Activation of c-myc gene expression by tumor-derived p53 mutants requires a discrete C-terminal domain

Mutation of the p53 tumor suppressor gene is the most common genetic alteration in human cancer, and tumors that express mutant p53 may be more aggressive and have a worse prognosis than p53-null cancers. Mutant p53 enhances tumorigenicity in the absence of a transdominant negative mechanism, and this tumor-promoting activity correlates with its ability to transactivate reporter genes in transient transfection assays. However, the mechanism by which mutant p53 functions in transactivation and its endogenous cellular targets that promote tumorigenicity are unknown. Here we report that (i) mutant p53 can regulate the expression of the endogenous c-myc gene and is a potent activator of the c-myc promoter; (ii) the region of mutant p53 responsiveness in the c-myc gene has been mapped to the 3' end of exon 1; (iii) the mutant p53 response region is position and orientation dependent and therefore does not function as an enhancer; and (iv) transactivation by mutant p53 requires the C terminus, which is not essential for wild-type p53 transactivation. These data suggest that it may be possible to selectively inhibit mutant p53 gain of function and consequently reduce the tumorigenic potential of cancer cells. A possible mechanism for transactivation of the c-myc gene by mutant p53 is proposed.     

Function and conformation of wild-type p53 protein are influenced by mutations in bovine leukemia virus-induced B-cell lymphosarcoma

The mutations of the p53 gene previously represented one of several genetic changes involved in the development of bovine leukemia virus (BLV)-induced lymphosarcoma, while the effects of these mutations on the function of p53 are unknown. We identified four mutations of p53 gene in BLV-infected cattle with lymphosarcoma and demonstrated clearly the existence of two functionally distinct groups of mutants: (i) the mutant forms with substitutions at codons 241 and 242, which were mapped within an evolutionally conserved region and corresponded to the human "hot-spot" mutations, had completely lost the capacities for transactivation and growth suppression and gained transdominant repression activity in p53-null SAOS-2 cells; and (ii) the mutations at codons 206 and 207 were located outside the evolutionally conserved regions. These mutants partially retained the capacity for transactivation and growth suppression and failed to inhibit the transactivation activity of coexpressed wild-type p53, instead showing an enhancement of this activity. In addition, protein analysis using an antibody specific for the mutant form revealed that the mutations at codons 206 and 242 induced a "mutant" conformation of the bovine p53 proteins. Collectively, these results show that mutations of p53 gene in BLV-infected cattle with lymphosarcoma can potentially alter its physiological function and may play an important role in BLV-induced leukemogenesis.     

Conversion enzyme inhibitors against the progression of renal and vascular diseases: yes but again

p21WAF1/CIP1 is a potent, tight-binding inhibitor of Cdks which is induced by the wild-type p53 gene. We examined p21WAF1/CIP1 mRNA expression in 16 surgically excised human colorectal tumor and nontumor tissues using Northern blot analysis with reference to the identification of p53 gene mutation. p53 gene mutation was detected in six tumor tissues but not in the other 10 using the PCR-SSCP method. The p21WAF1/CIP1 mRNA level was lower in tumor tissues than in the corresponding nontumor tissues. The mean expression level of p21WAF1/CIP1 mRNA was lower in tissues in which the p53 gene mutation was detected than in those in which it was not, although the difference was not significant. The relative p21WAF1/CIP1 mRNA expression level was significantly higher in the tumors with liver metastases than in those without. These results suggest that the p21WAF1/CIP1 mRNA expression level, which might be a indicator of colorectal cancer malignancy, is suppressed in human colorectal tumor tissues compared with the corresponding nontumor tissues and that the wild-type p53 gene is one of the factors inducing p21WAF1/CIP1 mRNA expression.     

Oligomerization of p53 is necessary to inhibit its transcriptional transactivation property at high protein concentration

We have previously shown that transactivation by tumor suppressor protein p53 can be inhibited in vivo at elevated protein concentrations. In this study we characterize the structural requirements of this function. We show that oligomerization domain of p53 is involved in loss of transactivation at high protein concentrations: mutants not able to oligomerize are neither able to suppress transactivation, although these transactivating properties can be untouched.     

Effects of p53 mutants derived from lung carcinomas on the p53-responsive element (p53RE) of the MDM2 gene

The present study represents a continuation of previous works in which we observed that lung carcinomas co-expressing MDM2 protein and p53 mutants (mt p53) exhibited more aggressive behaviour. In the above studies, we suggested a 'gain of function' mechanism of mt p53 proteins based on the fact that the MDM2 gene possesses a p53-responsive element (MDM2-p53RE). In this study, to prove our hypothesis, we selected 12 cases from a series of 51 bronchogenic carcinomas. In these 12 cases, we examined the ability of the expressed mt p53 to bind the MDM2-p53RE and correlated the findings with MDM2 expression. Furthermore, we constructed four of these p53 mutants and studied their transactivation properties by co-transfecting them with a reporter plasmid carrying MDM2-p53RE in the p53 null non-small-cell lung carcinoma cell line (NSCLC) H1299. We observed mutant p53 protein DNA-binding activity, which depended on the nature and the position of the amino acid substitution. The fact that the cases with DNA-binding activity were accompanied with MDM2 protein isoforms' overexpression is indicative of a 'gain of function' phenotype. This hypothesis was enforced by the findings of the transfection experiments, which revealed that certain p53 mutants enhanced the expression of the luciferase reporter gene either directly or indirectly via a dominant positive effect on the wild-type p53. In conclusion, this work is one first attempt to examine if the deregulation of the p53/MDM2 autoregulatory feedback loop is due to novel properties of certain p53 mutants in the specific environment of a subset of bronchogenic carcinomas.     

The proliferation of normal human fibroblasts is dependent upon negative regulation of p53 function by mdm2

Loss of function of the tumour suppressor gene p53 is a key event in most human cancers. Although usually occurring through mutation, in some tumour types this appears to be achieved via an indirect mechanism involving inappropriate expression of a functional inhibitor, mdm2, which binds to the transactivation domain of p53. This interaction offers an ideal potential target for novel cancer therapies. However, therapeutic specificity may depend on the extent to which this p53-inhibitory action of mdm2 is also required by normal cells. Transgenic data have already established that mdm2 is needed to prevent embryonic lethality, but the situation in adult cells is still unclear. Here we show that micro-injection of normal human fibroblasts with an antibody directed against the p53-binding domain of mdm2 induces expression of p53-responsive genes, and furthermore results in p53-dependent growth arrest. We conclude that normal cell proliferation can be dependent on negative regulation of p53 by mdm2, a finding which raises an important note of caution for mdm2-directed cancer therapies.     

Dissociation of novelty- and cocaine-conditioned locomotor activity from cocaine place conditioning

This study investigated a total number of 120 colorectal malignant tumor tissues by applying a new quantitative luminometric assay (LIA)-mat, immunohistochemistry (IHC) (n=100), PCR/SSCP (n=42), and sequencing (n=7). Sera were collected from 235 patients suffering from colorectal carcinoma in addition to 195 healthy individuals as a control group. Manual ELISA kit was developed to detect p53 autoantibodies in the sera of those patients. Our data demonstrated that the LIA-mat yields reliable estimates of p53 expression in soluble cell extracts as compared with results obtained by immunohistochemistry which showed positive immunostaining in 63% of the studied cases. Using a cut-off value of 1.8 ng/mg protein, 65 tumors out of 120 (54%) were classified to be positive by LIA-mat, manifesting protein overexpression, while 22 out of 42 (52%) tumor samples showed p53 gene alteration when applying single strand conformation polymorphism (SSCP) analysis on polymerase chain reaction products. In tumor samples without a p53 gene alteration, the median soluble p53 protein level was 4.3 ng/mg protein, whereas the median p53 protein level for tumor samples with p53 gene alteration was 7.5 times higher. Despite a significant correlation between the outcome of LIA and SSCP, a disagreement was found in 30% of cases. We found no significant correlation between p53 protein overexpression and clinicopathological findings except for distant metastasis (p=0.33), indicating p53 immunoreactivity to be an independent prognostic factor. Our data showed that 18% of patients suffering from colorectal cancer developed autoantibodies against p53 in their sera which might be an early indicator for tumor development and distant metastasis.     

Telomerase activity of sarcoma cell lines and fibroblasts is independent of p53 status

Telomerase activity is necessary for the stabilization of telomeres, which function to overcome cellular senescence and are linked to unlimited cell proliferation. Activation of telomerase is characteristic of immortalized cell lines and most tumors. The p53 gene has been implicated as a crucial barrier to unlimited cell proliferation, and its absence has been shown to allow direct immortalization of cells by certain oncogenes. The p53 gene may have an additional function of signaling cell growth arrest in response to telomere shortening, which occurs with repeated cellular divisions and ultimately threatens chromosomal stability. This prompted us to consider whether the enzyme telomerase, responsible for adding new telomeres to chromosomal ends, may be affected by the p53 status of normal and malignant cells. We investigated whether a relationship between telomerase and p53 could be demonstrated in a human sarcoma cell line containing a missense p53 mutation and several stable transfectants that express the wild-type p53 gene or a temperature-sensitive mutant of p53. All cell lines had readily detectable telomerase activity regardless of p53 status. In addition, murine fibroblast cell strains established from tissues of p53+/+ and p53-/- (p53 knockout) mice expressed telomerase regardless of the p53 status of their tissue of origin. Levels of telomerase subunit mRNA (hEST2) were comparable among cell lines and tissues with different p53 status. These results imply that p53 status is not associated with telomerase activity per se and that activation of telomerase can occur either in cells completely devoid of p53 or in cells that have functional p53.