Expression of c-myc and c-fos mRNA in colorectal carcinoma in man

Perturbation of BRD4 protein function by BRD4-NUT protein abrogates cellular differentiation in NUT midline carcinoma

NUT midline carcinoma (NMC) belongs to a class of highly lethal and poorly differentiated epithelial cancers arising mainly in human midline organs. NMC is caused by the chromosome translocation-mediated fusion of the NUT (nuclear protein in testis) gene on chromosome 15 to a few other genes, most frequently the BRD4 gene on chromosome 19. The mechanism by which the BRD4-NUT fusion product blocks NMC cellular differentiation and contributes to oncogenesis remains elusive. In this study, we show that BRD4-NUT and BRD4 colocalize in discrete nuclear foci that are hyperacetylated but transcriptionally inactive. BRD4-NUT recruits histone acetyltransferases to induce histone hyperacetylation in these chromatin foci, which provide docking sites for accumulation of additional BRD4 and associated P-TEFB (positive transcription elongation factor b) complexes in the transcriptionally inactive BRD4-NUT foci. These molecular events lead to repression of a BRD4·P-TEFB downstream target gene c-fos, a component of activator protein 1 (AP-1), that directly regulates epithelial differentiation. Knockdown of BRD4-NUT in NMC cells disperses the transcriptionally inactive chromatin foci and releases the transcriptional activators to stimulate c-fos expression, leading to restoration of cellular differentiation. Our study provides a novel mechanism by which the BRD4-NUT oncogene perturbs BRD4 functions to block cellular differentiation and to contribute to the oncogenic progression in the highly aggressive NMC.

Acute overexpression of Myc in intestinal epithelium recapitulates some but not all the changes elicited by Wnt/beta-catenin pathway activation

The Myc transcription factor is a potent inducer of proliferation and is required for Wnt/beta-catenin signaling in intestinal epithelium. Since deregulation of the Wnt/beta-catenin pathway is a prerequisite for nonhereditary intestinal tumorigenesis, we asked whether activation of Myc recapitulates the tumorigenic changes that are driven by constitutive Wnt/beta-catenin pathway signaling following adenomatous polyposis coli (APC) inactivation. Using mice in which expression of MycER(TAM), a reversibly switchable form of Myc, is expressed transgenically in intestinal epithelium, we define the acute changes that follow Myc activation as well as subsequent deactivation. Myc activation reversibly recapitulates many, but not all, aspects of APC inactivation, including increased proliferation and apoptosis and loss of goblet cells. However, whereas APC inactivation induces redistribution of Paneth cells, direct Myc activation triggers their rapid attrition. Moreover, direct Myc activation engages the ARF/p53/p21(cip1) tumor suppressor pathway, whereas deregulation of Wnt/beta-catenin signaling does not. These observations illustrate key differences in oncogenic impact in intestinal epithelium of direct Myc activation and indirect Myc activation via the Wnt/beta-catenin pathway. Furthermore, the in situ dedifferentiation of mature goblet cells that Myc induces indicates a novel cross talk between the Wnt/beta-catenin and Notch signaling pathways.

Microarray analysis of butyrate regulated genes in colonic epithelial cells

Butyrate is a naturally occurring product of colonic microbial fermentation of dietary carbohydrates that escape hydrolysis in the small intestine. Butyrate plays a significant role in the maintenance of colonic tissue homeostasis by regulating the expression of genes associated with the processes of proliferation, differentiation, and apoptosis. Using microarray analysis, we assessed changes in the expression of 19,400 genes in response to butyrate in a human colonic epithelial cell line. Among these, we have identified 221 potentially butyrate- responsive genes specifically associated with the processes of proliferation, differentiation, and apoptosis. Of these genes, 59 are upregulated and 162 downregulated, in accordance with the known modes of action of butyrate. The changes in the expression levels (up- or downregulation) of many of these genes were found to be opposite to that reported in colon cancer tissue, where the intracellular concentration of butyrate would be reduced due to the decline in expression of the colonic butyrate transporter, MCT1.

Codon 12 and codon 13 mutations at the K-ras gene induce different soft tissue sarcoma types in nude mice

K-ras codon 12 mutation is more oncogenic in in vitro and in vivo experimental systems than K-ras codon 13 mutation. Moreover, human colorectal tumors bearing a codon 12 mutation are more aggressive, invasive, and metastatic than the same tumor types carrying a codon 13 mutation. However, despite the association between specific sarcoma types and codon 12 or codon 13 mutations, the relationship between the position of the mutated codon at ras genes and tumor aggressiveness has not been studied in this tumor type. Here, we used a nude mice model to evaluate the tumorogenic capacity of stable transfectants of NIH3T3 fibroblasts, expressing K-ras mutated at codon 12 (K12) or 13 (K13), and morphologically, functionally, and molecularly compared these tumors. We found histopathological differences between them, K12-derived tumors showing fibrosarcoma-like features, whereas K13-derived tumors resembled malignant fibrous histiocytomas. Moreover, K12 tumors showed shorter latency of appearance, lower apoptotic and mitotic rates, and higher expression of markers for sarcoma aggressiveness (Ki67, p53 and c-myc) than K13 tumors. They also showed differences in the expression or activation of Ras, Ras downstream pathways [c-Jun N-terminal kinase (JNK), MAPK and AKT], and apoptotic [AKT, Bcl-2, Focal adhesion kinase (FAK)] and mitotic (cyclin B1) regulators, which could explain their functional differences. Most remarkably, the significantly diminished apoptotic rate observed in K12-derived tumors was associated with enhanced antiapoptotic signaling through the AKT pathway. These morphological, functional, and molecular differences demonstrate that codon 12 and codon 13 mutations in the K-ras oncogene can induce two different soft tissue sarcoma types in our in vivo model.

Elevated protein expression of cyclin D1 and Fra-1 but decreased expression of c-Myc in human colorectal adenocarcinomas overexpressing beta-catenin

Mutations of the adenomatous polyposis coli tumor suppressor gene, or its downstream target beta-catenin, have been implicated in the initiation of most sporadic human colorectal epithelial neoplasms. These mutations, in turn, lead to aberrant nuclear accumulation of beta-catenin and subsequent activation of the beta-catenin/Tcf transcription factor complex. In vitro studies utilizing cultured human colon cancer cell lines have identified c-myc, cyclin D1 and fra-1 as target genes of beta-catenin/Tcf signaling. In our study, 12 cases of human colorectal adenocarcinomas were examined by Western immunoblotting analysis and immunohistochemical staining to specifically investigate whether the protein expression of these target genes was indeed altered in vivo by beta-catenin dysregulation. The results show that the protein level of beta-catenin was significantly increased in all 12 tumors (3.4 +/- 1.0-fold increase compared to the control normal mucosa by Western immunoblotting, p < 0.05), and this increase was associated with positive nuclear staining by immunohistochemistry in 10 cases. Increased levels of expression of cyclin D1 and Fra-1 proteins were also demonstrated in every tumor (9.0 +/- 2.7 and 3.3 +/- 0.9-fold increases compared to normal mucosa, respectively). Surprisingly, the protein level of c-Myc was significantly decreased in all tumors examined by 49 +/- 19% (p < 0.05), but the c-myc mRNA level was increased in 8 of 12 tumors when compared to that in normal mucosa by RT-PCR. Immunohistochemical staining performed on these carcinomas and additional 27 colorectal carcinomas further demonstrated that the protein expression level of c-Myc and beta-catenin nuclear localization were not correlated. Moreover, 15 of 20 colorectal adenomas exhibited positive nuclear beta-catenin immunostaining, among which 11 also exhibited increased c-Myc protein expression. These data thus support the notion that upregulation of cyclin D1 and Fra-1 in human colorectal adenocarcinomas is driven by abnormally expressed beta-catenin. However, the regulation of c-myc expression in colorectal tumors appears to be more complex. While dysregulated beta-catenin may cause a transcriptional upregulation of the c-myc gene, the c-Myc protein expression appears to be further regulated by a posttranscriptional mechanism(s) during the process of neoplastic progression.

Differential gene expression in colon carcinoma cells and tissues detected with a cDNA array

Expression of selected genes coding for proteins with defined cellular functions was analysed in human cell lines derived from normal colonic mucosa, non-mucinous colonic carcinomas and mucinous colonic carcinomas. Altered expression of 10 genes in colon carcinoma cells was found by using a cDNA array; 6 of these alterations (60%) were confirmed by Northern blotting or semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR). Among these 6 genes, 3 transcription factors as well as the topoisomerase II alpha and the mitosis inhibitor WEE1Hu gene were significantly suppressed in the tumour cell lines. In addition, the gene coding for the cell cycle inhibitor p21 was overexpressed only in cell lines derived from mucinous carcinomas. The significant suppression of the kinase WEE1Hu gene in carcinoma cells of both phenotypes and the tendency of the mucinous phenotype to overexpress p21 protein were confirmed in human colon carcinoma tissues. Our data show that the cDNA array method permits a correct identification of changes in gene expression with a relatively high accuracy. The different expression of the p21 gene in the non-mucinous and mucinous carcinoma cells supports the hypothesis that these phenotypes may develop along different genetic pathways. The detection of WEE1Hu gene suppression in colon carcinoma cells and tissues suggests its potential role in tumourigenesis.

Inhibition of development of N,N'-dimethylhydrazine-induced rat colonic aberrant crypt foci by pre, post and simultaneous treatments with 24R,25-dihydroxyvitamin D3

It has recently been reported that new vitamin D3 derivatives can exert inhibitory effects on colon carcinogenesis in rats. In the present study the chemopreventive potential of 24R,25-dihydroxyvitamin D3 (24R,25(OH)2vitamin D3) was assessed in a murine model of colon carcinogenesis. In experiment 1, male 6-week-old F344 rats were administered N,N'-dimethylhydrazine (DMH) 20 mg/kg s.c. once a week 4 times. The rats were fed 24R,25(OH)2vitamin D3 at 10 ppm in the diet prior to (pre), together with (simultaneous) or after (post) DMH treatment. Modifying effects were assessed using aberrant crypt foci (ACF), putative preneoplastic lesions, as the end point markers in this model of colon carcinogenesis. After 8 weeks, pre and more markedly simultaneous administration of 24R,25(OH)2vitamin D3 was found to have reduced the total numbers of ACF and significantly inhibited the development of foci. After 16 weeks, numbers of foci with > or = 4 crypts, which are more likely to progress to tumors, were significantly reduced. The most pronounced inhibition of ACF development was noted in rats fed the 24R,25(OH)2vitamin D3 after DMH administration. The reduction was particularly marked in the proximal colon. Blood levels of calcium were not significantly increased over the control levels in groups administered DMH and the vitamin. Immunohistochemical staining showed numbers of proliferating cell nuclear antigen-positive cells to be lower in the colonic epithelia of rats fed the vitamin D3 metabolite than in the controls. In experiment 2, the effect of 24R,25(OH)2vitamin D3 on the alterations in c-fos, c-myc and c-jun oncogene expression in response to DMH administration was examined by northern blot analysis. The early increase in expression of ornithine decarboxylase (ODC) activity was not altered by 24R,25(OH)2vitamin D3. The results suggest that 24R,25(OH)2vitamin D3 is a cancer chemopreventive agent which may suppresses DMH induction of lesions and their subsequent development via an antiproliferative action.

PIP/GCDFP-15 gene expression and apocrine differentiation in carcinomas of the breast

The frequency and the significance of apocrine differentiation in carcinomas of the breast are uncertain, because of the lack of reliable and reproducible criteria for morphological diagnosis. The 15 kDa glycoprotein of cystic breast disease (GCDFP-15) is regarded as a specific functional marker of apocrine cells. Expression of the prolactin-inducible protein (PIP)/GCDFP-15 gene was investigated by Northern blot analysis and in situ hybridization in breast cancer cell lines and in an unselected series (33 cases) of primary carcinomas of the breast. On the same cases, histological assessment of apocrine differentiation and immunocytochemical detection of GCDFP-15 were also performed and correlated with follow-up data. The presence of PIP/GCDFP-15 mRNA was a feature of a relatively high number of cases, but was incompletely correlated with histological and immunocytochemical evidences of apocrine differentiation. Expression of the PIP/GCDFP-15 gene was significantly associated with relapse-free survival, and may represent a novel variable of functional and prognostic relevance.

c-myc mRNA overexpression is associated with lymph node metastasis in colorectal cancer

To elucidate the relationship between oncogene overexpression and malignant potential of colorectal cancer, the expression of three genes, c-myc, c-fos and c-Ki-ras was examined. Northern blot hybridisation was performed on fresh tissues excised from 35 patients with primary colorectal cancer. Overexpression of c-myc mRNA was evident in 25 of the patients (71%). Tumours with c-myc overexpression had a significantly higher frequency of lymph node metastasis than did those without (68 versus 20%, P < 0.05). The survival rate tended to be poorer (P = 0.06) in patients with c-myc overexpression (79% for 3 years) than in those without it (100%). We found no significant relationship between overexpression of the other two genes and pathological features. These findings suggest that c-myc overexpression is one parameter which can be used to determine the malignant potential of colorectal cancer.

Effects of all-trans retinoic acid as a potential chemopreventive agent on the formation of azoxymethane-induced aberrant crypt foci: differential expression of c-myc and c-fos MRNA and protein

The main objectives were to determine the modulating effects of all-trans retinoic acid on the number, size and multiplicity of aberrant crypt foci as well as the in vivo expression of the genes c-myc and c-fos. These foci, which are hypothesized to be the pre-malignant lesions of colon cancer, were induced in Sprague-Dawley rats with a single injection of azoxymethane. Rats were fed either a control diet (AIN-76) or the control diet to which had been added 75 mg/kg or 150 mg/kg all-trans retinoic acid. Within 4 weeks, we observed that the diets containing all-trans retinoic acid reduced the total number and multiplicity of aberrant crypt foci in the colon. However, all-trans retinoic acid increased the size of the lesions that persisted, possibly due to a greater proportion of lesions with dilated crypts. In situ hybridization and immunohistochemistry were performed on the colons for the in vivo analysis of gene expression in these lesions. The expression of myc-specific mRNA and protein in aberrant crypt foci significantly decreased with both levels of all-trans retinoic acid. In contrast, fos-specific mRNA and protein in aberrant crypt foci significantly increased when 150 mg/kg all-trans retinoic acid was added to the diet. The most important findings of this investigation are that intervention with all-trans retinoic acid in the pre-malignant stage of colon carcinogenesis is effective in decreasing the number and growth of aberrant crypt foci and altering the expression of the c-myc and c-fos genes.

C-myc expression in early human placenta--a critical evaluation of its localization

A tight association between the expression of the protooncogene c-myc and the proliferation of trophoblast in first trimester human placentae has been reported, supporting the view that c-myc is under close control of the cell cycle. However, this has not been verified in several other cells systems. Therefore we reexamined the exact localization of myc expression at the transcriptional and translational level in 20 first trimester and three term placentae. Myc mRNA and protein was sparse or absent at term but abundant in early gestation placentae. The proliferative cell columns and the villous cytotrophoblast contained the greatest amounts, revealing myc protein in around 60-70% of villous cytotrophoblast cells. Unexpectedly, a considerable fraction of the syncytiotrophoblast nuclei of early placentae (20%) also showed myc expression, and this was particularly evident on the protein level. The myc content estimated by immunohistochemistry decreased with increasing placental maturation. In addition, prominent myc expression was seen in decidual cells, suggesting a paracrine growth regulation of the gestational endometrium. Our findings do not support the notion that myc expression is closely cell cycle-dependent. On the contrary, it appears that in the human placenta, myc expression characterizes the phase of rapid organ development in the first trimester and is not restricted to the proliferative cytotrophoblast.

c-myc mRNA expression in non-Hodgkin's lymphomas

Steady state c-myc mRNA levels determined by Northern blot analysis were examined in non-Hodgkin's lymphomas (NHL) of both high (n = 29) and low malignancy (n = 18), and in non-specific chronic lymphadenitis (n = 6). High grade NHL, classified according to the updated Kiel classification, revealed significantly larger amounts of c-myc mRNA compared with low grade NHL and lymphadenitis. mRNA levels in non-specific lymphadenitis were lower than in low grade NHL, but the differences were not statistically significant. No correlation between c-myc mRNA levels and the immunologic phenotype was discernible. Growth fractions of the NHL were determined by immunostaining with the monoclonal antibody Ki-67. Significant correlations between the percentages of Ki-67-positive cells, as well as the amounts of c-myc mRNA, and classification into high or low grade NHL were found. However, the percentage of Ki-67 positive cells and c-myc mRNA levels in individual cases and in the various histologic entities of NHL did not correlate. Our results indicate the overexpression of the c-myc gene in NHL, and a highly significant correlation of steady state c-myc mRNA levels with the prognosis-related histomorphologic Kiel classification of NHL into different subgroups of low and high grade malignancy.

Cellular localisation of c-myc product in human colorectal epithelial neoplasia

Aberrant expression of c-myc has been implicated in the development of colorectal carcinomas. We have used monoclonal antibodies 6E10 and 9E10, raised against mid-sequence and C-terminal peptides of the c-myc protein, to study the distribution of myc protein in normal and diseased bowel at the light microscope and ultrastructural levels. Normal mucosa showed staining only of some nuclei in the proliferative zones of crypts. In adenomas, staining varied from predominantly nuclear to pancellular to focal or pancytoplasmic. Moderately well differentiated areas of carcinomas gave strong focal cytoplasmic staining, while in poorly differentiated tumours staining was pancytoplasmic. Electron microscopy with these antibodies detected myc protein associated with dense chromatin and, where cytoplasmic staining occurred, with polyribosomes. Tumours showed a reduced staining of nuclear pores compared with normal tissue. Comparison of staining patterns with 6E10 and 9E10 in normal tissue, adenomas, and tumours suggests that tumour progression is associated with an accumulation of cytoplasmic c-myc protein, perhaps resulting from alterations to the C-terminus which reduce the efficiency of nuclear targeting of the protein and thus disrupt the regulation of the cell cycle.

Suppression of deregulated c-MYC expression in human colon carcinoma cells by chromosome 5 transfer

Two-thirds of sporadic colon carcinomas express elevated levels of the c-MYC protooncogene. In addition, most colon carcinoma cell lines show constitutive elevated expression (10- to 40-fold over normal) of MYC RNA and protein that is not modulated in response to a mitogenic stimulus. Indirect immunofluorescence has been used to detect c-MYC protein in such cell lines, in hybrid cells resulting from fusions of such lines with cells that regulate MYC normally, and in carcinoma cells to which a normal copy of chromosome 5 has been transferred by microcell fusion. The deregulated expression of c-MYC is suppressed by fusion with a cell that regulates MYC normally. In addition, transfer of chromosome 5 by microcell fusion results in suppression of deregulated expression. Suppressed cells are no longer tumorigenic in nude mice. Loss of the transferred chromosome results in reexpression of the tumorigenic phenotype and in constitutive elevated expression of MYC. These data indicate that function of a tumor-suppressor gene on chromosome 5 is necessary for the regulated expression of MYC in at least some colon cells. Loss of this suppressor results in deregulated MYC expression and is a necessary, but most likely not sufficient, event for the expression of the tumorigenic phenotype in a subset of colon carcinomas.