Adenovirus-mediated FIR demonstrated TP53-independent cell-killing effect and enhanced antitumor activity of carbon-ion beams.

Combination therapy of carbon-ion beam with the far upstream element-binding protein (FBP)-interacting repressor, FIR, which interferes with DNA damage repair proteins, was proposed as an approach for esophageal cancer treatment with low side effects regardless of TP53 status. In vivo therapeutic antitumor efficacy of replication-defective adenovirus (E1 and E3 deleted adenovirus serotype 5) encoding human FIR cDNA (Ad-FIR) was demonstrated in the tumor xenograft model of human esophageal squamous cancer cells, TE-2. Bleomycin (BLM) is an anticancer agent that introduces DNA breaks. The authors reported that Ad-FIR involved in the BLM-induced DNA damage repair response and thus applicable for other DNA damaging agents. To examine the effect of Ad-FIR on DNA damage repair, BLM, X-ray and carbon-ion irradiation were used as DNA damaging agents. The biological effects of high linear energy transfer (LET) radiotherapy used with carbon-ion irradiation are more expansive than low-LET conventional radiotherapy, such as X-rays or γ rays. High LET radiotherapy is suitable for the local control of tumors because of its high relative biological effectiveness. Ad-FIR enhanced BLM-induced DNA damage indicated by γH2AX in vitro. BLM treatment increased endogenous nuclear FIR expression in TE-2 cells, and P27Kip1 expression was suppressed by TP53 siRNA and BLM treatment. Further, Ad-FIRΔexon2, a dominant-negative form of FIR that lacks exon2 transcriptional repression domain, decreased Ku86 expression. The combination of Ad-FIR and BLM in TP53 siRNA increased DNA damage. Additionally, Ad-FIR showed synergistic cell toxicity with X-ray in vitro and significantly increased the antitumor efficacy of carbon-ion irradiation in the xenograft mouse model of TE-2 cells (P=0.03, Mann-Whitney's U-test) and was synergistic with the sensitization enhancement ratio (SER) value of 1.15. Therefore, Ad-FIR increased the cell-killing activity of the carbon-ion beam that avoids late-phase severe adverse effects independently of the TP53 status in vitro. Our findings indicated the feasibility of the combination of Ad-FIR with DNA damaging agents for future esophageal cancer treatment.

Enhancement of chemosensitivity toward peplomycin by calpastatin-stabilized NF-kappaB p65 in esophageal carcinoma cells: possible involvement of Fas/Fas-L synergism.

Chemosensitivity to anticancer drugs was compared between two human esophageal carcinoma cell lines, T.Tn and YES-6 cells. T.Tn cells were more resistant than YES-6 cells to peplomycin (PEP) but not to the other anticancer drugs such as camptothecin, mitomycin C and cytosine arabinoside. Western blot analysis showed higher expression levels of m-calpain and activated mu-calpain in T.Tn cells than in YES-6 cells. On the other hand, YES-6 cells showed a high expression level of calpastatin, which is a calpain-specific endogenous inhibitor. To investigate whether calpain activity was involved in the chemosensitivity, T.Tn cells were transfected with calpastatin cDNA in an inducible expression vector. The induction of calpastatin was accompanied by increased chemosensitivity to PEP. The increases in calpastatin levels were followed by serial increases in the expression levels of NF-kappaB p65 and Fas. Since purified m- or mu-calpain degraded NF-kappaB p65 in vitro, it is possible that calpastatin suppressed calpain-mediated degradation of NF-kappaB p65. Fas ligand (Fas-L) protein levels increased after treatment of the parental T.Tn and calpastatin-transfected cells with PEP, suggesting the synergism between calpastatin-induced Fas and PEP-induced Fas-L. These results suggest that calpain/calpastatin expression levels are effective markers for predicting the sensitivity of human esophageal carcinoma cells to PEP.

Hypermutable change of human UV(r)-1 cells by p53 overexpression.

The p53 protein has been reported to regulate cellular responses to genetic stress such as far-ultraviolet light (UV), protecting human cells from mutation. Levels of p53 protein in hypermutable RSa cells were found here to increase soon after UV irradiation, while those in UV(r)-1 cells, a hypomutable variant of RSa cells, showed a delayed increase. Three cell lines overexpressing wild-type p53 in UV(r)-1 cells exhibited higher sensitivity to UV mutagenicity than did control U-V-7 cells transfected with vector alone, assessed using the ouabain-resistance phenotypic mutation test and identification of K-ras codon 12 base substitution mutation. On the other hand, U-V-7 cells showed UV-induced elevation of antipain-sensitive protease activity, but p53 transfectants did not. Moreover, antipain treatment to U-V-7 cells was increased susceptibility to UV mutagenicity. Thus, p53 protein overproduction may sensitize human cells, at least those tested, to UV mutagenicity, in association with inhibition of protease activity.

Studies on p53 and Bax protein expression in Cockayne syndrome cells after UV irradiation and interferon-beta treatment.

Human interferon (HuIFN) has a protective effect against ultraviolet (UV)-induced killing of Cockayne syndrome (CS) and xeroderma pigmentosum (XP) cells. Irradiation with ultraviolet (UV) resulted in nuclear accumulation of p53 in normal human fibroblast cells, and this accumulation was suppressed by treatment with HuIFN-beta. On the other hand, a large amount of p53 was found in both nuclear and cytoplasmic fractions of one SV40-transformed XP and two SV40-transformed CS cell strains irrespective of UV irradiation. Treatment with HuIFN-beta reduced the level of pro-apoptotic Bax protein without suppression of nuclear accumulation of p53 in the CS cells but not in the XP cells. These findings suggest that there are different mechanisms of UV-refractoriness caused by HuIFN-beta in UV-sensitive CS and XP cells.

Preclinical study of adenoviral p53 gene therapy for esophageal cancer.

An alteration of the p53 gene function is a major factor in the development of esophageal cancer. Recently, p53 gene therapy has been applied for clinical studies in lung cancer and head and neck cancer. However, no preclinical studies have yet demonstrated an anticancer effect of adenoviral-mediated wild-type p53 gene therapy on esophageal cancer. We herein evaluated the effect of p53 adenoviral gene therapy on human esophageal squamous cell carcinoma to test the ability of clinical application. A normal esophageal epithelial cell line (EN53F) and two human esophageal cancer cell lines (ECGI-10 and T.Tn) with a p53 alteration were used. The transduction efficiency, p53 protein expression, p21 protein expression, the induction of apoptosis, and growth suppression were assessed by using the recombinant adenoviral vector Ad5CMV-p53. The transduction efficiency was 60%-80% at 100 plaque-forming units (PFU)/cell and 80%-100% at 300PFU/cell. A significant growth suppression following an Ad5CMV-p53 infection was observed in both cancer cell lines. A Western blot analysis confirmed the presence of both exogenous p53 protein expression and p21 protein induction. Apoptotic cell death was observed with TUNEL staining. T.Tn xenografts in nude mice transduced with Ad5CMV-p53 demonstrated significant growth suppression. These data suggest that Ad5CMV-p53 may thus be a potentially effective therapeutic agent for locally advanced esophageal cancer.

Specific recognition of cytosolic thymidine kinase in the human lung tumor by monoclonal antibodies raised against recombinant human thymidine kinase.

Anti-TK monoclonal antibodies (mAbs) were raised against recombinant human cytosolic thymidine kinase (rhTK) and characterized by Western immunoblotting, enzyme-linked immunosorbent assay (ELISA) and immunostaining of tumor cells. Twenty-three clones of TK mAbs were characterized to recognize specifically not only rhTK produced by Escherichia coli but also TK subunit of 25 kDa in human lung cancer. The anti-TK mAbs reacted specifically with cytosolic TK but not with mitochondrial TK. Only one clone of the mAbs inhibited the catalytic activity of TK. By solid phase sandwich enzyme immunoassay using these mAbs, we could quantitate the cytosolic TK content in tissues. Immunohistochemical staining analysis using one of the TK mAbs showed that human lung adenocarcinoma and squamous cell carcinoma exhibited much higher staining intensity than stromal cells. These mAbs are useful for biochemical studies on the regulation of human TK in proliferating cells such as tumor cells and for diagnosis of highly proliferating tumors.

Cathepsin L activity and its inhibitor in human otitis media.

OBJECTIVE: We examined cathepsin L activity, expression of cystatin A, and copper- and zinc-containing superoxide dismutase in human chronic otitis media. The relationships of our findings to clinical findings (e.g., grade of bone destruction) were also studied. DESIGN: Retrospective basic and clinical study. SETTING: Department of Otolaryngology and First Department of Biochemistry, Kinki University School of Medicine, Osaka, Japan. METHOD: The human middle ear tissues evaluated in this study were surgically obtained from seven patients with cholesteatoma epithelium, three patients with granulation tissues in cholesteatoma, three patients with granulation tissues in noncholesteatoma, and three patients with intact mucous membrane of the middle ear. MAIN OUTCOME MEASURES: Cathepsin L activities in cholesteatoma epithelium, granulation tissues in cholesteatoma, or granulation tissues in noncholesteatoma were measured using Barrett's method. Cystatin A expressions were observed by Western blot analysis. Copper- and zinc-containing superoxide dismutase in cholesteatoma was examined immunohistochemically. RESULTS: Mean cathepsin L activity was higher in diseased tissues than in intact mucous membranes of the middle ear. Granulation tissues with high cathepsin L activity resulted in extensive bone destruction in both cholesteatomas and noncholesteatomas of the middle ear. All cases with intact mucous membrane of the middle ear exhibited no expression of cystatin A. Seven of 10 cases with diseased tissues expressed cystatin A in cholesteatoma epithelium, granulation tissues in cholesteatoma, or granulation tissues in noncholesteatoma. No relationships were found between cystatin A expression and grade of cathepsin L activity. Copper- and zinc-containing superoxide dismutase was more strongly positive in cholesteatoma epithelium regions than in granulation tissues. CONCLUSION: These results suggest that copper- and zinc-containing superoxide dismutase in cholesteatoma epithelium prevents complications by suppressing cathepsin L activity.

Increase in ultraviolet sensitivity by overexpression of calpastatin in ultraviolet-resistant UVr-1 cells derived from ultraviolet-sensitive human RSa cells.

Human RSa cells are highly sensitive to apoptotic-like cell death by ultraviolet irradiation (UV) while UVr-1 cells are their variant with an increased resistance to UV. Three days after UV at 10 J/m2, the viability of RSa cells was approximately 17% while that of UVr-1 cells was 65%. This different survival might reflect apoptotic cell death since apoptosis-specific DNA ladder was more clearly observed in RSa cells than in UVr-1 cells after UV. Addition of ALLN/calpain inhibitor I to the culture medium after UV resulted in similar survival (14 - 18%) between RSa and UVr-1 cells. Immunoblot analysis showed down-regulation of protein kinase CTheta, Src, Bax and mu-calpain after UV was more prominent in UVr-1 than in RSa cells. Activated mu-calpain appeared within 1 h post-UV only in UVr-1 cells. The expression of calpastatin, a specific endogenous inhibitor of calpain, was higher in RSa than in UVr-1 cells. To further examine the role of calpain in UV-induced cell death, cDNA of human calpastatin was transfected into UVr-1 cells. The results showed that overexpression of calpastatin suppressed down-regulation of Src, mu-calpain and Bax. Concomitantly, colony survival after UV was reduced in calpastatin-transfected cells as compared to vector control cells. Our results suggest that activation of calpain might account for, at least in part, the lower susceptibility to UV-induced cell death in UVr-1 cells.

Prevention of v-Ha-Ras-dependent apoptosis by PDGF coordinates in phosphorylation of ERK and Akt.

In some v-Ha-ras-transfected cell lines, serum deprivation results in apoptosis. Clarification of the molecular mechanisms by which oncogenic Ras controls susceptibility to apoptosis may assist in the development of effective therapies against human cancer with oncogenic ras gene. In this report, we established a v-Ha-ras-transfected human fibroblast clone, R1. In R1 cells, induction of v-Ha-Ras enhanced susceptibility to cell death under serum-deprived conditions. Ladders of cellular DNA were identified only when oncogenic ras was induced under serum-deprived conditions. Platelet-derived growth factor (PDGF) precluded DNA fragmentation of serum-deprived v-Ha-ras-transformed cells. Under serum-depleted conditions, the amounts of activated ERK and Akt decreased as compared with those under serum-containing conditions. The decreased levels of activated ERK and Akt were restored by the addition of PDGF. Inhibition of phosphorylated-ERK and Akt resulted in renewed susceptibility to cell death. These results indicate that failure of signal transduction of oncogenic Ras by the deficiency of growth factors such as PDGF causes v-Ha-Ras-dependent apoptosis.

Regulation of the activity and polymerization status of recombinant human cytosolic thymidine kinase by thiols and ATP.

The cDNA clone encoding human thymidine kinase (hTK), was expressed in E. coli using a prokaryotic expression vector, pKK 223-3. The kinetics of the recombinant hTK (rhTK) were similar to those of cytosolic TK but not of mitochondrial TK. rhTK was highly purified in the presence of either ATP or dithiothreitol (DTT). The specific activity of rhTK purified in the presence of ATP [rhTK(ATP)] was lower than that of rhTK purified in the presence of DTT [rhTK(DTT)]. Activity of the purified rhTK(ATP) was enhanced by addition of thiols including DTT, cysteine, homocysteine and beta-mercaptoethanol but inhibited by various sulfhydryl reagents such as 5,5'-dithio-bis(2-nitrobenzoic acid). Hence, it was suggested that rhTK is a thiol-type enzyme. Apparent Mr of purified rhTK(ATP) was 100 kDa, which corresponds to the size of a tetramer (25 kDa subunit), while that of purified rhTK(DTT) was 50 kDa, the size of a dimer. The tetramer form of rhTK(ATP) was converted to the dimer by replacement of ATP by DTT. On the other hand, the dimer form of rhTK(DTT) was converted to the tetramer by addition of ATP. Thus, the catalytic activity of human cytosolic TK might be regulated by thiols as well as ATP via its polymerization status.

Suppression of okadaic acid-induced apoptosis by overexpression of calpastatin in human UV(r)-1 cells.

Proteolytic systems have various involvements in apoptotic pathways. To understand the role of calpain in apoptosis, calpastatin, a specific inhibitor of calpain, was overexpressed in human UV(r)-1 fibroblasts by transfection of its cDNA. The elevated expression of calpastatin resulted in decreased survival in the presence of okadaic acid (OA) but in no apparent alteration in the sensitivity toward other drugs such as 5-fluorouracil, mitomycin C and methotrexate. After treatment with OA, a typical apoptotic DNA ladder was observed in control vector-transfected cells but not in calpastatin-transfected cells. This indicates that OA-induced apoptosis was suppressed by overexpression of calpastatin. Further immunoblot analysis showed that the OA-induced hyperphosphorylation of c-Jun was inhibited in calpastatin-transfected cells. This might be involved in the resistance to OA-induced cell death in calpastatin-overproducing cells.

Comparative analysis of HPLC profile of cytosolic thymidine kinase activity between hepatoma and regenerating liver in rat with reference to phosphorylation.

Thymidine kinase (TK) activity in rat hepatoma JB1 and AH136B was mainly due to cytosolic TK and was much higher than that in rat regenerating liver. Two forms of cytosolic TK, designated as TK-I and TK-II, were revealed in addition to mitochondrial TK in anion-exchange high performance liquid chromatography (HPLC) of the enzyme extract from hepatoma JB1. During incubation of the enzyme extract at 20 degrees C in the presence of phosphatase inhibitor NaF, TK-II activity remained while TK-I activity almost disappeared. Thus, TK-II appeared to be more stable than TK-I. In Western blot analysis, TK-II was much more phosphorylated and exhibiting higher specific activity than TK-I. Meanwhile, regenerating liver derived from the rat 24 h after partial hepatectomy showed only TK-I activity, which completely disappeared after incubation at 20 degrees C even in the presence of NaF. Consequently, the presence of TK-II might account for the higher TK activity in hepatomas than in regenerating liver.

Stimulation of ultraviolet-induced apoptosis of human fibroblast UVr-1 cells by tyrosine kinase inhibitors.

Damnacanthal is an anthraquinone compound isolated from the root of Morinda citrifolia and was reported to have a potent inhibitory activity towards tyrosine kinases such as Lck, Src, Lyn and EGF receptor. In the present study, we have examined the effects of damnacanthal on ultraviolet ray-induced apoptosis in ultraviolet-resistant human UVr-1 cells. When the cells were treated with damnacanthal prior to ultraviolet irradiation, DNA fragmentation was more pronounced as compared to the case of ultraviolet irradiation alone. The other tyrosine kinase inhibitors, herbimycin A and genistein, also caused similar effects on ultraviolet-induced apoptosis but to a lesser extent. Serine/threonine kinase inhibitors, K252a, staurosporine and GF109203X, rather suppressed the ultraviolet-induced DNA cleavage. Immunoblot analysis showed that pretreatment with damnacanthal followed by ultraviolet irradiation increased the levels of phosphorylated extracellular signal-regulated kinases and stress-activated protein kinases. However, the other tyrosine kinase inhibitors did not increase the phosphorylation of extracellular signal-regulated kinases but stimulated phosphorylation of stress-activated protein kinases. Consequently, the ultraviolet-induced concurrent increase in both phosphorylated extracellular signal-regulated kinases and stress-activated protein kinases after pretreatment with damnacanthal might be characteristically related to the stimulatory effect of damnacanthal on ultraviolet-induced apoptosis.

Differential sensitivity to mitomycin C between human RSa cell line and its derivative UVr-1.

To study cellular signaling factors responsible for the susceptibility of human cells to cell proliferation inhibition by anticancer drugs, human RSa cell line and its ultraviolet-resistant derivative UVr-1 were compared with respect to their sensitivity to the anti-proliferative effects of mitomycin C (MMC), 5-fluorouracil, nimustine (ACNU), cisplatin, pirarubicin (THP), bleomycin, methotrexate and ifosfamide. RSa cells were found to be highly sensitive to MMC by MTT assay compared to UVr-1 cells. The half maximum inhibition concentration of MMC against proliferation of RSa cells was approximately 100 ng/ml while that of UVr-1 cells was greater than 1 microgram/ml. There was no significant difference observed between RSa and UVr-1 cells in the sensitivity to other seven drugs examined. Analysis by flow cytometry revealed that the cell cycle of RSa was completely blocked at the G2/M phase 40 h after treatment with MMC at a concentration of 100 ng/ml whereas a substantial proportion of UVr-1 cells was not arrested at that phase even in the presence of MMC. Further immunoblot analysis on MMC-induced signal transduction showed that the amounts of phosphorylated ERK MAP kinases were increased in UVr-1 cells to a greater extent than those in RSa cells after treatment with MMC for longer than 2 h. However, the increase in p21Cip1 was observed in RSa cells 1 h after addition of MMC but was not observed in UVr-1 cells. These distinct signaling pathways might account for the differences in sensitivity to MMC between RSa and UVr-1 cells.

Down-regulation of protein kinase C alpha and gamma and enhanced TPA-induced neurite formation in DAN-transfected neuroblastoma cells.

DAN gene was first isolated by differential screening between rat 3Y1 and v-src-transformed 3Y1 cells and showed a tumor-suppressive activity toward v-src-transformed 3Y1 cells. When DAN-transfected neuroblastoma cells were treated with a tumor promoter phorbol ester, TPA, neurite-like processes appeared within 2 h whereas no apparent change was observed in the parent and vector-transfected cells up to 8 h. This suggests some difference in TPA-receptor, protein kinase C (PKC), between DAN-transfectants and the control cells. DAN-transfected SH-SY5Y cells showed complete loss in PKCalpha and a large decrease in PKCgamma. Similar down-regulation in PKCalpha and PKCgamma was also observed in DAN-transfected Ha-ras-transformed NIH 3T3 cells. The decreased level of PKCalpha was partially recovered after treatment with a calpain inhibitor, ZLLH. A 150-kDa proteolytic product of a calpain-specific substrate, non-erythroid alpha-spectrin, was detectable in DAN-transfected SH-SY5Y cells but not in the parent or vector-transfected control cells. This suggests that DAN-transfected cells contain activated calpain which may cause down-regulation of PKC and hence induce the altered TPA response.

Isolation of a variant which has reduced Src activity from SH-SY5Y neuroblastoma cells.

SY-HMs was obtained from SH-SY5Y neuroblastoma cell line transfected with an expression vector, pRc/CMV. SY-HMs showed much lower viability than the parent cells when cultured in low-serum medium. Drug sensitivity examined by MTT method revealed that this clone was highly sensitive to herbimycin A, a Src kinase inhibitor. Consistently with this, tyrosine phosphorylation of Src in this clone was profoundly reduced compared to that in the parent cells, suggesting that the activity of Src is seriously impaired in SY-HMs. It is thus possible that active Src is necessary for the survival of SH-SY5Y cells in low-serum medium. SY-HMs would be useful for further investigation of the role of Src in neuroblastoma cells.

Activation of MAP kinases by 5-fluorouracil in a 5-fluorouracil-resistant variant human cell line derived from a KT breast cancer cell line.

To investigate the mechanism of the acquired resistance of human cells to an anticancer drug, 5-fluorouracil (5-FU), a drug-resistant clone, KTFU-4, was isolated from a human KT breast carcinoma cell line, treated with ethylmethanesulfonate and then with 5-FU. The viability of the KT cells, analyzed using an MTT assay, was suppressed by 5-FU in a dose-dependent manner, while that of the KTFU-4 cells was enhanced by it at concentrations between 0.1 and 1.0 microgram/ml. Treatment of KTFU-4 cells with 5-FU resulted in increased amounts of activated phosphorylated ERK1/2 and p38 MAP kinases, but not in the parent KT cells. It is thus possible that 5-FU stimulated the proliferation of KTFU-4 cells by activating a signal transduction pathway leading to cell growth.

Suppression of transformed phenotypes of Ha-ras-transformed NIH3T3 cells by caspase-2.

Biological effects of caspases-1, -2 and -3 have been investigated by transfection of these human cDNAs into activated c-Ha-ras-transformed NIH3T3 mouse fibroblasts. High expression of caspase-2 but not caspase-1 or -3 induced flat revertant cells which lost the ability of anchorage-independent growth. Notably, these revertants contained a reduced amount of Ras protein. These suggest that caspase-2 exhibited a tumor-suppressive activity by affecting the expression level of Ras protein.

Potent growth-suppressive activity of a serine protease inhibitor, ONO-3403, toward malignant human neuroblastoma cell lines.

FOY-305 is a synthetic serine protease inhibitor and ONO-3403 and FO-349 are its derivatives. The effects of these compounds on the proliferation of 13 human neuroblastoma cell lines were investigated in vitro by MTT colorimetric assay. The half maximum inhibition concentrations of ONO-3403 varied between 22 and 90 microg/ml while those of FOY-305 and FO-349 were higher than 100 microg/ml. ONO-3403 showed higher growth-inhibitory activity for N-myc-amplified neuroblastomas as compared with that for non-amplified cells. Since N-myc amplification in neuroblastomas is well correlated with a poor prognosis, ONO-3403 could be an effective anticancer drug for malignant neuroblastomas.

Enhancement of chemosensitivity toward anticancer drugs by high expression of caspase-1 in NIH 3T3 cells.

It has been well documented that caspase-1 (interleukin-1beta-converting enzyme, ICE) and its related cysteine proteinases such as caspase-3 (CPP32, apopain) and caspase-2 (ICH-1L) play important roles in apoptosis. In the present study, these genes were inserted into an inducible eukaryotic expression vector, pMSG, and transfected into NIH 3T3 mouse fibroblasts. The expression of caspases-1 and -3 was effectively induced by treatment with dexamethasone (Dex). The expression of caspase-2 was elevated in the transfected cells without treatment with Dex but was not further stimulated by Dex. High expression of these proteases alone induced neither apoptosis-like cell death nor any morphological change. However, the expression of caspase-1 but not of caspase-2 or -3 enhanced chemosensitivity toward cytotoxic anticancer drugs such as aclarubicin, epirubicin, adriamycin, nimustine and ifosfamide. It is thus concluded that caspase-1 mediates cytotoxic effects of these drugs.