Andrzej K. Bednarek

Prognostic Relevance of Basal Cytokeratin Expression in Operable Breast Cancer

Objective: We investigated whether basal cytokeratin (CK5/6 or CK17) expression had an impact on survival in patients with operable breast cancer. Methods: Expression of CK5/6 or CK17 was analyzed by immunohistochemistry in 195 women with breast cancer. Results: In total, 72 (37%) tumor samples were regarded as being positive for CK5/6 or CK17. The basal-like phenotype as defined by basal cytokeratin expression, lack of estrogen receptor (ER) and absence of HER2 overexpression was found in 48 (25%) cases. Positive staining for CK5/6 or CK17 was associated with worse prognosis when compared with patients negative for basal cytokeratins in all cases (5-year cancer-specific survival rate 59.4 vs. 77.5%, p = 0.0273) and in the node-negative group (70.5 vs. 90.8%, p = 0.0208) but not in the node-positive group (43.9 vs. 65.4%, p = 0.1182). To determine the real prognostic value of basal cytokeratins, survival in a group of ER-negative patients was analyzed depending on CK5/6 or CK 17 expression. No influence on survival was observed. The outcome of patients whose cancers were positive for cyclin E regardless of ER status was not changed by CK5/6 or CK17 expression. In multivariate analysis, independent prognostic factors affecting survival in the whole group included: nodal involvement, HER2 status and cyclin E expression. Neither ER status nor basal cytokeratin expression retained statistical significance. Conclusion: We demonstrated that the poor prognosis associated with the basal-like phenotype of breast cancer was determined by ER absence and cyclin E expression and not by CK5/6 or CK17 expression.

WWOX binds the specific proline-rich ligand PPXY: identification of candidate interacting proteins

WWOX, the gene that maps to common chromosomal fragile site FRA16D, is frequently affected by aberrations in multiple types of cancers. WWOX encodes a 46 kDa protein that contains two WW domains and a short-chain oxidoreductase (SDR) domain. We recently demonstrated that ectopic expression of WWOX inhibits xenograft tumor growth of tumorigenic breast cancer cells. Little is known of the biochemical function(s) of WWOX. The SDR domain is predicted to be involved in sex-steroid metabolism and the WW domains are likely involved in protein–protein interactions. In this report, we identify the specific proline-rich ligand for WWOX as PPXY and show that the amino-terminal WW domain is responsible for this interaction. Using the WWOX WW domains as a probe, we screened high-density protein arrays and identified five candidate-binding partners. The binding to one of these candidates, small membrane protein of the lysosome/late endosome (SIMPLE), was further analysed, and we observed that a specific PPSY motif in the SIMPLE amino-acid sequence was required to interact with the amino-terminal WW domain of WWOX. In addition, immunofluorescence staining demonstrated that endogenous WWOX and SIMPLE co-localize to perinuclear compartments of MCF-7 human breast cancer cells. These studies demonstrate that WWOX contains a Group I WW domain that binds known cellular proteins containing the specific ligand PPXY. Identification and characterization of WWOX interacting proteins will lead to an understanding of the biological functions of WWOX in normal and tumor cells.

WWOX, the common chromosomal fragile site, FRA16D, cancer gene

Gross chromosomal rearrangements and aneuploidy are among the most common somatic genomic abnormalities that occur during cancer initiation and progression, in particular in human solid tumor carcinogenesis. The loss of large chromosomal regions as consequence of gross rearrangements (e.g. deletions, monosomies, unbalanced translocations and mitotic recombination) have been traditionally associated with the existence of tumor suppressor genes within the areas affected by the loss of genetic material. The long arm of chromosome 16 was identified as being frequently associated with structural abnormalities in multiple neoplasias, that led us to focus attention on the detailed genetic dissection of this region resulting in the cloning of the putative tumor suppressor gene, WWOX (WW domain containing Oxidoreductase). Interestingly, the WWOX gene resides in the very same region as that of the common chromosomal fragile site 16D (FRA16D). The WWOX gene encodes a protein that contains two WW domains, involved in protein-protein interactions, and a short chain dehydrogenase (SDR) domain, possibly involved in sex-steroid metabolism. We have identified the WWOX WW domain ligand as the PPXY motif confirming the biochemical activity of this domain. WWOX normally resides in the Golgi and we will demonstrate that Golgi localization requires an intact SDR. Inactivation of the WWOX gene during tumorigenesis can occur by homozygous deletions and possibly mutation, however, aberrantly spliced forms of WWOX mRNA have been observed even when one allele is still intact. The aberrantly spliced mRNAs have deletions of the exons that encode the SDR and these WWOX protein isoforms display abnormal intracellular localization to the nucleus possibly functioning as dominant negative inhibitors of full length WWOX. Thus, generation of aberrant transcripts of WWOX may represent a novel mechanism to functionally inactivate WWOX without genomic alteration of the remaining allele. In this article we will review the cloning and identification of WWOX as the target of FRA16D. In addition, we will discuss the possible biochemical functions of WWOX and present evidence that ectopic WWOX expression inhibits tumor growth.

Molecular analysis of WWOX expression correlation with proliferation and apoptosis in glioblastoma multiforme

Glioblastoma multiforme is the most common type of primary brain tumor in adults. WWOX is a tumor suppressor gene involved in carcinogenesis and cancer progression in many different neoplasms. Reduced WWOX expression is associated with more aggressive phenotype and poor patient outcome in several cancers. We investigated alternations of WWOX expression and its correlation with proliferation, apoptosis and signal trafficking in 67 glioblastoma multiforme specimens. Moreover, we examined the level of WWOX LOH and methylation status in WWOX promoter region. Our results suggest that loss of heterozygosity (relatively frequent in glioblastoma multiforme) along with promoter methylation may decrease the expression of this tumor suppressor gene. Our experiment revealed positive correlations between WWOX and Bcl2 and between WWOX and Ki67. We also confirmed that WWOX is positively correlated with ErbB4 signaling pathway in glioblastoma multiforme.

Silencing of Wnt-1 by siRNA induces apoptosis of MCF-7 human breast cancer cells.

Objective: Wnt family of secreted-type glycoproteins plays key role in carcinogenesis and embryogenesis. Signals of Wnts are transduced through seven-transmembrane-type Wnt receptors encoded by Frizzled (Fzd) genes to the beta-catenin - Tcf pathway, the c-Jun-N-terminal kinase (JNK) pathway or the Ca2+-releasing pathway. Aberrant activation of the Wnt/beta-catenin signaling pathway is associated with a variety of human cancers. In human breast cancer, evidence of beta-catenin accumulation implies that the canonical Wnt signaling pathway is active in over 50% of carcinomas.Methods: To examine if Wnt-1 signal is essential for cancer cell survival, we investigated the effect of Wnt-1 gene silencing in triggering of apoptosis in MCF-7 breast cancer cell line. Light microscopy, viability/cytotoxicity tests, flow cytometry, real-time PCR and western blotting were used for evaluation of the morphological features of cell death, percentage of apoptotic cells, Wnt-1 mRNA and protein level.Results: We found that in breast cancer cells overexpressing Wnt-1 siRNA anti-Wnt-1 induced apoptosis and caused changes in downstream proteins levels. Among treated cells there were 71% apoptotic cells in comparison to cells treated with scrambled siRNA (6%) and control cells (6%) after 48h (p

WWOX expression in colorectal cancer—a real-time quantitative RT-PCR study

The WWOX gene is a tumour suppressor gene affected in various types of malignancies. Numerous studies showed either loss or reduction of the WWOX expression in variety of tumours, including breast, ovary, liver, stomach and pancreas. Recent study demonstrated that breast cancer patients exhibiting higher WWOX expression showed significantly longer disease-free survival in contrast to the group with lower relative WWOX level. This work was undertaken to show whether similar phenomena take place in colon tumours and cell lines. To assess the correlation of WWOX gene expression with prognosis and cancer recurrence in 99 colorectal cancer patients, we performed qRT-PCR analysis. We also performed analysis of WWOX promoter methylation status using MethylScreen method and analysis of loss of heterozygosity (LOH) status at two WWOX-related loci, previously shown to be frequently deleted in various types of tumours. A significantly better disease-free survival was observed among patients with tumours exhibiting high level of WWOX (hazard ratio = 0.39; p = 0.0452; Mantel–Cox log-rank test), but in multivariate analysis it was not an independent prognostic factor. We also found that although in colorectal cancer WWOX expression varies among patients and correlates with DFS, the exact mode of decrease in this type of tumour was not found. We failed to find the evidence of LOH in WWOX region, or hypermethylation in promoter regions of this gene. Although we provide the evidence for tumour-suppressive role of WWOX gene expression in colon, we were unable to identify the molecular mechanism responsible for this.

Analysis of the expression of angiotensin II type 1 receptor and VEGF in endometrial adenocarcinoma with different clinicopathological characteristics.

In Poland, endometrial carcinoma takes second place after breast cancer among all cancers in women and is considered the most common genital cancer. It has been repeatedly reported that angiotensin is involved in the development and invasion of some cancers including breast, ovarian, and pancreatic ones. It is suggested that angiotensin two and its receptors are actively involved in tumour biology in endometrial adenocarcinoma. In the present study, we identify a possible relationship between the expression of AT1-R, AT2-R, ERα, and VEGF and clinicopathological characteristics of primary endometrial adenocarcinoma. We determined the above components both at the mRNA (real-time RT-PCR) and protein levels (Western Blot assay). Our results indicate that in patients with grade G3 adenocarcinoma, the expression of AT1-R significantly decreased in comparison with G1 patients (p = 0.034), but the level of ERα was the highest in G2 and the lowest in G3. Moreover, the level of VEGF mRNA significantly increased between G2 and G3 (p = 0.034). We also noted a significant correlation between the expression of AT1-R and AT2-R in FIGO stage 1 (Rs = 0.9636; p = 0.0001) and that of AT2-R and VEGF (Rs = 0.5377; p = 0.005). In grade G1 and G2 carcinoma, a significant correlation was also found between the expression of AT1-R and AT2-R (Rs = 0.9924; p = 0.0001; Rs = 0.8717, p = 0.0005, respectively), but in grade G1, a negative correlation was observed between AT1-R and VEGF (Rs = −0.8945, p = 0.0005). Further studies are required to clarify the biological function of the angiotensin receptor in regulating VEGF expression in endometrial carcinoma.

Richter syndrome first manifesting as cutaneous B‐cell lymphoma clonally distinct from primary B‐cell chronic lymphocytic leukaemia

Richter syndrome (RS) is a transformation to high‐grade non‐Hodgkin lymphoma in patients with chronic lymphocytic leukaemia (CLL). RS may develop in lymph nodes or rarely extranodally. Skin localization of RS has been described in only a few cases. We present a 77‐year‐old woman who developed isolated diffuse large B‐cell lymphoma (LBCL) in the skin of the nose without any other symptoms of RS. The LBCL in the skin was clonally distinct from the original bone marrow CLL cells. Moreover, LBCL cells were positive for LMP‐1 segment of Epstein–Barr virus and overexpressed p53 protein. The patient was successfully treated with CHOP (cyclophosphamide, doxorubicin, vincristine and prednisone) and adjuvant local radiotherapy.

Constitutive telomerase activity in cells with tissue-renewing potential from estrogen-regulated rat tissues

To investigate the role of telomerase in estrogen-regulated rodent tissues, we assayed the activity levels of this enzyme and measured cell proliferation and indicators of cellularity in vagina, mammary gland, and uterus from virgin, pregnant, ovariectomized, and ovariectomized estradiol-treated rats. No association was observed between telomerase activity and increased cell proliferation. Telomerase activity was significantly higher (P=0.003) in vagina obtained from ovariectomized rats (very low proliferation) than in vagina from ovariectomized and estradiol-treated rats (high proliferation, high differentiation). The high telomerase levels observed in vagina from ovariectomized rats indicates that the same epithelial compartment (i.e., basal layer) that has the potential to reconstitute the epithelium also contains the cells that express telomerase. The lower telomerase activity in the keratinized (differentiated) vagina was probably due to dilution of the number of telomerase-producing cells by the terminally differentiated non-telomerase-producing cells. Similar results were observed in uterus from ovariectomized versus ovariectomized and estradiol-treated rats. Telomerase activity was highest in uterus from pregnant rats. Telomerase levels in samples from total mammary gland fat pads varied considerably between groups and appeared to be representative of the amount of epithelium present in the sample. Interestingly, when mammary gland samples from the same animals were obtained from pure epithelial organoid preparations, no differences in telomerase activity could be distinguished between animals or groups. Overall these data suggest that telomerase activity, particularly in rat vagina and uterus, appears to be associated with a cell subpopulation showing proliferative and tissue reconstitution potential and not directly associated with proliferation status per se.

Central Nervous System and Peripheral Expression of CCL19, CCL21 and Their Receptor CCR7 in Experimental Model of Multiple Sclerosis.

It is well documented that inflammatory chemokines play a significant role in the development of multiple sclerosis (MS) and its model, experimental autoimmune encephalomyelitis (EAE). Recently, the involvement of homeostatic (or lymphoid) chemokines in the pathogenesis of autoimmune diseases has become an object of intensive study. In this work, quantitative analysis of CCL19, CCL21 and CCR7 expression in the central nervous system (CNS), as well as in inflammatory mononuclear cells isolated from several organs during the first attack, remission and the second attack of chronic-relapsing EAE (ChREAE), was performed. Using real-time PCR, RNAse Protection Assay and immunohistochemistry, the expression of both chemokines, as well as of their common receptor CCR7, was analyzed in the brain, spleen, lymph nodes and peripheral blood mononuclear cells. Increased expression of CCL19 and CCL21 was observed mostly in mononuclear inflammatory cells isolated from the CNS during active ChREAE. At the same time the expression of CCR7 in blood mononuclear leukocytes was reduced. This observation extends our current knowledge about the possible role of chemokines CCL19, CCL21 and their receptor CCR7 in the pathogenesis of ChREAE and, by extension, MS.