Tomomi Yajima

Survivin as a Radioresistance Factor in Pancreatic Cancer

We examined whether survivin acts as a constitutive and inducible radioresistance factor in pancreatic cancer cells. Using a quantitative TaqMan reverse transcription‐polymerase chain reaction for survivin mRNA in five pancreatic cancer cell lines, we found an inverse relationship between survivin mRNA expression and radiosensitivity. PANC‐1 cells, which had the highest survivin mRNA levels, were most resistant to X‐irradiation; MIAPaCa‐2 cells, which showed the least survivin mRNA expression, were the most sensitive to X‐irradiation. Our results suggested that survivin could act as a constitutive radioresistance factor in pancreatic cancer cells. To determine whether radioresistance is enhanced by induction of survivin expression by irradiation, PANC‐1 and MIAPaCa‐2 cells were subjected to sublethal doses of X‐irradiation followed by a lethal dose. Survivin mRNA expression was increased significantly in both PANC‐1 and MIAPaCa‐2 cell lines by pretreatment with a sublethal dose of X‐irradiation, as was cell survival after exposure to the lethal dose. In this system, enzymatic caspase‐3 activity was significantly suppressed in cells with acquired resistance. These results suggest that survivin also acts as an inducible radioresistance factor in pancreatic cancer cells. Survivin, then, appears to enhance radioresistance in pancreatic cancer cells; inhibition of survivin mRNA expression may improve the effectiveness of radiotherapy.

Establishment of quantitative reverse transcription–polymerase chain reaction assays for human telomerase-associated genes

Telomerase is an enzyme that synthesizes and adds repetitive telomeric sequences of (TTAGGG)n to the ends of chromosomes. Recently, several telomerase-associated genes have been cloned, making it possible to study the expression of these genes. Quantitative comparisons of the expression of these genes and of telomerase activity might help clarify the regulation of telomerase activity. Therefore, we established the validity of a quantitative reverse transcription-polymerase chain reaction (RT-PCR) assay for the human telomerase catalytic subunit (hTERT) mRNA and telomerase associated protein (TEP1) mRNA using the TaqMan fluorogenic detection system. Using this assay, we quantitated hTERT mRNA and TEP1 mRNA expression in two human pancreatic cancer cell lines, AsPC-1 and PANC-1. Our results indicated that the levels of hTERT mRNA and TEP1 mRNA expression in AsPC-1 were 1.50 and 2.31 times higher than in PANC-1 cells. This TaqMan RT-PCR assay appears to be useful in determining the quantities of hTERT and TEP1 mRNAs in clinical specimens. Taken together, our results indicate that it is possible to measure the expression of the major telomerase genes subunits. Furthermore it is possible to apply this technique to determine the amount of other types of mRNA.

A highly sensitive immuno-polymerase chain reaction assay for human angiotensinogen using the identical first and second polyclonal antibodies

We describe an immuno-polymerase chain reaction (immuno-PCR) assay for the detection of human angiotensinogen using identical first and second polyclonal antibodies. The reporter DNA was initially generated by PCR amplification using a biotinylated primer, and was bound with streptavidin to biotinylated second antibody. Human recombinant angiotensinogen sandwiched by antibodies was detected by amplifying the reporter DNA using PCR. To reduce the effect of nonspecific amplification, the optimal concentrations of streptavidin and DNA label were determined to be 0.1 mg/l and 0.5 ng/l, respectively. The detection limit of the immuno-PCR assay was 0.1 ng/l, an approximately 2.5x10(5)-fold improvement compared with a conventional enzyme-linked immunosorbent assay. These results indicate that a highly sensitive immuno-PCR for human angiotensinogen can be developed even with identical first and second polyclonal antibodies.

An immuno-polymerase chain reaction assay for human interleukin-18.

Conventional enzyme-linked immunosorbent assays (ELISA) are sufficient to measure normal and elevated serum interleukin (IL)-18 concentrations, but have limited sensitivity when measuring low concentrations of IL-18 such as in patients with the acquired immunodeficiency syndrome. We have developed a highly sensitive method for detecting human (h) IL-18 using an immuno-polymerase chain reaction (PCR). A mouse monoclonal anti-hIL-18 antibody and rabbit polyclonal anti-hIL-18 antibody was used for an indirect sandwich ELISA with a detection limit of 40 ng/l and a very low background. For immuno-PCR, biotinylated DNA was produced from the plasmid Bluescript by PCR amplification with biotinylated M13-20 primer and nonbiotinylated M13 reverse primer. Immuno-PCR for hIL-18 was performed for 40 cycles using 1 ng/l of biotinylated DNA. This immuno-PCR has a detection limit of 2.5 pg/l, 1.6x10(4) times lower than that of the ELISA. In addition, our system avoids sampling error caused by heat transfer from the ELISA plate to the PCR tube because all procedures from immobilization of the antibody to PCR amplification can be performed in the same tube. This immuno-PCR for hIL-18 is the most sensitive method for detecting hIL-18 reported to date.

Heat-shock protein-73 protects against small intestinal warm ischemiareperfusion injury in the rat

Abstract Background: The protective effects of heat-shock protein (hsp) in rat small intestinal warm ischemia-reperfusion (I/R) injury are poorly understood. Methods: Hsp-73 expression was induced in rat small intestine with use of sodium arsenite injected (6 mg/kg) through a catheter cannulated into the left common carotid artery 24 hours before ischemia (group 1). In the control group an equal volume of phosphate-buffered saline solution was injected (group 2). To block the induction of hsp-73 expression, sodium arsenate and quercetin (5 mg/kg) were injected (group 3). Results: The mean peak plasma levels of tumor necrosis factor-α and cytokine-induced neutrophil chemoattractant after reperfusion were lower in group 1 than in group 2. The tissue myeloperoxidase activity after reperfusion was lower in group 1 than in group 2. The mean peak plasma level of interleukin-10 after reperfusion was higher in group 1 than in group 2. The induction of hsp-73 expression reduced the synthesis of nitric oxide and the magnitude of the small intestinal warm I/R injury. The results in group 3 were similar to those in group 2. Conclusion: Hsp-73 protects against small intestinal warm I/R injury by inhibiting the synthesis of inflammatory cytokines and the activation of neutrophils and by accelerating the synthesis of anti-inflammatory cytokines. (Surgery 1999;125:385-95.)

Helicobacter pylori Infection: Augmentation of Telomerase Activity in Cancer and Noncancerous Tissues

Abstract. Telomerase adds hexameric repeats of 5′-TTAGGG-3′ to the ends of chromosomal DNA (telomere) and has been implicated in cell immortalization and cellular senescence. The aim of this study was to measure quantitatively the telomerase activity and human telomerase RNA component (hTR) content in gastric cancer and to examine the relation between these values and histologic factors including Helicobacter pylori as a risk factor for gastric cancer. Telomerase activity was measured by a modified telomeric repeat amplification protocol in cancerous and noncancerous tissues (intestinal metaplasia, chronic gastritis, normal mucosa) from 27 gastric cancer patients; hTR expression was examined by the quantitative reverse transcriptase-polymerase chain reaction using fluorescent probes. Telomerase activity was higher in cancers (total product generated: 33.7) than in noncancerous tissues. Telomerase activity was higher in intestinal metaplasia (16.7) and chronic gastritis (10.6) than in normal mucosa (3.5). In patients with intestinal-type gastric cancer, telomerase activity was higher in intestinal metaplasia with H. pylori infection than in that without infection. hTR expression was not correlated with telomerase activity. H. pylori infection may influence telomerase activity in cancer and noncancerous tissues.

Role of Human Telomerase Reverse Transcriptase and Telomeric‐repeat Binding Factor Proteins 1 and 2 in Human Hematopoietic Cells

Telomerase, an enzyme that adds hexameric repeats of 5′‐TTAGGG‐3′, termed telomeres, to the ends of chromosomal DNA, has been implicated in cellular immortalization and cellular senescence. Recently several relevant genes have been cloned, including those encoding three major components of human telomerase: human telomerase RNA component (hTR), human telomerase reverse transcriptase (hTERT), and telomerase‐associated protein‐1 (TEP1). Also important are genes encoding human telomeric‐repeat binding factor proteins (TRF) 1 and 2. We compared 10 human malignant hematopoietic cell lines, 19 samples from patients with acute leukemia and normal granulocytes and monocytes to study telomerase activity and expression of these various genes using a reverse transcription‐polymerase chain reaction (RT‐PCR). In all 10 malignant cell lines with telomerase activity, hTR, hTERT mRNA, and TEP1 mRNA were expressed, while in normal monocytes and granulocytes without telomerase activity, expression of hTR, but not hTERT mRNA was detected. TEP1 mRNA was expressed in normal monocytes, but not granulocytes. Expression of TRF1 and TRF2 mRNAs was greater in the normal cells than in human malignant hematopoietic cell lines and in 16 samples of patients with acute leukemia. When differentiation of the malignant hematopoietic cell line HL‐60 was induced using tumor‐necrosis‐factor 471 and all‐trans retinoic acid (ATRA), telomerase activity decreased gradually during differentiation. Of the three telomerase components, only hTERT mRNA expression showed changes paralleling telomerase activity, becoming undetectable with differentiation. In contrast, initially low expression of TRF1 and TRF2 mRNAs increased during differentiation. Not only hTERT, but also TRF1 and TRF2 are important regulators of telomerase activity that represent potential targets for gene therapy against cancer.

Limitations of urinary telomerase activity measurement in urothelial cancer.

The reported frequency of detectable telomerase activity in spontaneously voided urine samples from patients with urothelial cancer varied from 0 to 85%. We examined stasis in the bladder and specimen storage as interfering conditions in this assay. Telomerase activity in exfoliated cells was measured by a polymerase-chain-reaction-based assay in spontaneously voided urine from urothelial cancer patients. Effects of retention in the bladder and specimen storage from voiding to measurement of telomerase activity were modeled by suspending 10(6) cells from the cancer-derived T24 line in normal urine (pH 6.5) at 37 degrees C and 25 degrees C, respectively. Hematuria was modeled by adding hemoglobin. In T24 cells suspended in urine at 37 degrees C, telomerase activity had decreased to approximately 20% of preincubation activity after 1 h, and had disappeared after 3 h. In urine at 25 degrees C, telomerase activity in T24 cells had decreased to approximately 40% of preincubation activity at 1 h and to <10% at 6 h. When we examined telomerase activity in exfoliated cells in spontaneously voided urine from urothelial cancer patients (excluding first-voided morning specimens), telomerase activity was detected in only 21% of samples (four of 19) despite measurement with 1 h of voiding and steps to avoid hemoglobin interference. Measurement of telomerase activity in spontaneously voided urine is insufficiently sensitive and reliable for the diagnosis of urothelial cancer.

Expression of Telomerase-associated Genes: Reflection of Telomerase Activity in Gastric Cancer?

Abstract. Telomerase activation is a characteristic of immortalized tumor cells but not of normal cells. Telomerase activity has been detected in approximately 85% of malignant tumors, and assaying for telomerase activity is thought to be useful for diagnosing cancer. Three telomerase-associated molecules [human telomerase RNA component (hTR), telomerase-associated protein (TEP1), and human telomerase reverse transcriptase (hTERT)] have been cloned. We semiquantitatively measured telomerase activity and the expression of these genes in cancerous and noncancerous regions of gastric cancer patients. We also investigated whether the expression of these genes correlated with telomerase activity. Telomerase activity in cancerous regions was significantly higher than in noncancerous regions, but there was no correlation between telomerase activity and the expression of these genes. Furthermore, no clear difference was observed between cancerous and noncancerous regions. These data indicate that the level of three telomerase-associated genes (i.e., hTR, TEP1 mRNA, hTERT mRNA), do not reflect telomerase activity, and the RNA levels of these genes are not useful markers for diagnosing gastric cancer.

Helicobacter pylori Infection Induces Telomerase Activity in Premalignant Lesions

To the Editor: Helicobacter pylori (H. pylori) can cause chronic gastritis and peptic ulcers (1). In addition, H. pylori infection is closely associated with the pathogenesis of precancerous lesions, such as intestinal metaplasia and gastric cancer (2, 3). Many animal models with H. pylori inoculation have been reported to help define its role in gastric carcinogenesis, but it has not been reported whether H. pylori can induce precancerous lesions such as intestinal metaplasia in these animal models. Recently, H. pylori inoculation into Mongolian gerbils has been reported to induce chronic gastritis and intestinal metaplasia 6 months later (4).