[Intramuscular myxoma of the lower leg]. / Intramuskuläres Myxom des Unterschenkels.

The intramuscular myxoma is a rare benign soft tissue tumor characterized by bland spindle-shaped and stellate cells embedded in hypovascular myxoid stroma. We report the isolated case of a 44-year-old female patient with an intramuscular myxoma in the anterior tibial muscle and report the clinical and radiographic findings. We performed an analysis of the GNAS gene mutation status with a positive finding. In difficult cases, recurrent tumors or small biopsies detection of a GNAS mutation can be useful to confirm the diagnosis of an intramuscular myxoma.

Gene amplification in ductal carcinoma in situ of the breast.

Multiple different biologically and clinically relevant genes are often amplified in invasive breast cancer, including HER2, ESR1, CCND1, and MYC. So far, little is known about their role in tumor progression. To investigate their significance for tumor invasion, we compared pure ductal carcinoma in situ (DCIS) and DCIS associated with invasive cancer with regard to the amplification of these genes. Fluorescence in situ hybridization (FISH) was performed on a tissue microarray containing samples from 130 pure DCIS and 159 DCIS associated with invasive breast cancer. Of the latter patients, we analyzed the intraductal and invasive components separately. In addition, lymph node metastases of 23 patients with invasive carcinoma were included. Amplification rates of pure DCIS and DCIS associated with invasive cancer did not differ significantly (pure DCIS vs. DCIS associated with invasive cancer: HER2 22.7 vs. 24.2%, ESR1 19.0 vs. 24.1%, CCND1 10.0 vs. 14.8%, MYC 11.8 vs. 6.5%; P > 0.05). Furthermore, we observed a high concordance of the amplification status for all genes if in situ and invasive carcinoma of individual patients were compared. This applied also to the corresponding lymph node metastases. Our results indicate no significant differences between the gene amplification status of DCIS and invasive breast cancer concerning HER2, ESR1, CCND1, and MYC. Therefore, our data suggest an early role of all analyzed gene amplifications in breast cancer development but not in the initiation of invasive tumor growth.

Identification of the p53 family-responsive element in the promoter region of the tumor suppressor gene hypermethylated in cancer 1.

The tumor suppressor gene hypermethylated in cancer 1 (HIC1), located on human chromosome 17p13.3, is frequently silenced in cancer by epigenetic mechanisms. Hypermethylated in cancer 1 belongs to the bric à brac/poxviruses and zinc-finger family of transcription factors and acts by repressing target gene expression. It has been shown that enforced p53 expression leads to increased HIC1 mRNA, and recent data suggest that p53 and Hic1 cooperate in tumorigenesis. In order to elucidate the regulation of HIC1 expression, we have analysed the HIC1 promoter region for p53-dependent induction of gene expression. Using progressively truncated luciferase reporter gene constructs, we have identified a p53-responsive element (PRE) 500 bp upstream of the TATA-box containing promoter P0 of HIC1, which is sequence specifically bound by p53 in vitro as assessed by electrophoretic mobility shift assays. We demonstrate that this HIC1 p53-responsive element (HIC1.PRE) is necessary and sufficient to mediate induction of transcription by p53. This result is supported by the observation that abolishing endogenous wild-type p53 function prevents HIC1 mRNA induction in response to UV-induced DNA damage. Other members of the p53 family, notably TAp73beta and DeltaNp63alpha, can also act through this HIC1.PRE to induce transcription of HIC1, and finally, hypermethylation of the HIC1 promoter attenuates inducibility by p53.

Human delta Np73 regulates a dominant negative feedback loop for TAp73 and p53.

Inactivation of the tumour suppressor p53 is the most common defect in cancer cells. p53 is a sequence specific transcription factor that is activated in response to various forms of genotoxic stress to induce cell cycle arrest and apoptosis. Induction of p53 is subjected to complex and strict control through several pathways, as it will often determine cellular fate. The p73 protein shares strong structural and functional similarities with p53 such as the potential to activate p53 responsive genes and the ability to induce apoptosis. In addition to alternative splicing at the carboxyl terminus which yields several p73 isoforms, a p73 variant lacking the N-terminal transactivation domain (Delta Np73) was described in mice. In this study, we report the cloning and characterisation of the human Delta Np73 isoforms, their regulation by p53 and their possible role in carcinogenesis. As in mice, human Delta Np73 lacks the transactivation domain and starts with an alternative exon (exon 3'). Its expression is driven by a second promoter located in a genomic region upstream of this exon, supporting the idea of two independently regulated proteins, derived from the same gene. As anticipated, Delta Np73 is capable of regulating TAp73 and p53 function since it is able to block their transactivation activity and their ability to induce apoptosis. Interestingly, expression of the Delta Np73 is strongly up-regulated by the TA isoforms and by p53, thus creating a feedback loop that tightly regulates the function of TAp73 and more importantly of p53. The regulation of Delta Np73 is exerted through a p53 responsive element located on the Delta N promoter. Expression of Delta Np73 not only regulates the function of p53 and TAp73 but also shuts off its own expression, once again finely regulating the whole system. Our data also suggest that increased expression of Delta Np73, functionally inactivating p53, could be involved in tumorogenesis. An extensive analysis of the expression pattern of Delta Np73 in primary tumours would clarify this issue.

Overexpression of the p73 gene is a novel finding in high-risk B-cell chronic lymphocytic leukemia.

The p73 protein shares structural and functional similarities with the tumour-suppressor p53, but its role in neoplastic transformation is unknown. Alternative splicing leads to the expression of at least nine p73 C-terminal mRNA splice variants (alpha, beta, gamma, delta, epsilon, zeta, eta, eta1, theta). In this survey, we analyse the expression of p73 by real-time quantitative RT-PCR, its known C-terminal variants with an RT-PCR-Southern technique and by Western blot in samples of 51 patients with B-CLL, normal B lymphocytes from eight individuals, and five haematopoetic cell lines. p73alpha protein expression positively correlated with higher risk B-CLL stages (P = 0.046). Total p73 mRNA expression was higher (P = 0.01) and p73alpha protein more frequently detected (P = 0.008) in B-CLL compared with normal CD19+-B-lymphocytes. p73 C-terminal mRNA variants were expressed both in B-CLL and in normal B-lymphocytes, but their expression was biased since the gamma (P = 0.041), the theta (P < 0.001), and the eta variant (P = 0.033) prevailed in normal B-lymphocytes. In summary, we conclude that the accumulation of p73, the expression pattern of particular p73 variants and its link to progression may play a distinct role in the molecular pathology B-CLL.

Enhanced p73 expression during differentiation and complex p73 isoforms in myeloid leukemia.

The p53 homologue p73 is expressed in at least six different isoforms (alpha, beta, gamma, delta, epsilon, and zeta), but unlike p53 it has rarely been found mutated in human cancers. However, altered expression of this gene has been reported in cancer cells. In order to understand if p73 is involved in normal and malignant development of myeloid cells, we investigated the expression pattern of the different p73 isoforms in progenitor and mature normal myeloid cells as well as in cells derived from acute and chronic myeloid leukemias. The results show that expression of p73 is markedly enhanced during differentiation of myeloid leukemic cells and that leukemic blasts from patients show an increased expression of the shorter p73 isoforms (gamma, delta, epsilon, zeta). In particular the epsilon isoform is only expressed in leukemic cells and completely absent in mature myeloid cells. Altogether our data suggest that p73 is involved in myeloid differentiation and its altered expression is involved in leukemic degeneration.

Differential expression of p73 splice variants and protein in benign and malignant ovarian tumours.

The p73 gene encodes a protein with substantial structural and functional similarities to the tumour-suppressor p53. Alternative splicing of p73 mRNA leads to expression of 6 known RNA species and proteins (alpha, beta, gamma, delta, epsilon, zeta). We analysed the expression of these splice variants in ovarian adenocarcinoma by RT-PCR followed by detection of amplicons with the Southern technique and by immunoblot in 32 malignant and benign epithelial ovarian tumour specimens and 3 ovarian adenocarcinoma cell lines (A2780, 2008, OVCAR-3). p73alpha mRNA was expressed in all 17 ovarian cancer specimens, and 14 of 17 expressed at least 3 splice variants. In contrast, a different expression pattern was present in the ovarian adenomas: p73alpha was detected in 6 of 12 benign tumours, and only 1 adenoma expressed 3 splice variants. p73 protein was expressed in 9 of 16 ovarian cancer specimens, in all cell lines and in 1 of 3 borderline tumours. In contrast, none of 9 ovarian adenomas expressed detectable amounts of p73 protein. Expression of p73 mRNA and protein was not correlated with FIGO stage and histological grade, but we observed a significant correlation with over-expression of p53 protein. In summary, epithelial ovarian cancers express a more complex p73 isoform pattern and higher levels of p73 mRNA and protein than ovarian adenomas.