UNIPROT:P06889 - FACTA Search

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AKT2, an oncogene encoding a protein serine-threonine kinase implicated in phosphatidylinositol-3-OH kinase signaling, is amplified in some human ovarian and pancreatic carcinomas. We previously demonstrated that the tumorigenicity and invasiveness of pancreatic ductal adenocarcinoma (PDAC) cell lines with amplified AKT2 could be markedly reduced by transfection with antisense AKT2 constructs. To evaluate further the extent of AKT2 alterations in PDAC, DNA and immunohistochemical analyses were performed to assess amplification or overexpression of AKT2, respectively, in 72 PDACs. Thirty-five PDACs were subjected to Southern analyses, and AKT2 amplification was detected in seven tumors (20%). Forty-one formalin-fixed PDAC specimens were examined immunohistochemically with an anti-AKT2 monoclonal antibody, and moderate to intense staining was observed in eight tumors (20%). AKT2 immunostaining paralleled AKT2 genomic status in each of four cases in which both Southern and immunohistochemical analyses were performed. No obvious relationship was observed between AKT2 status and tumor TNM stage or grade. These observations suggest the utility of immunohistochemical analysis in assessing alterations of AKT2 in human cancers. Furthermore, the role played by the AKT2 kinase in the signaling pathways of various mitogenic growth factors implicated in the development of pancreatic cancer suggests that alteration of AKT2 may be an important component in the pathogenesis of a substantial subset of PDACs.
Mol Carcinog 1998 Feb
PMID:Amplification and overexpression of the AKT2 oncogene in a subset of human pancreatic ductal adenocarcinomas. 949 7

Farnesyl protein transferase (FPTase) catalyses the post-translational modification of proteins by a farnesyl pyrophosphate. One of the substrates of this enzyme is p21ras, the product of the ras oncogene. We examined whether farnesylamine, one of the FPTase inhibitors (FTI), is selectively cytotoxic in pancreatic carcinoma cells and Ki-ras-transformed fibroblasts. Furthermore, we investigated whether the cytotoxicity of farnesylamine is caused by the induction of apoptosis in these cells. Using the FPTase assay, we found that farnesylamine inhibited FPTase in vitro. Immunoprecipitation showed that farnesylamine inhibited farnesylation of p21ras in vivo. In addition, 24 and 5 microM farnesylamine were required to achieve 50% cytotoxicity in pancreatic carcinoma cells containing activated Ki-ras and Ki-ras-transformed NIH/3T3 cells, respectively. The parental NIH/3T3 cells were resistant to the cytotoxic effect of farnesylamine at concentrations less than 100 microM. After incubation with farnesylamine, DNA fragmentation was observed in both pancreatic carcinoma cells and Ki-ras-transformed fibroblasts at cytotoxic doses of this compound but not in NIH/3T3 cells. These results indicate that the mechanism of cell death induced by farnesylamine is apoptosis, and this apoptosis occurred specifically in pancreatic carcinoma cells containing mutated Ki-ras and the Ki-ras-transformed cells. Because raf is downstream of ras (p21ras) in the ras-raf-mitogen-activated protein kinase signaling pathway, we used c-raf-1-transformed fibroblasts, which proved to be resistant to apoptosis induced by farnesylamine. This supports the theory that inhibition of ras signaling may be related to the induction of apoptosis. These data further suggest that farnesylamine could be useful as a chemotherapeutic agent in cancers that very frequently contain a Ki-ras oncogene mutation, e.g., pancreatic cancer.
Mol Carcinog 1998 Feb
PMID:Selective cytotoxicity of farnesylamine to pancreatic carcinoma cells and Ki-ras-transformed fibroblasts. 949 9

Elongation factor-1 (EF-1) gamma is overexpressed in a high proportion of gastrointestinal cancers. The mechanism of overexpression has not been determined. The purpose of this study was to examine cDNA specimens from pancreatic and colorectal cancer for mutation in this gene, which would allow us to determine whether gene mutations are responsible for overexpression of EF-1gamma. In one colorectal carcinoma, we detected an A-->G transition at amino-acid codon 158 (T-->C in the sense strand) resulting in a change from a leucine to a serine. The base change was not detected in cDNA isolated from normal-appearing tissue from the same patient. We did not find mutations in another five colorectal carcinoma and five pancreatic cancer samples. Thus, although we detected a mutation in one tumor, the frequency of mutations was too low to account for the high frequency of overexpression of the EF-1gamma RNA in colorectal cancer. We also investigated other possible mechanisms of overexpression of the EF-1gamma RNA in this study. Slot-blot analysis of DNA isolated from colorectal cancers showed that the overexpression was not due to gene amplification. Using serum starvation to synchronize cultured cells, we showed that the overexpression was also not due to an increase in the number of cycling cells, as occurs in cancer. Using Southern blot analysis, we were unable to detect genome rearrangements that could have been responsible for the overexpression. In conclusion, the mechanism for overexpression of the EF-1gamma gene in colorectal and pancreatic cancer remains unknown. However, mutations in the coding sequence of the gene, gene amplification, and gene rearrangement do not account for the high frequency of overexpression of this gene, and the overexpression is not due to an increase in the number of cycling cells.
Mol Carcinog 1998 May
PMID:Few point mutations in elongation factor-1gamma gene in gastrointestinal carcinoma. 960 96

Lithostathine may play a physiological role in preventing the precipitation of excess calcium in the pancreatic juice. The hypothesis has been advanced that in chronic calcifying pancreatitis the abnormal biosynthesis of lithostathine might be the original defect to which genetic proneness to the disease may be ascribed. The aim of the present work was to study lithostathine messenger RNA expression in the pancreas of patients with different types of pancreatitis. Lithostathine and chymotrypsinogen mRNA were determined in surgical specimens obtained from the pancreases of the following subjects: (a) 13 patients with chronic alcoholic pancreatitis (84.6% calcified); (b) 4 patients with chronic hereditary pancreatitis (all calcified); (c) 6 patients with chronic obstructive pancreatitis (4 calcified); and (d) 27 subjects suffering from pancreatic cancer. Significantly lower concentrations of both mRNAs were found in the pancreases of chronic pancreatitis patients than in non-cancerous tissue from pancreatic cancer subjects. However, about 70% of the pancreatic cancer subjects showed lithostathine and chymotrypsinogen mRNA levels comparable to those of chronic pancreatitis patients. These results indicate that the decrease in the level of mRNA is not specific to lithostathine and it is unrelated to the presence of pancreatic stones.
Mol Cell Biochem 1998 Aug
PMID:Lithostathine messenger RNA expression in different types of chronic pancreatitis. 974 20

Gastrin has been shown to stimulate growth of human pancreatic cancer, and does so in an autocrine fashion. In this study, a relationship between gastrin mRNA, peptide, and gastrin receptors were studied in a variety of human pancreatic tissues. Low levels of gastrin mRNA were detected in normal human pancreas by quantitative reverse transcription polymerase chain reaction, but gastrin peptide was not present using radioimmunoassay. Pancreatic adenocarcinoma cells and tissues had 34- to 530-fold higher gastrin mRNA and peptide levels than normal pancreas. Gastrin mRNA and peptide levels were 8,000- and 15,000-fold, respectively, greater in a pancreatic islet cell gastrinoma tumor than in normal pancreas. In comparison to age-matched controls, fasting gastrin plasma levels were 2-fold higher in patients with pancreatic adenocarcinoma and 131-fold greater in subjects with gastrinomas. Receptor binding assays revealed that pancreatic cancer cells had a binding capacity 200-fold greater than gastrinoma tumors, and 10-fold greater than normal pancreas; no differences in K(d) values were recorded between specimens. In contrast to the normal pancreas and gastrinoma tumor, the aggressive behavior of pancreatic adenocarcinoma may be attributed to the autocrine production of gastrin and to the presence of its growth-related receptor.
Int J Mol Med 1998 Sep
PMID:Quantitative analysis of gastrin mRNA and peptide in normal and cancerous human pancreas. 985 3

Both K-ras and p53 gene mutations are found commonly in pancreatic tumors. Analysis of the mutational patterns may provide insight into disease etiology. To further describe the mutational patterns of pancreatic cancer and to assess the evidence to date, we performed a pooled analysis of the published data on genetic mutations associated with pancreatic ductal adenocarcinoma. We included data from studies that evaluated point mutations in the two genes most studied in pancreatic cancer, K-ras and p53. A majority of the 204 tumors had mutations in at least one gene, with 29% having both K-ras and p53 mutations, 39% with K-ras mutation alone, and 16% having p53 mutation alone. Sixteen percent of tumors lacked mutation in either gene. K-ras mutations were present in high frequencies in all tumor grades (>69%). A statistically significant trend was observed for p53 mutation with higher tumor grade (P = 0.04). For K-ras, G2 and G3 grades, combined, had notably higher prevalences of mutation than G1 (P = 0.004). CGT mutations in K-ras codon 12 were marginally associated with lower tumor grade (P for trend = 0.09), and these tumors were somewhat less likely to have a p53 mutation than tumors with other K-ras mutations (P = 0.06). In the 59 K-ras+/p53+ tumors, 64% had the same type of mutation (transition or transversion) in both genes, suggesting a common mechanism. The mutational pattern of p53 in pancreatic cancer is similar to bladder cancer, another smoking-related cancer, but not to lung cancer. Analyses of molecular data, such as that performed here, present new avenues for epidemiologists in the study of the etiology of specific cancers.
Environ Mol Mutagen 1999
PMID:Patterns of genetic alterations in pancreatic cancer: a pooled analysis. 1021 65

Pancreatic adenocarcinoma is the fifth leading cause of cancer related deaths in the United States. Treatment for this disease has largely been unsuccessful, which may partly be due to insufficient data regarding the molecular mechanisms of chemotherapeutic drugs currently being used as single agents or in combined modality regimens. In this study, we investigated the molecular mechanisms by which auristatin-PE, a newly developed experimental agent, and gemcitabine, a commercially available anti-cancer agent, exert their inhibitory effects on pancreatic cancer cell lines containing wild-type p53 (HPAC) and mutant p53 (PANC-1). Our results showed that auristatin-PE and gemcitabine inhibited cell growth and induced cell cycle arrest in G2/M and S phase, respectively. Auristatin-PE also induced apoptosis in both cell lines. Western blot analysis showed that auristatin-PE up-regulated the expression of wt-p53, p21WAF1 and Bax, and down-regulated Bcl-2 and cyclin B in HPAC cells, while only up-regulation of p21WAF1 and Bax was observed in PANC-1 cells. These results suggest that auristatin-PE may induce apoptosis and p21WAF1 expression through p53-dependent or independent pathways, and that up-regulation of p21WAF1 and Bax and down-regulation of Bcl-2 may be the molecular mechanism through which auristatin-PE inhibits cell growth and induces apoptosis. Furthermore, the up-regulation of p21WAF1 and down-regulation of cyclin B may contribute to the G2/M cell cycle arrest. Combination of auristatin-PE and gemcitabine showed significantly greater inhibition of cell growth and up-regulated expression of p21WAF1 and Bax. From these results, we conclude that the selection of therapeutic agents based on their molecular mechanism may improve therapeutic outcome, and that auristatin-PE may be more effective in the treatment of pancreatic cancer when given in combination with gemcitabine, rather than as a single agent.
Int J Mol Med 1999 Jun
PMID:Induction of growth inhibition and apoptosis in pancreatic cancer cells by auristatin-PE and gemcitabine. 1034 Dec 97

A novel mRNA isoform (meprin beta') of the cell-surface protease subunit meprin beta was previously identified in human colon cancer cells. The study reported here revealed that this mRNA isoform was identical within the protein coding region and at the 3' end to the beta isoform of normal intestine but that it contained an extended 5' untranslated region. Meprin beta' mRNA was expressed in the human breast cancer cell lines MCF-7 and SK-BR-3, in the human osteosarcoma cell line U2 Os, and in the human pancreatic cancer cell line BxPC-3. Meprin beta mRNA, but not beta' mRNA, was expressed in human fetal kidney cells. We cloned and sequenced genomic DNA encoding portions of the promoter region of the meprin beta gene. The unique sequences present in the beta' mRNA were present in the human genomic DNA immediately upstream of the transcription start site for the beta mRNA. The human meprin promoter sequence was searched for potential transcription-factor binding sites, and putative activator protein-1, polyoma enhancer activator 3 (PEA3), CCAAT enhancer-binding protein beta, and estrogen-receptor binding sites were identified along with binding sites for the intestine-specific cdx-2 transcription factor. The activity of meprin promoter/luciferase reporter gene constructs transfected into U2 Os cells was highest with constructs containing 83 and 639 bp of promoter DNA. These regions of the promoter each contain a putative PEA3 element. Treatment of the human colon adenocarcinoma cell line HT29-18C1 with 50 or 100 ng/mL phorbol myristal acetate for 8 h increased meprin beta' mRNA levels. Likewise, U2 Os cells transfected with the -639/luciferase or -1800/luciferase constructs showed a phorbol myristal acetate-inducible increase in reporter gene activity, indicating that the PEA3 element within the -639 construct or other elements further upstream respond to phorbol ester.
Mol Carcinog 1999 Jul
PMID:Expression and regulation of the meprin beta gene in human cancer cells. 1041 Nov 43

Okadaic acid (OA), a toxin from the black sponge Halicondria okadai, is a specific inhibitor of serine/threonine protein phosphatases 1 (PP1) and 2A (PP2A). OA is a tumor promoter but also induces apoptosis in some tumor cell lines. In this study, we determined whether ras mutation and/or p53 status are characteristics associated with the cell's sensitivity to the induction of apoptosis by OA. Several cell lines that differed in ras and p53 mutations were treated with OA (10-100 nM). At 24 to 48 h after treatment, the percentage of cells undergoing apoptosis was quantitated. The cell lines with mutations in either H-ras (human bladder carcinoma cell line T24 and mouse keratinocyte cell line 308), or K-ras (human colon carcinoma cell lines DLD-1 and HCT116; human prostate cancer cell lines LNCaP and PC-3; human lung cancer cell lines Calu-6 and SKLU-1; and human pancreatic cancer cell line MIAPaCa2) were more sensitive to OA-induced apoptosis (3- to 10-fold) than the cell lines that lacked the ras mutation (mouse epidermal cell lines C50 and JB6; murine fibroblast cell line NIH3T3; human colon cancer cell line HT29; human kidney epithelial cell line Hs715.K; and human pancreatic cancer cell line Bx-PC3). Similarly, using isogenic cell lines we found that overexpression of mutated H-ras in NIH3T3 and in SV40 immortalized human uroepithelial cells (SVHUC) enhanced their sensitivity to undergo apoptosis in response to OA treatment. The T24, DLD-1, SKLU-1, Calu-6, and MIAPaCa2 cell lines express mutated p53. The SVHUC as well as their ras-transfected counterparts have inactive p53 due to complex formation between large "T" antigen and p53. Taken together, these results imply that OA-induced apoptosis may involve a p53-independent pathway. The transfectants (NIH3T3-ras and SVHUC-ras), which express mutated H-ras, have up-regulated PP2A activity. OA treatment inhibited in vivo the levels of PP1 and PP2A activity, and induced apoptosis in SVHUC-ras and other cell lines. We conclude that OA-induced cell death pathway in ras-activated cell lines may involve a cross talk between PP1 and PP2A and ras signaling pathways. In light of the present results, the current theory that OA promotes mouse skin tumor formation by selective expansion of initiated cells that harbor ras mutations needs reevaluation.
Mol Pharmacol 1999 Sep
PMID:Ras mutation, irrespective of cell type and p53 status, determines a cell's destiny to undergo apoptosis by okadaic acid, an inhibitor of protein phosphatase 1 and 2A. 1046 39

DPC4/SMAD4 is a candidate tumor suppressor gene with a strikingly high frequency of gene alterations in pancreatic cancer that suggests a discrete role for DPC4 in these tumors. DPC4 tumor-suppressive function has been implicated to mediate the transforming growth factor-beta (TGFbeta)-suppressive pathway; however, in a DPC4-null pancreatic cancer cell line, TGFbeta growth-inhibitory and transcriptional responses were found to be DPC4-independent. This was observed within native cells having a natural homozygous deletion and in clones engineered for stable expression of wild-type DPC4 integrated into the genome. This observation contrasted with the absolute DPC4 dependence of TGFbeta responses in a breast cancer cell line studied in parallel. This growth-inhibitory response to TGFbeta in DPC4-null cells relied on an intact ras effector pathway. These data further suggest a major categorization of TGFbeta responses into DPC4-dependent and -independent signaling pathways and specifically suggest that disruption of the TGFbeta-independent signal might be a basis of selection for the emergence of DPC4 alterations during tumorigenesis in the pancreas and other sites.
Mol Carcinog 1999 Sep
PMID:Transforming growth factor-beta responsiveness in DPC4/SMAD4-null cancer cells. 1048 20

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