Culturing Chinese hamster ovary cells on cyclo olefin polymer triggers epithelial-mesenchymal transition and spheroid formation, which increases the foreign gene expression driven by the Moloney murine leukemia virus long terminal repeat promoter

Chinese hamster ovary (CHO) cells are frequently used for recombinant protein production (RPP) as a host. While the RPP has been proven successful, there is still a compelling need for further improvement. Cyclo olefin polymer (COP) is a plastic material widely utilized due to its properties including its low protein absorption. We applied this as a raw material for RPP cell culture to see if the COP is suitable. A recombinant CHO cell line expressing the human erythropoietin (hEPO) gene under the control of the Moloney murine leukemia virus-long terminal repeat (MMLV-LTR) was established. When the cells were cultured in a dish made from COP, the cells attached to the bottom, and then started to float and form spheroids. RNASeq data analysis suggested the epithelial-mesenchymal transition (EMT) was triggered with receptor tyrosine kinase activation shortly after cultivation. It coincided with the hEPO transcription increase. After the cell floating, though EMT marker gene expression subsided, a hEPO expression increase sustained. When fibronectin was applied to COP dish surface, the cell floating was suppressed and hEPO expression decreased. We then treated cells with MβCD, a drug that destroys the lipid raft, eliminating molecules in the raft. This facilitated cell floating and spheroid formation coincided with hEPO expression enhancement. These results suggest interactions between a cell and COP surface might trigger the EMT and the subsequent event, both of which activated the MMLV-LTR promoter. Thus, employing COP for culturing cells, a potent RPP system could be established with its advantage for efficient protein purification.

Real-time visualization of intratumoral necrosis using split-luciferase reconstitution by protein trans-splicing

Necrosis, a form of cell death, occurs not only with the development of various diseases but also with a tumor tissue response to cancer treatment. Therefore, pursuing progress for cancer therapy through induction of necrosis may be one of the most effective approaches for cancer eradication. We herein describe the development of a real-time imaging system to visualize intratumoral necrosis. The system is composed of two types of cells expressing either one of two necrosis imaging reporters that consist of a DnaE intein sequence linking to one of two split-luciferase fragments. When necrosis occurs in a tumor composed of both of the cells, the two types of leaked reporters can reconstitute the enzymatic activity as a result of protein trans-splicing and thereby emit bioluminescence in the presence of the substrate. This system, which was constructed with shrimp-derived luciferase, allowed in vitro imaging of necrosis. We further confirmed real-time imaging of intratumoral necrosis caused by physical or chemical tissue disruption, validating its application in in vivo necrosis imaging. Thus, the constructed imaging system could be a powerful tool for the optimization of the therapeutic condition for cancer therapy and for the evaluation of novel anticancer drugs targeting necrosis.

Selective enhancement of hypoxic cell killing by tempol-regulated suicide gene expression

The presence of hypoxic regions within solid tumors is caused by an imbalance between cell proliferation and angiogenesis. Such regions may facilitate the onset of recurrence after radiation therapy and chemotherapy, as hypoxic cells show resistance to these treatments. We found that tempol, a nitroxide, strongly induces the accumulation of hypoxia-inducible factor (HIF)-1α, particularly under conditions of hypoxia. We, therefore, evaluated whether tempol enhances the gene expression via HIF-1α, potentially leading to various applications for cancer gene therapy targeting hypoxic cells. Consequently, following treatment with tempol under hypoxia, the luciferase (Luc) activity in the cells transfected with the plasmid containing the luc gene with the oxygen-dependent degradation domain and a promoter composed of hypoxia-responsive elements increased up to approximately 10-fold compared to that observed in cells treated identically with the exception of tempol. The plasmid constructed by replacing the luc gene with the fcy::fur fusion gene as a suicide gene, strongly induced the accumulation of the Fcy::Fur fusion protein, only when incubated in the presence of the hypoxic mimic CoCl₂ and tempol. The transfected cells were successfully killed with the addition of 5-fluorocytosine to the cell culture according to the fcy::fur fusion gene expression. As similar but lesser enhancement of the Luc activity was also observed in solid tumor tissues in nude mice, this strategy may be applied for hypoxic cancer eradication.

Relative biological effectiveness of therapeutic proton beams for HSG cells at Japanese proton therapy facilities

We investigated the relative biological effectiveness (RBE) of therapeutic proton beams at six proton facilities in Japan with respect to cell lethality of HSG cells. The RBE of treatments could be determined from experimental data. For this purpose, we used a cell survival assay to compare the cell-killing efficiency of proton beams. Among the five linear accelerator (LINAC) X-ray machines at 4 or 6 MeV that were used as reference beams, there was only a small variation (coefficient of variation CV = 3.1% at D10) in biological effectiveness. The averaged value of D10 for the proton beams at the middle position of the spread-out Bragg peak (SOBP) was 4.98. These values showed good agreement, with a CV of 4.3% among the facilities. Thus, the average RBE10 (RBE at the D10 level) at the middle position of the SOBP beam for six facilities in Japan was 1.05 with a CV of 2.8%.

Regulation of gene expression in human prostate cancer cells with artificially constructed promoters that are activated in response to ultrasound stimulation

We chose promoters responsive to sonication in LNCap cells, a prostate cancer cell line, out of a library composed of DNA fragments constructed by linking the TATA box sequence to randomly combined cis-acting elements of transcription factors activated in response to radiation in prostate cancer cells. When a plasmid containing the luciferase gene under control of a promoter was transfected into LNCap cells and sonicated with 1 MHz ultrasound at 0.5 W/cm(2), 10% DF for 60s, 13 promoters showed more than 10-fold enhancement compared with their counterparts without sonication 12h after sonication. As to their responsiveness to sonication, the best two promoters were then compared to clone 880-8, a derivative from clone 880 that was created by random introduction of point mutations and was shown to have an improved response to X-ray irradiation. We then took clone 880-8 for further analyses since it showed the highest enhancement to sonication, though not statistically significant from the others. Next, we employed a retrovirus vector and stably introduced the luciferase gene under control of clone 880-8 into LNCap cells to establish a cell line. When the cell line was sonicated with 1 MHz ultrasound at 0.5 W/cm(2), 10% DF for 60s, luciferase expression was enhanced up to 14.8-fold 12h after sonication. We then established another cell line by replacing the luciferase gene with the fcy::fur gene, a suicide gene, and when the cell line was sonicated with 1 MHz ultrasound at 0.5 W/cm(2), 10% DF for 60s, expression of the gene was enhanced, showing the maximum expression 12-24h after sonication. When the cells were incubated in medium containing 5-fluorocytosine, cell survival ratio decreased dose dependently with 5-fluorocytosine only after sonication treatment, suggesting this promoter could be utilized for gene expression control with ultrasound.

Development of a therapeutically important radiation induced promoter

Radio-genetic therapy is a combination of radiation therapy and gene therapy that may solve some of the problems associated with conventional radiotherapy. A promoter responsive to radiation was obtained from a promoter library composed of DNA fragments created by linking the TATA box signal to randomly combined binding sequences of transcription factors that are reactive to radiation. Each promoter connected to the luciferase gene, was evaluated by luciferase expression enhancement in transfected cells after X-ray irradiation. The reactivity of the best promoter was improved by the random introduction of point mutations and the resultant promoter showed more than a 20-fold enhancement of the luciferase expression after X-ray irradiation at 10 Gy. The expression of downstream genes was also enhanced in stably transfected cells not only by X-rays but also by proton beam irradiation; and either enhancement was attenuated when an anti-oxidant was added, thus suggesting the involvement of oxidative stress in the promoter activation. Constructed promoters were also activated in tumors grown in mice. In addition, cell killing with the fcy::fur gene (a suicide gene converting 5-fluorocytosin to highly toxic 5-fluorouracil) increased dose-dependently with 5-fluorocytosin only after X-ray irradiation in vitro. These results suggest that promoters obtained through this method could be used for possible clinical applications.

Stimulatory effect of α-synuclein on the tau-phosphorylation by GSK-3β

Hyperphosphorylation of tau protein (tau) causes neurodegenerative diseases such as Alzheimer's disease (AD). Recent studies of the physiological correlation between tau and α-synuclein (α-SN) have demonstrated that: (a) phosphorylated tau is also present in Lewy bodies, which are cytoplasmic inclusions formed by abnormal aggregation of α-SN; and (b) the neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) increases the phosphorylation of tau as well as the protein level of α-SN in cultured neuronal cells, and also in mice. However, the molecular mechanism responsible for the α-SN-mediated hyperphosphorylation of tau remains to be elucidated. In this in vitro study, we found that: (a) α-SN directly stimulates the phosphorylation of tau by glycogen synthase kinase-3β (GSK-3β), (b) α-SN forms a heterotrimeric complex with tau and GSK-3β, and (c) the nonamyloid beta component (NAC) domain and an acidic region of α-SN are responsible for the stimulation of GSK-3β-mediated tau phosphorylation. Thus, it is concluded that α-SN functions as a connecting mediator for tau and GSK-3β, resulting in GSK-3β-mediated tau phosphorylation. Because the expression of α-SN is promoted by oxidative stress, the accumulation of α-SN induced by such stress may directly induce the hyperphosphorylation of tau by GSK-3β. Furthermore, we found that heat shock protein 70 (Hsp70) suppresses the α-SN-induced phosphorylation of tau by GSK-3β through its direct binding to α-SN, suggesting that Hsp70 acts as a physiological suppressor of α-SN-mediated tau hyperphosphorylation. These results suggest that the cellular level of Hsp70 may be a novel therapeutic target to counteract α-SN-mediated tau phosphorylation in the initial stage of neurodegenerative disease.

Enhancement of artificial promoter activity by ultrasound-induced oxidative stress

We previously developed artificial promoters that were activated in response to X-ray irradiation. Sonication with 1.0MHz ultrasound that causes intracellular oxidative stress was found to activate some of these promoters though to lesser degrees. The most sensitive one among these promoters showed intensity- and duration-dependent activations by sonication. In addition, its activation by sonication was attenuated when N-acetyl cysteine was present, suggesting the involvement of intracellular oxidative stress in the activation mechanism. Improved promoters for sensitivity to X-ray irradiation were also found more sensitive to sonication. The most improved one showed 6.0 fold enhancement after sonication with 1.0MHz ultrasound at 1.0W/cm2 for 60s. This enhancement was also attenuated with the presence of N-acetyl cysteine. When stably transfected HeLa cells with the most sensitive promoter were transplanted on to mice and sonicated, luciferase activity by the promoter increased to 1.35 fold in average though it was not statistically significant compared to control. Although gene regulation in vivo by sonication was not clear, this is the first report on artificially constructed promoters responsive to ultrasound.

Identification of a cis-acting element responsive to ultrasound in the 5'-flanking region of the human heme oxygenase-1 gene

We previously found that the heme oxygenase-1 gene (hmox-1) was the most upregulated gene among 9,182 genes in human lymphoma U937 cells exposed to a 1-MHz continuous ultrasound using the cDNA microarray technique. However, little is known about the molecular mechanisms of the induction of hmox-1 expression by ultrasound. We investigated the mechanism using human prostate cancer DU145 cells in which expression of hmox-1 increased with sonication in a time and an intensity-dependent manner. When N-acetyl-L-cysteine or glutathione-monoethyl ester, a potent antioxidant, was added to cell culture, hmox-1 upregulation was attenuated, suggesting that oxidative stress caused by sonication is involved in this process. To identify cis-acting elements required for the ultrasound-mediated induction, we carried out transient expression assays with plasmids carrying the luciferase gene under control of deletion mutants of the 5'-flanking region of hmox-1. The results revealed that the upregulations by sonication were observed with deletion mutants carrying the E1 or E2 enhancer of the 5'-flanking region, suggesting stress-responsive elements (StRE) were involved in the induction because either enhancer contains a number of the element. Indeed, site-directed mutations within StRE decreased the reactivity of deletion mutants to sonication. A transcription factor NF-E2-related Factor 2 that binds to StRE would therefore be activated by oxidative stress induced by sonication.

Construction of strong mammalian promoters by random cis-acting element elongation

Synthetic oligonucleotides containing one of four kinds of cis-acting elements, binding sites for activating protein-1 (AP-1), nuclear factor κB (NF-κB), CArG binding factor A (CBF-A), and nuclear factor Y (NF-Y), were randomly ligated to construct DNA fragments. These fragments were inserted into the SalI site of a promoter probe vector, pGL3-TATASal, which is located immediately upstream of the TATA box sequence of the human heme oxygenase 1 gene and linked to the luciferase gene to construct 11 plasmid vectors. When these vectors were introduced into PC-3 cells of human prostate cancer, 6 out of the 11 transfectants showed a significantly higher luciferase activity than pGL3-TATASal. The two strongest promoters (clone 6 and clone 11) were investigated further. Clone 6 turned out to be the strongest, showing a 3.0-and 8.4-fold activity in comparison to the two frequently used promoters—the cytomegalovirus (CMV) immediate early promoter and the simian virus 40 (SV40) early promoter, respectively. Clone 11 was less active than clone 6, but still showed higher activity than the two promoters. When the plasmids were introduced into nine other cell lines, their activities varied but were still comparable to the two promoters. These results indicate that the method used here is simple and efficient for constructing strong promoters that are potentially useful for vectors in either gene therapy or recombinant vaccine.

Biological intercomparison using gut crypt survivals for proton and carbon-ion beams

Charged particle therapy depends on biological information for the dose prescription. Relative biological effectiveness or RBE for this requirement could basically be provided by experimental data. As RBE values of protons and carbon ions depend on several factors such as cell/tissue type, biological endpoint, dose and fractionation schedule, a single RBE value could not deal with all different radiosensitivities. However, any biological model with accurate reproducibility is useful for comparing biological effectiveness between different facilities. We used mouse gut crypt survivals as endpoint, and compared the cell killing efficiency of proton beams at three Japanese facilities. Three Linac X-ray machines with 4 and 6 MeV were used as reference beams, and there was only a small variation (coefficient of variance < 2%) in biological effectiveness among them. The RBE values of protons relative to Linac X-rays ranged from 1.0 to 1.11 at the middle of a 6-cm SOBP (spread-out Bragg peak) and from 0.96 to 1.01 at the entrance plateau. The coefficient of variance for protons ranged between 4.0 and 5.1%. The biological comparison of carbon ions showed fairly good agreement in that the difference in biological effectiveness between NIRS/HIMAC and GSI/SIS was 1% for three positions within the 6-cm SOBP. The coefficient of variance was < 1.7, < 0.6 and < 1.6% for proximal, middle and distal SOBP, respectively. We conclude that the inter-institutional variation of biological effectiveness is smaller for carbon ions than protons, and that beam-spreading methods of carbon ions do not critically influence gut crypt survival.

Expression of heme oxygenase-1 due to intracellular reactive oxygen species induced by ultrasound

The present study was undertaken to elucidate the mechanism by which ultrasound induces the expression of heme oxygenase-1 (HO-1). When human lymphoma U937 cells were exposed to a 1 MHz continuous wave for 1 min, HO-1 expression examined by real-time quantitative polymerase chain reaction and immunoblotting was observed at intensities above the cavitational threshold. No induction of HO-1 expression was observed in the cells exposed for 1 min to 42 degrees C, a temperature higher than that during sonication. When a potent antioxidant, N-acetyl-l-cysteine, was added to the culture medium before or after sonication, the induction was attenuated, indicating that reactive oxygen species (ROS) are involved. However, the addition of catalase did not affect the induction, and no HO-1 was observed on the addition of pre-sonicated medium, suggesting that hydrogen peroxide due to the recombination of hydroxyl radicals generated extracellularly was not involved. The addition of free radical scavengers, glutathion-monoethyl ester, dimethyl sulfoxide and D(-)-mannitol, suppressed the induction. A decrease in mitochondrial membrane potential and the generation of superoxide were also observed in the sonicated cells, suggesting that mitochondria were the source of intracellularly generated ROS. These results indicate that superoxide secondarily generated from damaged mitochondria, not hydroxyl radicals generated in medium directly by sonication, give rise to intracellular oxidative stress inducing HO-1 expression.

Generation of a strong promoter for Escherichia coli from eukaryotic genome DNA

Improvement of a gene product by introducing mutations into the gene is usually applied for improving structural genes. In this study the procedure was applied for generation and improvement of a genetic signal to drive gene expression. By adding various concentrations of Mn2+ to the PCR reaction mixture, mutations were introduced into a DNA fragment at various ratios. An appropriate condition was employed to introduce mutations into a DNA fragment with no promoter activity. The mutated fragment was introduced at an upstream site of the lacZ gene in a plasmid vector to see if the fragment carries promoter activity. Lysate of an Escherichia coli transformant with the vector was assayed for beta-galactosidase expression as an indicator of the promoter activity. Mutated DNA fragments were generated by error prone PCR with a condition which leads to introduction of 1.5% of mutation into a DNA fragment during the process. The strongest promoter was chosen by beta-galactosidase assay after error prone PCR and subjected to another step of the PCR. These processes were repeated four times to improve its activity to 1.94-fold to that by the tac promoter. When the luciferase gene was expressed by the strongest promoters, a similar expression level was noted. These results indicate that by randomly introducing mutations into a DNA fragment, it is relatively easy to generate and improve a prokaryotic promoter.

Ultrasound mediated intravesical transfection enhanced by treatment with lidocaine or heat

PURPOSE

We have previously reported that cell membrane modification by lidocaine or heat can enhance ultrasound mediated transfection (USMT) on PC-3 cells in vitro. In the current study we investigated whether such enhancement could be observed using the T24 human bladder cancer cell line in vitro along with PC-3 in vivo.

MATERIALS AND METHODS

For in vitro transfection T24 cells were sonicated with 1 MHz ultrasound at 3.6 W/cm (ISATA) for 20 seconds. For in vivo transfection T24 or PC-3 cells in the bladder were transabdominally sonicated with 1 MHz ultrasound at 0.78 W/cm (ISATA) for 60 seconds. Transfection efficiency was evaluated by the luciferase assay standardized with protein contents of the samples.

RESULTS

Lidocaine or heat treatment of T24 cells during sonication enhanced luciferase expression significantly. Results indicated that enhancements could be achieved in a different cell line, although to lesser degrees than with PC-3 cells. In addition, membrane fluidity facilitation and cell viability after sonication were also different, presumably influenced by the different structures and/or compositions of the cell membranes. PC-3 and T24 cells were successfully transfected in the bladder. In addition, USMT enhancements were also observed in the 2 cell lines when sonicated with lidocaine or heat.

CONCLUSIONS

These results suggest that USMT and its enhancement with lidocaine or heat can be applied for gene therapy in the bladder.

Enhancement of ultrasound-mediated gene transfection by membrane modification

BACKGROUND

Ultrasound-mediated gene transfection (USMGT) with an echo contrast agent could be a new promising physical method of triggering localized gene delivery, but the effect is still modest. The aim of this study is to devise a method to improve efficiency of USMGT. We examined the effect of lidocaine and different temperatures on USMGT, each of which is a known membrane modifier, since the plasma membrane can be considered a site of action in USMGT.

METHODS

We observed the effect of lidocaine (0.01, 0.1 or 1.0 mM) and different temperatures (7, 20, 37, 42 or 44 degrees C) on USMGT (1 MHz, 3.6 W/cm(2) (I(SATA)) and 20 s exposure) in the presence of Levovist (10 mg/ml). At 20 h after sonication, transfection efficiency was evaluated by luciferase assay. Membrane fluidity was examined by fluorescence polarization measurement. Cavitational activity was measured by ESR spin trapping with 5,5-dimethyl-1-pyrroline N-oxide. The number of cells transfected with the GFP gene was counted under a fluorescence microscope.

RESULTS

Lidocaine (1 mM) and heat (42-44 degrees C) significantly increased luciferase expression approximately 18-fold and 19-fold higher than Levovist only. Both treatments were shown to increase membrane fluidity; in addition, heat enhanced a cavitational effect. It was confirmed by an experiment using the GFP gene that increase in luciferase expression was due to the increase in number of cells.

CONCLUSIONS

This enhancement could be useful for ultrasound-mediated gene therapy in the future since both treatments for membrane modification could be directly applied to the living body.

[Development of a radiation therapy information system and linked medical image server using techniques of WWW-DB]

We developed management system for medical information such as radiation therapy information and associated medical image information. Features of the system are to browse medical information with web browser through network. The system was constructed by open source software, which made proprietary client software unnecessary. Clinical studies suggested that the system proved useful in terms of paperless managemet. In addition, useful features are visibility and portability to browse medical information using PDA (Personal Data Assistant) via wireless LAN (Local Area Network). We also proposed a new approach which can contribute to remote areas by providing medical information using the Internet.

[New patient positioning system for proton therapy combined with CT with a common treatment couch]

Exact reproducibility of patient positioning is a critical issue for proton therapy because of the sharp dose distribution. We constructed the first proton therapy system with a common couch for both CT and proton irradiation. In this paper, we report a brief overview of the instruments and the accuracy of mechanical positioning reproducibility.

Preclinical biological assessment of proton and carbon ion beams at Hyogo Ion Beam Medical Center

PURPOSE

To assess the biologic effects of proton and carbon ion beams before clinical use.

METHODS AND MATERIALS

Cultured cells from human salivary gland cancer (HSG cells) were irradiated at 5 points along a 190 MeV per nucleon proton and a 320 MeV per nucleon carbon ion beam, with Bragg peaks modulated to 6 cm widths. A linac 4 MV X-ray was used as a reference. Relative biologic effectiveness (RBE) values at each point were calculated from survival curves. Cells were also irradiated in a cell-stack phantom to identify that localized cell deaths were observed at predefined depth. Total body irradiation of C3H/He mice was performed, and the number of regenerating crypts per jejunal section was compared to calculate intestinal RBE values. For carbon ion and referential 4 MV X-ray beams, mouse right legs were irradiated by four-fractional treatment and followed up for skin reaction scoring.

RESULTS

RBE values calculated from cell survival curves at the dose that would reduce cell survival to 10% (D10) ranged from 1.01 to 1.05 for protons and from 1.23 to 2.56 for carbon ions. The cell-stack phantom irradiation revealed localized cell deaths at predefined depth. The intestinal RBE values ranged from 1.01 to 1.08 for protons and from 1.15 to 1.88 for carbon ions. The skin RBE value was 2.16 at C320/6 cm spread-out Bragg peak (SOBP) center.

CONCLUSION

The radiobiologic measurements of proton and carbon ion beams at Hyogo Ion Beam Medical Center are consistent with previous reports using proton beams in clinical settings and carbon ion beams with similar linear energy transfer (LET) values.