Extracellular signal-regulated activation of Rap1 fails to interfere in Ras effector signalling.

The small GTPase Rap1 has been implicated in both negative and positive control of Ras-mediated signalling events. We have investigated which extracellular signals can activate Rap1 and whether this activation leads to a modulation of Ras effector signalling, i.e. the activation of ERK and the small GTPase Ral. We found that Rap1 is rapidly activated following stimulation of a large variety of growth factor receptors. These receptors include receptor tyrosine kinases for platelet-derived growth factor (PDGF) and epithelial growth factor (EGF), and G protein-coupled receptors for lysophosphatidic acid (LPA), thrombin and endothelin. At least three distinct pathways may transduce a signal towards Rap1 activation: increase in intracellular calcium, release of diacylglycerol and cAMP synthesis. Surprisingly, activation of endogenous Rap1 fails to affect Ras-dependent ERK activation. In addition, we found that although overexpression of active Rap1 is able to activate the Ral pathway, activation of endogenous Rap1 in fibroblasts does not result in Ral activation. Rap1 also does not negatively influence Ras-mediated Ral activation. We conclude that activation of Rap1 is a common event upon growth factor treatment and that the physiological function of Rap1 is likely to be different from modulation of Ras effector signalling.

Discordance of p53 status in matched primary tumours and metastases in head and neck squamous cell carcinoma patients.

To study the use of p53 as a diagnostic tool in head and neck squamous cell carcinoma (HNSCC), we analysed 15 primary tumours (PT) and matched lymph node metastases (LNM) for overexpression and mutations of p53. The primary goal was to study whether differentiation between primary and metastatic disease through their p53 status would be possible. Immunohistochemistry for p53 protein (antibody BP 53-12-1) was performed. Mutations of the p53 gene were detected by exon-specific amplification of DNA (exons 4-9), followed by exon analysis using denaturing gradient gel electrophoresis (DGGE). Mutant exons were sequenced. p53 overexpression was detected in seven (47%) of the PT and in seven (47%) of the LNM. 6 patients (40%) exhibited p53 protein overexpression in both PT and LNM. 2 patients had a different p53 protein expression in each sample. Mutations in the p53 gene were detected in 6 patients (40%) in the PT and in 7 patients (47%) in the LNM. In 2 patients (13%), the same mutation was found in the PT and in the LNM. 9 patients (60%) had a different mutation in each sample. We conclude that a poor correlation exists between p53 protein overexpression and p53 gene mutation in HNSCC. Also, a poor correlation for both detection techniques exists, when PT and LNM are compared. The p53 status may seem to differ between PT and LNM because of polyclonality in the PT. More sensitive detection techniques could be promising.

The N-terminal region of the adenovirus type 5 E1A proteins can repress expression of cellular genes via two distinct but overlapping domains.

The transforming E1A 12S and E1A 13S proteins of human adenovirus type 5 (Ad5) contain two and three conserved regions, respectively. In the present study, the contribution of sequences in the nonconserved N-terminal region of the E1A proteins to morphological transformation and to down-regulation of a number of mitogen-inducible genes was investigated. As described previously, transformation of NRK cells (an established normal rat kidney cell line) results in denser cell growth and a cuboidal cellular morphology. None of the cells expressing N-terminally mutated E1A proteins, however, show these transformed properties, which suggests an important role for sequences in that domain. The decrease in cyclin D1 levels requires exactly the same sequences. The ability to transform NRK cells and to reduce cyclin D1 levels does not correlate with the presence in the E1A proteins of binding domains for p300, CBP, p107, pRb, cyclin A, or cdk2. In contrast, down-regulation of expression of the JE gene in NRK cells and repression of transcription of the collagenase gene in human HeLa cells does correlate with the presence in the E1A proteins of an intact binding domain for p300 and CBP. The results suggest that the N-terminal domain of the E1A proteins can repress expression of cellular genes by at least two different mechanisms.

The human low affinity immunoglobulin G Fc receptor IIC gene is a result of an unequal crossover event.

We have isolated and characterized three genes coding for hFc gamma RIIA, IIB, and IIC. Each gene spans approximately 15-19 kilobases of DNA and consists of eight exons. Two exons encode the 5'-untranslated region and signal peptides, two exons code for homologous Ig-like extracellular domains, a single exon encodes the transmembrane spanning region, and three exons encode the cytoplasmic domains and 3'-untranslated regions. Analysis of gene structures support the concept that the hFc gamma RIIA and hFc gamma RIIB genes originated via gene duplication and divergence processes. The hFc gamma RIIC gene, however, showed a remarkable homology at its 5' end with the hFc gamma RIIB gene, whereas its 3' region was highly homologous with the hFc gamma RIIA gene, suggesting that the hFc gamma RIIC gene results from an unequal crossover event between the hFc gamma RIIA and IIB genes. This hypothesis was supported by nucleotide sequence analyses of the putative break-point region. The proposed site of recombination was located approximately 300 nucleotides downstream from the sixth (C1) exon. These data provide a unique model for the evolutionary generation of a receptor family with multiple biological functions.