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Breast Carcinoma Tissues (breast + carcinoma_tissue)
Selected AbstractsMethod optimisation for peptide profiling of microdissected breast carcinoma tissue by matrix-assisted laser desorption/ionisation-time of flight and matrix-assisted laser desorption/ionisation-time of flight/time of flight-mass spectrometryPROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 10 2005Arzu Umar Abstract Appropriate methods for the analysis of microdissected solid tumour tissues by matrix-assisted laser desorption/ionisation-time of flight-mass spectrometry (MALDI-TOF MS) are not yet well established. Optimisation of sample preparation was performed first on undissected tissue slices, representing ,200,000 cells, which were solubilised either in urea containing buffer, trifluoroethanol/NH4HCO3, 0.1% sodium dodecyl sulphate (SDS) or in 0.1% RapiGest solution, then trypsin digested and analysed by MALDI-TOF MS. Solubilisation in 0.1% SDS resulted in detection of the highest number of sample specific peak signals. Interestingly, there was little overlap in detectable peaks using the different buffers, implying that they can be used complementarily to each other. Additionally, we fractionated tryptic digests on a monolithic high-performance liquid chromatography column. Fractionation of tryptic digest from whole tissue sections resulted in a four-fold increase in the total number of peaks detected. To prove this principle, we used 0.1% SDS to generate peptide patterns from 2000 microdissected tumour and stromal cells from five different breast carcinoma tumours. The tumour and stroma specific peaks could be detected upon comparison of the peptide profiles. Identification of differentially expressed peaks by MALDI-TOF/TOF MS was performed on fractionated tryptic digests derived from a whole tissue slice. In conclusion, we describe a method that is suitable for direct peptide profiling on small amounts of microdissected cells obtained from breast cancer tissues. [source] Geminin predicts adverse clinical outcome in breast cancer by reflecting cell-cycle progressionTHE JOURNAL OF PATHOLOGY, Issue 2 2004Michael A Gonzalez Abstract Geminin inhibits DNA replication by preventing Cdt1 from loading minichromosome maintenance (MCM) proteins onto DNA. The present study has investigated whether the frequency of geminin expression predicts clinical outcome in breast cancer. Immunohistochemistry was used first to examine geminin expression in normal and malignant breast tissue (n = 67). Correlations with cell-cycle parameters, pathological features, and clinical outcome were then determined using an invasive breast carcinoma tissue microarray (n = 165). Breast carcinomas were scanned for mutations (n = 61) and copy number imbalances (n = 241) of the geminin gene. Finally, the cell cycle distribution of geminin in breast cancer cells was investigated in vivo and in vitro. Despite a putative tumour suppressor function, it was found that increased geminin expression is a powerful independent indicator of adverse prognosis in invasive breast cancer. Both poor overall survival (p = 0.0002) and the development of distant metastases (p = 0.005) are predicted by high geminin expression, which performs better in this patient cohort than traditional factors currently used to determine prognosis and appropriate therapy. No mutations or deletions of the geminin gene and no evidence that a high frequency of protein expression is related to gene amplification were found. It is shown that geminin is expressed from S to M phase in breast carcinoma tissue and cell lines, disappearing at the metaphase,anaphase transition. While MCM proteins identify all non-quiescent cells, geminin identifies the sub-fraction that have entered S phase, but not exited mitosis, thereby indicating the rate of cell-cycle progression. It is suggested that this explains its unexpected value as a prognostic marker in breast cancer. Copyright © 2004 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. [source] In situ estrogen production and its regulation in human breast carcinoma: From endocrinology to intracrinologyPATHOLOGY INTERNATIONAL, Issue 11 2009Hironobu Sasano The great majority of breast carcinomas arising in postmenopausal women are estrogen dependent or positive for estrogen receptor (ER) in carcinoma cells despite markedly low plasma or circulating estrogen concentrations. In these patients, biologically active estrogens are locally produced from circulating inactive steroids including adrenal androgens in an intracrine mechanism in the breast cancer tissues and confer estrogenic activities on carcinoma cells. A series of enzymes are involved in this intra-tumoral or in situ production of estrogens in breast carcinoma tissues but aromatase, a member of the cytochrome P450 family, is a key enzyme of estrogen production through conversion from circulating adrenal androgens in estrogen-dependent postmenopausal breast cancer. It then becomes important to identify the sites of this estrogen production. There has been, however, controversy regarding intra-tumoral localization of aromatase in breast carcinoma, especially whether intra-tumoral production of estrogens through aromatase occurs in carcinoma or stromal cells. The enzyme was demonstrated to be expressed in both carcinoma and stromal cells in breast carcinoma tissues on immunohistochemistry with a well-characterized mAb 677 and combined laser capture microdissection/qualitative reverse transcriptase,polymerase chain reaction. Intra-tumoral aromatase in both of these cell types was subsequently demonstrated to be induced by carcinoma,stromal interactions associated with carcinoma invasion in breast tissue. The signals through various nuclear receptors, especially estrogen-related receptor-, in carcinoma cells and liver receptor homologue-1 in adipocytes adjacent to carcinoma invasion, in conjunction with various cytokines and/or growth factors, play pivotal roles in this induction of intra-tumoral aromatase. This increased aromatase subsequently results in increased in situ estrogen concentrations of breast cancer. Aromatase inhibitors are currently established as the gold standard for the treatment for ER-positive breast carcinoma but resistance to the therapy still remains to be solved by other modes of suppression of intra-tumoral estrogen production. [source] Purification and characterization of 66-kDa glycoprotein from human breast carcinomaCANCER SCIENCE, Issue 9 2007Renqing Feng We extracted a 66-kDa glycoprotein (GP-1D8) from breast invasive ductal carcinoma tissues. The monoclonal antibody (mAb) against GP-1D8 was prepared in our laboratory. Western blotting with the purified protein using the mAb demonstrated a single band of 66 kDa. Immunocytochemical and immunohistochemical analysis revealed strong expression of GP-1D8 protein in the cytoplasm of MCF-7 cells and different types of breast carcinoma tissues, but GP-1D8 is absent in normal breast and benign breast tumor tissues. Glycosylation analysis showed GP-1D8 contained methylated salic acid. GP-1D8 was identified using mass-spectrometric techniques and N -terminal sequencing. These data were used to identify the protein through the SWISSPROT protein sequence database and BLAST homology search. These results showed GP-1D8 had some similarity to human albumin precursor. Co-immunoprecipitation assays of lysate from MCF-7 cells and mass spectrometric analysis revealed the interaction of GP-1D8 with ,-tubulin. This is the first time human breast carcinoma tissues and MCF-7 cells have been shown to express a 66-kDa glycoprotein similar to human albumin precursor. These results might be important in the detection of novel potential biomarkers and may provide insight into the molecular mechanisms of tumorigenesis. (Cancer Sci 2007; 98: 1344,1349) [source] Expression of Multidrug Resistance-related Transporters in Human Breast CarcinomaCANCER SCIENCE, Issue 4 2001Atsuko Kanzaki The expression levels of mRNA for multidrug resistance 1 (MDR1) gene, multidrug resistance protein 1 (MRP1), lung resistance-related protein (LRP) and breast cancer resistance protein (BCRP), which confer multidrug resistance in vitro, were examined in 43 untreated breast carcinoma patients, of whom 38 subsequently received doxorubicin-based chemotherapy after surgery, in order to elucidate the roles of these genes in drug resistance in vivo. The mRNA levels were determined using a semi-quantitative reverse-transcription polymerase chain reaction method in breast carcinoma tissues including at least 80% carcinoma cells. The expression level of BCRP gene was low and did not vary markedly in comparison with that of MDR1, MRP1 or LRP gene. The expressions of MDR1 and MRP1 genes were correlated with each other, but the expression of BCRP or LRP gene did not correlate with that of other genes. These four gene expressions were independent of age, TNM categories and the status of progesterone or estrogen receptor. The expression levels of these four genes were not related to the relapse or prognosis of the 38 patients treated with doxorubicin-based chemotherapy. P-glycoprotein (P-gp)/MDRl, MRP1 and LRP may play more important roles than BCRP in chemotherapy of human breast carcinoma. [source] | ||||||||||