P
2.A standard protocol for detection of EGFR mutations in cytologic specimens.
Zheng WANG ; Xiaonan WU ; Yuankai SHI ; Xiaohong HAN ; Gang CHENG ; Lin LI ; Li ZHANG ; Yuhui ZHANG ; Xinlin MU ; Guangqing ZHU ; Zaiwen FAN ; Li YANG ; Jing DI ; Xinrui JIA ; Dongge LIU
Chinese Journal of Oncology 2014;36(7):516-521
OBJECTIVEThe aim of this study was to establish a standard protocol for detection of EGFR mutations in cytologic specimens.
METHODS287 cytologic samples were collected from the patients who were suspected of having lung cancer at six hospitals in Beijing. A detection protocol for EGFR mutations was designed. Two comparative experiments were carried out for the coincidence in EGFR mutation rates between direct sequencing (Seq) and amplification refractory mutation system (ARMS) methods, and between 40 matched cytologic samples with formaldehyde-fixed paraffin embedded (FFPE) cytologic blocks and cytospin slides.
RESULTSTumor cells were found in 236 out of 287 cases (82.2%, 236/287) . Among them, there were 31 cases (13.1%, 31/236) of low tumor cell content samples and 205 cases (86.9%, 205/236) of high tumor cell content samples. 180 cases in the high tumor cell content samples (87.8%, 180/205) were diagnosed to be consistent with NSCLC. 25 out of 194 cases were ruled out or indefinite to be diagnosed as NSCLC by immunohistochemistry. By direct sequencing, the mutation rate of EGFR was 27.8% (50/180) in NSCLC samples and 28.2% (50/177) in adenocarcinoma samples (high tumor content samples) . By ARMS, the mutation rate of EGFR was 45.6% (82/180) in NSCLC samples and 46.3% (82/177) in adenocarcinoma samples (high tumor content samples). The EGFR mutation rate in low tumor content samples was 38.7% (12/31) , there was no significant difference in EGFR mutation rates between the groups of low tumor cell content samples and high tumor cell content samples (P = 0.12). The concordance rate of EGFR mutation rates was 100% between scraping tumor cells from slides samples and from FFEP blocks in the 40 matched samples. Forty-eight out of 180 definitive NSCLC patients received Gefitinib therapy. The FPS was 12 months in the gefitinib-treated ARMS⁺ group and 2 months in the ARMS⁻ group (P < 0.001), and the OS was 19 months in the gefitinib-treated ARMS⁺ group and 7 months in the ARMS⁻ group (P = 0.003), but no significant differences were found in the efficacy (PFS and OS) of Gefitinib between Seq⁺ and Seq⁻ groups (P = 0.227, P = 0.510, respectively), and Seq⁺/ARMS⁺ and Seq⁻/ARMS⁺ groups (P = 0.354, P = 0.334, respectively).
CONCLUSIONSThe detection protocol for EGFR mutations in cytological specimens introduced in this study is tested to be reliable and feasible. Pathological evaluation and immunohistochemistry are important in the detection procedure of EGFR mutations in cytologic specimens. High sensitivity methods should be selected for detection of EGFR mutations in cytologic samples.
Adenocarcinoma ; metabolism ; Carcinoma, Non-Small-Cell Lung ; metabolism ; Humans ; Lung Neoplasms ; diagnosis ; epidemiology ; metabolism ; Mutation ; Mutation Rate ; Polymerase Chain Reaction ; Receptor, Epidermal Growth Factor ; genetics ; metabolism
3.A standardized protocol for detection of ALK protein expression and gene fusion in lung adenocarcinoma cytologic specimens.
Zheng WANG ; Xiaonan WU ; Yuankai SHI ; Xiaohong HAN ; Gang CHENG ; Lin LI ; Xinlin MU ; Yuhui ZHANG ; Di CUI ; Li ZHANG ; Zaiwen FAN ; Guangqing ZHU ; Lingyun MA ; Li YANG ; Jing DI ; Dongge LIU
Chinese Journal of Oncology 2015;37(10):742-748
OBJECTIVEThe aim of this study was to establish a standardized protocol for detection of ALK protein expression and gene fusion in cytologic specimens.
METHODSLung adenocarcinoma cytologic specimens were collected from seven hospitals in Beijing city. A detection protocol for ALK protein expression and gene fusion was designed according to the results of comparative experiment. Ventana immunohistochemical (IHC) ALK(D5F3) detecting ALK protein expression was performed in 203 prepared formalin-fixed paraffin-embedded (FFPE) cell blocks. ALK gene fusion in 98 EGFR gene wild type cytologic specimens and in 4 bronchoalveolar lavage fluid (BL) samples was detected by quantitative reverse transcription polymerase chain reaction (qRT-PCR). ALK gene fusion in the Ventana IHC ALK (D5F3) positive samples was further tested by fluorescence in situ hybridization (FISH). Six patients with ALK IHC-positive result were followed up to analyze the responses of crizotinib therapy. Comparative experiments: (1) Comparison of the results of 4% neutral buffered formalin fixed for different time (24 h, 48 h, 72 h) on the Ventana IHC ALK (D5F3) staining was conducted in two cases of IHC ALK positive FFPE cell blocks; (2) Comparing qRT-PCR results for ALK fusion in samples from FFPE cell blocks and cytospin prepared slides in 10 cases of lung adenocarcinoma cytologic specimens.
RESULTSAmong the specimens examined using the standardized protocol recommended by this study, 229 cases of cytologic specimens met the diagnostic criteria of lung adenocarcinoma. Among them, 207 cases obtained ALK gene test results (by at least one method), with an ALK test ratio of 90.4% (207/229). FFPE cell blocks were successfully prepared in 203 cases, Ventana IHC ALK (D5F3) were successfully performed in all the 203 FFPE cell blocks (100%), and the ALK protein positive detection rate was 10.3% (21/203). ALK fusion was tested in 98 FFPE cytologic samples of EGFR wild types by qRT-PCR, and 96 out of 98 (97.96%) cytologic samples were successfully performed.18 out of 19 IHC ALK-positive cases were verified to be of ALK fusion status by qRT-PCR. The concordance rate was 94.7% (Kappa=0.967, P<0.001) between Ventana IHC ALK (D5F3) and qRT-PCR, and the sensitivity of the Ventana IHC ALK (D5F3) assay compared with qRT-PCR was 100% and the specificity was 98.7%. FISH assay was used to verify the positive cases detected by Ventana IHC ALK (D5F3) staining. Two cases of low tumor cell content FFPE samples obtained indefinite results by FISH test. The six patients with positive ALK protein expression received crizotinib therapy, and 5 paitents got treated effectively. For two ALK IHC positive cases, which were 4% neutral buffered formalin fixed for 72 h, the result of Ventana IHC ALK (D5F3) staining became weakened obviously and uneven. In 10 cases of samples, total RNA was extracted from FFPE cytologic sections and cytospin prepared slides, and the results of qRT-PCR test and ALK gene fusion showed good concordance.
CONCLUSIONSThe standardized protocol recommended in this study expands the detection types and quantity of cytologic specimens for ALK protein expression and gene fusion and increased the detection rate. Ventana IHC ALK (D5F3) is a reliable method for detecting ALK protein expression in FFPE cell blocks. The pathologic quality control procedure prior to Ventana IHC ALK (D5F3) is crucial for the accuracy of testing the ALK gene status. When FFPE cell blocks could not be prepared or prepared unsuccessfully from the cytologic specimens, qRT-PCR may be an alternative option for the detection of ALK gene fusion.
Adenocarcinoma ; drug therapy ; enzymology ; genetics ; pathology ; Alkaline Phosphatase ; genetics ; metabolism ; Gene Fusion ; Genes, erbB-1 ; Humans ; Immunohistochemistry ; In Situ Hybridization, Fluorescence ; Lung Neoplasms ; drug therapy ; enzymology ; genetics ; pathology ; Protein Kinase Inhibitors ; therapeutic use ; Proteomics ; Pyrazoles ; therapeutic use ; Pyridines ; therapeutic use ; Sensitivity and Specificity