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E Leucci,
M Cocco,
A Onnis,
G De Falco,
P van Cleef,
C Bellan,
A van Rijk,
J Nyagol,
B Byakika,
S Lazzi,
P Tosi, H van Krieken,
L Leoncini
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ABSTRACT: The molecular feature of Burkitt lymphoma (BL) is the translocation that places c-Myc under the control of immunoglobulin gene regulatory elements. However, there is accumulating evidence that some cases may lack an identifiable MYC translocation. In addition, during the EUROFISH project, aiming at the standardization of FISH procedures in lymphoma diagnosis, we found that five cases out of 35 classic endemic BLs were negative for MYC translocations by using a split-signal as well as a dual-fusion probe. Here we investigated the expression pattern of miRNAs predicted to target c-Myc, in BL cases, to clarify whether alternative pathogenetic mechanisms may be responsible for lymphomagenesis in cases lacking the MYC translocation. miRNAs are a class of small RNAs that are able to regulate gene expression at the post-transcriptional level. Several studies have reported their involvement in cancer and their association with fragile sites in the genome. They have also been shown to control cell growth, differentiation, and apoptosis, suggesting that these molecules could act as tumour suppressors or oncogenes. Our results demonstrated a modulation of specific miRNAs. In particular, down-regulation of hsa-let-7c was observed in BL cases, compared to normal controls. More interestingly, hsa-mir-34b was found to be down-regulated only in BL cases that were negative for MYC translocation, suggesting that this event might be responsible for c-Myc deregulation in such cases. This hypothesis was further confirmed by our in vitro experiments, which demonstrated that increasing doses of synthetic hsa-mir-34b were able to modulate c-Myc expression. These results indicate for the first time that hsa-mir-34b may influence c-Myc expression in Burkitt lymphoma as the more common aberrant control exercised by the immunoglobulin enhancer locus.
The Journal of Pathology 08/2008; 216(4):440-50. · 6.32 Impact Factor
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ABSTRACT: Uterine cervix represents a convenient model for the study of the gradual transformation of normal squamous epithelium via low- to high-grade squamous intraepithelial lesions (SILs). Because SIL, on the basis of the cytokeratins expressed, are thought to originate from the reserve cells, we analyzed whether SILs also show a reserve cell phenotype with respect to intercellular interactions. The changes in expression and subcellular localization of the components of the adherens junction and desmosomal complexes were investigated in normal, metaplastic, and premalignant cervical epithelium, as well as in cell cultures derived from these tissues. The results suggest that 1) during progression of SILs, E-cadherin is suppressed, with its role in cell-cell connections diminishing; 2) P-cadherin, in contrast, becomes the predominant cadherin in high-grade SILs; 3) the level of cellular alpha-catenin is dramatically decreased in high-grade SILs; 4) the level of beta-catenin is decreased during progression of SILs, with plakoglobin suggestively becoming the predominant catenin mediating connection of cadherins to the cytoskeleton; 5) the assembly of desmosomes is affected during progression of SILs and is accompanied by a dramatically decreased expression for desmogleins and desmoplakins (I, II); and 6) expression of differentiation markers (involucrin, CK13) in high-grade SILs seems to be controlled by P-cadherin as opposed to E-cadherin in the normal tissue counterpart. We conclude that during development of cervical lesions substantial (both quantitative and qualitative) changes occur in cell-cell junctions, making the interactions of cells in lesions dissimilar from those of reserve cells, basal cells, or cells of immature squamous metaplasia, despite existing morphological similarity between all of these cell types and cells of high-grade lesions.
American Journal Of Pathology 09/1999; 155(2):505-15. · 4.89 Impact Factor
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ABSTRACT: Ep-CAM, an epithelial adhesion molecule, is absent in normal squamous epithelia but can be detected in some squamous carcinomas. Using a panel of monoclonal antibodies to keratinocyte differentiation and proliferation markers, we investigated the association of EP-CAM expression with differentiation-related and/or neoplastic changes in cervical epithelium. Normal endocervical glandular epithelium (Both columnar and reserve cells) appeared strongly positive for EP-CAM, whereas ectocervical squamous epithelial cells did not express this molecule. Expression of Ep-CAM (in basal cells) was sometimes observed in morphologically normal ectocervical tissue but only in areas bordering cervical intraepithelial neoplasia (CIN) lesions. At the early stages of neoplasia the expression of Ep-CAM was regularly present in squamous epithelium, in general consistent with the areas of atypical, undifferentiated cells. Thus, in CIN grades I and II, the basal/suprabasal layers of the epithelia were positive, whereas in CIN grade III lesions, up to 100% of the cells over the whole thickness of the epithelium sometimes excluding the very upper layers, expressed Ep-CAM. A clear increase, not only in number of positive cells but also in levels of Ep-CAM expression (intensity) was observed during progression from CIN I to CIN III. Expression of Ep-CAM in ectocervical lesions did not coincide with a reappearance of the simple epithelium cytokeratins (CK8 and CK18). On the other hand, expression of Ep-CAM in atypical cells of CIN lesions correlated with the disappearance of CK13, which normally marks cells undergoing squamous differentiation. As was shown with Ki-67, a marker for proliferating cell populations, the areas of Ep-CAM expression were also the areas of enhanced proliferation. Cells expressing Ep-CAM did not express involucrin, a marker for cells committed to terminal differentiation. In the majority of both squamous and adenocarcinomas of the cervix a strong expression of Ep-CAM was observed, although some decrease in the expression (both the intensity and the number of positive cells), as compared with CIN III lesions, was observed in the areas of squamous differentiation. This study demonstrates that the expression of Ep-CAM in cervical squamous epithelium is associated with abnormal proliferation of cell populations that are not committed to terminal differentiation.
American Journal Of Pathology 04/1996; 148(3):865-75. · 4.89 Impact Factor
