UNIPROT:P30536 - FACTA Search

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Query: UNIPROT:P30536 (PBS)
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The exposure of quiescent Swiss 3T3 cells to mainstream cigarette smoke (CS) trapped in PBS solution (smoke-bubbled PBS) resulted in the dose-dependent expression of c-fos mRNA and protein. Kinetic investigations revealed that in contrast to mitogens, which strongly but transiently induce the c-fos promoter within minutes, c-fos transcripts in cells exposed to 0.03 puffs (approximately 1 cm3) of CS/ml of medium accumulated slowly but were still seen after 8 h; the maximum expression rates were between 2 and 6 h of exposure. This specific expression pattern appears to be the result of altered posttranscriptional as well as transcriptional regulation, since a strikingly increased stability of the c-fos message (t1/2, > or = 2 h versus < 20 min in serum-stimulated cells) in smoke-treated cells was observed in addition to slight transcriptional activation of the c-fos promoter. CS-dependent DNA damage can be excluded as the only source for this altered expression pattern, since inhibition of DNA strand break formation by either catalase or o-phenanthroline had no detectable effect on the CS-induced c-fos expression. The results described here, and other CS-dependent cellular and biochemical effects, are similar to those induced in vitro by okadaic acid, a specific inhibitor of cell growth-regulatory protein phosphatases 1/2A (PP-1/2A). Hence, the effects of smoke treatment on these key enzymes were compared to those of okadaic acid based on the ability of cell-free extracts to release radiolabeled phosphate from glycogen phosphorylase a, a substrate of PP-1/2A. Results from these experiments indicate that both treatments inhibited PP-1/2A in a concentration- and analogous time-dependent manner. The data presented suggest that PP-1/2A may, at least in vitro, be targeted by water-soluble active compounds present in cigarette smoke.
Cancer Res 1995 May 01
PMID:Expression of c-fos in quiescent Swiss 3T3 cells exposed to aqueous cigarette smoke fractions. 772 61

Overexpression of HER-2/neu has been demonstrated in human ovarian cancer and correlated with poor prognosis. We previously found that the adenovirus type 5 early region 1A (E1A) gene product can repress overexpression and suppress the tumorigenic potential of the HER-2/neu-overexpressing cancer cells. To develop an efficient HER-2/neu-targeting gene therapy with E1A, a replication-deficient adenovirus containing the E1A gene, Ad.E1A(+), was used to transduce the HER-2/neu-overexpressing human ovarian cancer cell line SK-OV3.ip1. Tumor cell growth in vitro and colony formation in soft agarose were greatly inhibited by Ad.E1A(+) transduction. To test therapeutic efficacy in vivo, tumor-bearing mice were established by i.p. injection with ovarian cancer cells and treated by i.p. injection of 10(8) PFU viral solution containing either replication-deficient Ad.E1A(+); control virus Ad.E1A(-) which is the same adenovirus as Ad.E1A(+) except for E1A deletion, or just PBS. Ad.E1A(+) significantly prolonged survival in treated mice for 1 year (80%) whereas in control groups, all mice died of cancer within 4.5 months. Immunohistochemistry analysis indicated that Ad.E1A protein was expressed in tumor tissue and expression of HER-2/neu p185 protein was suppressed in vivo. As a control, another ovarian cancer cell line 2774, in which HER-2/neu is expressed at a basal level, was also inoculated i.p. following the same therapeutic procedure. Ad.E1A(+) could not prolong survival of 2774 cells, indicating that Ad.E1A(+) specifically targeted HER-2/neu-overexpressing tumor cells and functioned as an antitumor agent.
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PMID:HER-2/neu-targeting cancer therapy via adenovirus-mediated E1A delivery in an animal model. 776 Oct 95

The efficacy of tumor therapy using polyethylene-glycol-modified interleukin-2 (PEG-IL-2), alone or in combination with cyclophosphamide, was studied in advanced metastatic disease in the guinea pig. Line 10 (L10) tumor cells appeared in the axillary lymph node only 7 days after intradermal tumor-cell inoculation, and lymph-node leukocytes were almost completely replaced by tumor cells on day 28. Local treatment of the intradermally growing L10 hepatocarcinoma in the guinea pig with a relatively low dose of PEG-IL-2 resulted in regression of the primary tumor and prevention of lymph-node metastases. Therapy was completely curative (4 out of 5 animals) when started on day 7 or 14 after tumor-cell inoculation. When started on day 21, therapy was effective in only some (2 out of 5 cured) of the treated animals. Anti-tumor effects against the primary tumor and against lymph-node metastases were observed only after intratumoral (i.t.) administration of PEG-IL-2. Injection of the agent into or near lymph-node metastases in the absence of the primary tumor had no curative effect. In PBS/BSA-treated control animals the primary tumor and metastases grew progressively. In the treatment of far advanced metastatic disease, the combination of i.t. administration of PEG-IL-2 and i.p. injection of cyclophosphamide (Cy) resulted in improved anti-tumoral effects (5/5 guinea pigs were cured) when compared with monotherapy using either agent (one and none out of 5 animals cured, respectively). PBS/BSA heated controls showed progressive tumor-growth. We conclude that large primary tumors and lymph-node metastases can be treated effectively with PEG-IL-2. The i.t. route of administration is of major importance in the treatment of metastases, since administration of PEG-IL-2 near or into the lymph node had no therapeutic effect. Combination of PEG-IL-2 therapy with systemic injections of Cy significantly improved the curative effects of the treatment of advanced metastatic cancer.
Int J Cancer 1994 Sep 15
PMID:PEG-IL-2 therapy of advanced cancer in the guinea pig. Impact of the primary tumor and beneficial effect of cyclophosphamide. 792 81

To study the alteration of nuclear DNA content of cancer cells after peplomycin (PEP) treatment, DNA cytofluorometry was performed in combination with 3H-thymidine (3H-TdR) autoradiography using cultured A431 cells. The cells in the logarithmic growth were treated with PEP (1.25 micrograms/ml) for 24 hr, during the first 4 hr of which they were pulse-labeled with 3H-TdR (2.4 x 10(4) Bq/ml). After washing with PBS, the cells were then cultured without both PEP and 3H-TdR, fixed at different times and stained with propidium iodide (PI) for the auto-stage cytofluorometry, which enabled DNA content analysis for labeled and unlabeled cells by repeated scanning of the same cell population. The nuclear DNA content histograms demonstrated that A431 cells were mostly arrested in G2 phase of 4C stem line by treatment with PEP for 24 hr. This G2 block lasted up to 8 hr after removal of the drug, and thereafter, marked polyploidization associated with DNA synthesis occurred, showing almost no mitotic figures, while only a few cells returned to G1 phase via M phase. During the period of 72-120 hr, however, the fractions of advanced polyploid cells (DNA content > or = 8C) gradually decreased and the DNA content distribution pattern became eventually similar to the original one as seen before PEP treatment. From these results we hypothesized as follows: 1) At S-G2 boundary, there is some control mechanism that checks whether the cells, after S phase, can enter the M phase or not. 2) The cells, which are not permitted to enter mitosis by the control mechanism, show marked polyploidization. 3) Only the cells that enter into mitosis can live and proliferate, though the advanced polyploid cells die shortly. 4) This control mechanism might be related to the precision of DNA repair that is checked at the G2-M checkpoint.
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PMID:[Cytofluorometric chase of the cancer cells after release from G2-block induced by peplomycin]. 815 93

Ammonium trichloro(dioxoethylene-o-o')tellurate (AS101) is a new synthetic compound previously described by us as being able to modulate the immune system and having minimal toxicity. Clinical trials are currently in progress with AS101 on cancer patients. AS101 has recently been found to have radioprotective effects on hemopoiesis and survival of irradiated mice when administered prior to irradiation. Radioprotection conferred by AS101 has recently been demonstrated by us to result partly from induction of progenitor cells to enter into S phase, which is assumed to be a more radioresistant phase of the cell cycle, and partly from the enhanced stimulation of CFU-S not only toward proliferation but also toward self-renewal. In the present study we demonstrate that the DNA repair processes expressing the cellular reponses associated with the restoration of the normal nucleotide sequence after damage caused to the DNA were also increased significantly after treatment with AS101. Unscheduled DNA repair synthesis was found to be significantly higher in both spleen and bone marrow cells from mice injected with AS101 compared to mice injected with PBS. DNA repair synthesis in spleen cells incubated with AS101 in vitro was also higher than that of PBS-treated cells. This was demonstrated by equilibrium alkaline cesium chloride density gradient of DNA from irradiated and nonirradiated spleen cells in the presence of hydroxyurea. In addition, using the neutral filter elution technique, we show that AS101 can both protect cells from DNA double-strand breaks (DSBs) induced by irradiation and enhance the ability of the affected cells to rejoin the DSBs. We show that extracts of splenocytes, either incubated with AS101 in vitro or obtained from mice injected with AS101, contain substantial DNA polymerase activity which is significantly higher compared to that of control treated cells. Aphidicolin, an inhibitor of DNA polymerases alpha and delta, and dideoxy-thymidine, an inhibitor of DNA polymerase beta, inhibited DNA repair synthesis of irradiated splenocytes stimulated with AS101. These results collectively indicate that AS101 confers its radioprotective effects partly by preventing the induction of DSBs induced by irradiation and partly by enhancing the ability of irradiated cells to repair their damaged DNA, probably by increasing mainly DNA polymerase activity. The understanding of the mechanism of radioprotection conferred by AS101 will enable us to use AS101 more effectively for the restoration of hemopoiesis in patients after radiation therapy or in patients suffering from overdose or accidental irradiation.
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PMID:Increased DNA repair ability after irradiation following treatment with the immunomodulator AS101. 824 76

In order to study the mechanism of cancer metastasis, AH100B cells, an ascitic hepatoma cell line, were transplanted into the small intestine of male Donryu rats. Each metastatic nodule in the liver was collected with the respective intestinal lesion. Each sample thus obtained was injected into the peritoneal cavity of male Donryu rats to make free cancer cells. Then, the cancer cells, having an intact cell surface, of the metastatic and primary intestinal lesion were collected respectively. After washing in Dolbecco's PBS (Ca2+ and Mg(2+)-free, pH 7.2), the definite numbers of cancer cells of the metastatic and primary intestinal lesion were incubated in the PBS containing [1-14C]-AA at 25 degrees C for 30 min, respectively. AA metabolites formed during the incubation period were extracted and subjected to TLC, followed by autoradiography. Each radioactive part was scraped off the plate and measured for its radioactivity. The pattern of the ability to synthesize PGs was different between the cancer cells which metastasized to the liver and those of the primary lesion, that is, percentage values of PGE2 and PGF2 alpha were higher (p < 0.01) in the cancer cells which metastasized to liver as compared with those of the primary intestinal lesion. These results suggest that PGs produced by hepatic metastatic cancer cells might play an important role in cancer metastasis.
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PMID:Some features in prostaglandin synthesis of the cancer cells which metastasized into liver from intestinal cancer lesions. 826 26

AS101 [ammonium trichloro (dioxyethylene-0-0') tellurate] is a new synthetic compound previously described by us as having immunomodulating properties and minimal toxicity. Clinical trials are currently in progress with AS101 in AIDS and cancer patients. AS101 has recently been found to have radioprotective effects on hemopoiesis in irradiated mice when administered prior to irradiation. Since the early progenitors, spleen colony-forming units (CFU-S), are the critical cells needed for the reconstitution of the hemopoietic system, the mechanisms of action of AS101 were explored in this study by examining the compound's effect on the recovery of CFU-S, its protective effect on endogenous CFU-S and its effect on self-renewal of CFU-S. We also studied the effect of AS101 on the induction of progenitor cells into the radioresistant S-phase of the cell cycle. On days 1 and 5 after irradiation, the number of CFU-S in the bone marrow and spleen of AS101-treated mice was significantly higher than that of PBS-injected mice. Nine days after sublethal doses of irradiation, the number of endogenous spleen colonies was highest in mice given AS101 every 24 hours or every other day for 1 week prior to irradiation. AS101 administered immediately after irradiation, however, also resulted in an increase in the endogenous CFU-S. The higher number of CFU-S found in each 9-day endogenous spleen colony suggests increased self-renewal of CFU-S in AS101-treated mice. Moreover, we found that AS101 induced a higher number of progenitor cells in the S-phase of the cell cycle. These findings suggest that the radioprotection conferred by AS101 results from induction of progenitor cells in DNA synthesis (S-phase) and from the enhanced stimulation of CFU-S, not only toward proliferation but also toward CFU-S self-renewal.
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PMID:Mechanism of radioprotection conferred by the immunomodulator AS101. 841 51

Prostate cancer is the most common internal malignancy in men in the United States. Most cancers are diagnosed when they are locally advanced or metastatic and there is no effective treatment. In this study we evaluated the effectiveness of cytotoxic gene therapy in human PC-3 and DU145 prostate cancer cell lines and in a rodent cell line, RM-1, derived from the mouse prostate reconstitution model system. The cell lines were efficiently transduced in vitro by a replicative-defective recombinant adenovirus (ADV) carrying the herpes simplex virus thymidine kinase gene (HSV-tk). A virus titer-dependent sensitivity to ganciclovir (GCV) was observed. To determine a target therapeutic viral dose in vivo, subcutaneous tumors were generated by injection of RM-1 cells in syngeneic male hosts and injected with escalating doses of HSV-tk virus (5 x 10(7) to 1 x 10(9) pfu). The mice received GCV twice daily for 6 days and were sacrificed when tumor volumes exceeded 2.5 cm3 or when they appeared to be in distress. Because the two highest doses were equally as effective, further controlled studies were performed with the lower dose of 5 x 10(8) pfu with ADV/RSV-tk or a control virus containing the beta-galactosidase gene (ADV/RSV-beta-Gal) and treated with GCV or saline (PBS). The mean tumor volume in the treated animals was 16% that of control animals at 13 days. Histologically, treated tumors demonstrated necrosis and had a significantly higher apoptotic index. Survival data indicated that the treatment animals lived 7 days (21 in total) longer than the control animals, with 1 treatment animal being totally free of tumor. These results demonstrate that HSV-tk + GCV cytotoxic gene therapy can inhibit the growth of mouse and human prostate cancer cells in vitro and interrupt tumor growth of an aggressive mouse prostate cancer cell line in vivo.
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PMID:Prostate cancer gene therapy: herpes simplex virus thymidine kinase gene transduction followed by ganciclovir in mouse and human prostate cancer models. 880 Jul 46

Ovarian cancer is one of the significant and deadly disease. Since 1980 when cisplatin was introduced in the chemotherapy, about 30% of the patients with advanced disease have achieved 5-year survival. However, remaining patients have had progressive disease or recurrence after achieving NED. Forty-seven% of recurrent disease was discovered as distant metastasis, while at initial therapy. In the recurrent disease, distantly metastatic lesions were encountered more frequently than those in primary disease. In the recurrent tumor, expression of immunohistochemical markers of malignancy, such as p53 protein and CD44v6 antigen were increased. These clinical data suggest that recurrent ovarian cancer which are exposed to anticancer agents attain increased metastatic potential. In order to assure that anticancer agent contribute to this increment, an experimental system using two human ovarian cancer cell lines (HRA, KF) and nude mice in which cancer cells were exposed to cisplatin in vivo was introduced. Cancer cells exposed to cisplatin in vivo (treated cells) made spontaneously more metastatic nodules in the mouse lung than those exposed to PBS (untreated cells). This result suggest that cisplatin induce the increase of metastatic potential of cancer cells in vivo. Treated cells showed higher invasiveness compared with untreated cells when inoculated in the footpad. Three major factors which were generally proposed to be necessary for cancer cell to give rise to invasion, such as attachment to extracellular matrix, production of proteolytic enzyme, and cellular mobility. For all of these factors, treated cells were superior to untreated cells. These results obtained suggests that cisplatin could increase the metastatic potential of cancer by enhancing potential of invasion. To investigate the mechanism of this phenomenon from the standpoint of genetic mutation, clonal analysis of experimental cancer in vivo was performed using southern blot method. Cancer cells before inoculation to the mice consisted of multiple clones. In 5 week after inoculation, tumor was wholely occupied by only one clone which showed one band on the lane. At this point cisplatin were administered. In 6 week, new single clone appeared with different band pattern from that of the clone at the administration of cisplatin. Furthermore, the cisplatin-induced new clone metastasized to the lung, while no metastasis was observed in the mouse with PBS-treated tumor during the same period. These data suggest that increased metastatic potential after cisplatin treatment is due not to selection but to creation of highly metastatic clone caused by potential of genetic mutation of cisplatin. In conclusion, chemotherapeutic agent has a potential to create highly malignant cancer cells as well as a potential to kill cancer cells.
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PMID:[Alteration of metastatic potential of ovarian cancer in clinical course]. 880 28

We have examined the effect of synthetic low molecular weight glycoamine analogues on the metastasis of MDA-MB-435 human breast carcinoma xenografts growing in the mammary fat pads of nude mice. Initial in vitro screening of a panel of synthetic glycoamines was performed using a clonogenic growth assay in 0.9% agarose. Eight of nine compounds manifested a significant dose-dependent inhibition of colony formation by MDA-MB-435 cells in 0.9% agarose. The relative activity ranks of the compounds, based on ID50S independently determined for each synthetic glycoamine analogue, identified N-(1-deoxy-D-lactulos-1-yl)-L-leucine (Lac-L-Leu), N-(1-deoxy-D-fructos-1-yl)-D-leucine (Fru-D-Leu), N-(1-deoxy-D-fructos-1-yl)-L-phenylalanine, and N-(1-deoxy-D-fructos-1-yl)-L-leucine as the most effective inhibitors of colony formation. Two separate experimental treatment protocols were used to examine the effect of selected synthetic glycoamines on human breast cancer growth and metastasis in athymic nude mice. Group A mice were treated intraperitoneally daily from day 2 after injection of the breast cancer cells until the end of the experiment (17 weeks). In group B, the mice were untreated until the mean tumor diameter was 10 mm, at which time daily i.p. treatment began. After 7 days, the primary tumors were resected, and the mice were treated for an additional 4 weeks (a total of 5 weeks of treatment). The synthetic glycoamines did not have significant antitumor effects, and there was no difference in the tumor incidence or tumor growth rates in mice treated continuously with synthetic glycoamines or PBS. The significant antimetastatic activity of synthetic glycoamines was detected in both experimental treatment protocols. In mice continuously treated with synthetic glycoamines according to protocol A, the incidence of metastasis was decreased 4.6-fold (P = 0.014) and 2.7-fold (P = 0.031) in mice treated with Fru-D-Leu and Lac-L-Leu, respectively. In mice in protocol B, the incidence of pulmonary metastasis was decreased 1.9-fold (P = 0.069) and 2.5-fold (P = 0.042) in mice treated with Fru-D-Leu and Lac-L-Leu, respectively. Correspondingly, the average number of spontaneous pulmonary metastases was reduced from 37 in control mice to 0.2 (P = 0.005) and 0.9 (P < 0.02) in mice treated according to the protocol A with Fru-D-Leu and Lac-L-Leu, respectively. Treatment of mice with N-(1-deoxy-D-fructos-1-yl)-L-leucine did not have significant antimetastatic effects, and no reduction in metastasis incidence or number was noted in mice treated with this synthetic glycoamine analogue. The treated animals had no apparent toxicity from chronic daily injection (up to 17 weeks of treatment) of synthetic glycoamines, and no obvious pathology was noted in the histological slides of the livers, kidneys, or spleens of the treated mice. Therefore, we have identified two synthetic glycoamines (Fru-D-Leu and Lac-L-Leu) that were the effective inhibitors of spontaneous human breast cancer metastasis in nude mice. Potential mechanisms for antimetastatic activity of synthetic glycoamines may include the inhibition of beta-galectin-mediated homotypic cancer cell aggregation and induction of apoptosis in target cells.
Cancer Res 1996 Dec 01
PMID:Inhibition of human breast cancer metastasis in nude mice by synthetic glycoamines. 896 76

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