Maspin, SCCA1/2 and hurpin were identified by cDNA microarray analyses as dramatically differentially expressed transcripts in primary non-small cell lung cancer (NSCLC). These sequences are located within a 10-gene serpin cluster on 18q21.3. Using comparative RT-PCR, we have investigated the expression of each of these serpins, including their flanking loci, in an independent NSCLC series. Whereas six of the genes (maspin, SCCA1, SCCA2, hurpin, megsin and pAI-2) were commonly differentially expressed in primary lesions, each significantly more often in squamous cell tumours, maspin was identified as the most frequently overrepresented sequence in both squamous cell carcinoma and adenocarcinoma. Using a well-characterized monoclonal antibody, we have shown strong maspin expression in tumour protein extracts, detected multiple isoforms of the 42 kDa protein and shown that maspin is localized specifically to the tumour cells within neoplastic lesions. In contrast, most cells in non-neoplastic lung tissue appear not to express the gene, with the exception of the multipotent basal epithelial cells that line the bronchial airway. These reserve cells generally show strong predominantly nuclear localization of maspin. Strong nuclear expression of maspin within primary tumour cells is correlated with increased survival (P ¼ 0.05) and a longer remission duration (P ¼ 0.02) in resectable-staged patients. However, within the airways of cancer patients and somewhat in contrast to this observation, such expression was more frequently detected in the superficial cells of preneoplastic over non-neoplastic epithelia (Po0.0001), consistent with a role for the protein in early neoplasia.
Traditionally, classification of leukaemia in dogs has relied on morphological examination and cytochemical staining patterns, but aberrant cellular morphology and stain uptake often curtails accurate categorization, and historical data based on this classification may be unreliable. Immunophenotyping is now the gold standard for classification of leukaemias. The purpose of this prospective study was to assess the clinical pathological and epidemiological features of a population of dogs with morphologically and immunologically confirmed leukaemia and to compare them within categories: acute and chronic lymphoid leukaemia (ALL and CLL), and acute and chronic myeloid leukaemia (AML and CML). There were 64 cases of morphologically and immunologically confirmed leukaemia: 25 cases of ALL, 17 cases of CLL and 22 cases of AML. Prevalence of B and T immunophenotypes in ALL and CLL was not statistically different. Dogs with AML were significantly younger than those with ALL at presentation (P = 0.04). Golden Retriever dogs in the study population were overrepresented in comparison with a control population of dogs (6/25 ALL cases, 8/64 leukaemia cases). No sex was overrepresented. Dogs with ALL had significantly more severe neutropenia (P = 0.001) and thrombocytopenia (P = 0.002) than those with CLL and had significantly more cytopenias. The severity and numbers of cytopenias seen in ALL and AML were not significantly different. Twenty-one of the leukaemia cases showed one cytopenia, fourteen had two cytopenias and twenty-one cases had pancytopenia. Anaemia was the most common cytopenia seen in isolation (17/21). No dogs had neutropenia without anaemia and/or thrombocytopenia. Total white blood cell counts were not different between the groups. The atypical cell counts within the peripheral blood were significantly higher in ALL than AML; both in isolation and as a percentage of the total white blood cell count (P = 0.03). This study strengthens the hypothesis that acute leukaemias give rise to more profound cytopenias, affecting more cell lines, than chronic leukaemias.
Tissue microarrays have been created from 326 lung tumours, including 173 squamous cell carcinomas (SCCs) and 132 adenocarcinomas (ADs). In order to evaluate the usefulness of this microarray series, the expression of p53, p16, and Rb proteins was compared by immunohistochemistry on both the tissue microarrays and the corresponding whole sections for all 326 tumours. The presence of replicate punches improved both the yield and the concordance of data relative to the whole section results, so that the consensus score from the replicates agreed with the whole section result in more than 90% of informative tumours. The large number of tumours in this series also allowed significant differences in protein expression patterns to be detected between SCC and AD, the major subtypes of non-small cell lung carcinoma (NSCLC). SCC had higher levels of p53 staining (67% vs 52% in AD) and substantially increased p16 loss (SCC 75%, AD 53%) combined with greater retention of pRB expression (SCC 86% vs 67% in AD). The strong inverse correlation between p16 and pRB seen in SCC was essentially absent in AD. This study represents the largest single immunohistochemical survey of protein expression for p53, p16, and RB in NSCLCs.
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