Facilitation of bone resorption activities in synovial lavage fluid patients with mandibular condyle fractures.

The aim of this study was to investigate the bone resorption effect of the mediators delivered in joint cavity of patients with mandibular condyle fractures by detecting osteoclast markers using cellular biochemistry methods, and by analysing bone resorption activities via inducing osteoclast differentiation of the infiltrated cells from arthrocentesis. Sixteen joints in 10 patients with mandibular condyle fractures were evaluated. The control group consisted of synovial fluid (SF) samples from seven joints of four volunteers who had no clinical signs or symptoms involving the temporomandibular joint (TMJ) or disc displacement. We collected SF cells from all patients during therapeutic arthrocentesis. The infiltrating cells from TMJ SF were cultured, differentiated into tartrate-resistant acid phosphatase (TRAP)-positive osteoclast-like cells and examined bone resorption activities. We also investigated factors related to osteoclast induction of SF, using ELISA procedures. Osteoclast-like cells were induced from the SF cells obtained from all patients with condylar fractures. These multinucleated giant cells were positive for TRAP and actin, and had the ability to absorb dentin slices. The levels of macrophage colony-stimulating factor (M-CSF), prostaglandin E2 (PGE2), soluble form of receptor activator of nuclear factor kappa-B ligand (sRANKL) and osteoprotegerin (OPG), in SF samples from the patients, were significantly higher than in the controls. These findings indicate that bone resorption activities in SF from patients with mandibular condyle fractures were upregulated and may participate in the pathogenesis and wound healing.

Detailed molecular characterisation of acute myeloid leukaemia with a normal karyotype using targeted DNA capture.

Advances in sequencing technologies are giving unprecedented insights into the spectrum of somatic mutations underlying acute myeloid leukaemia with a normal karyotype (AML-NK). It is clear that the prognosis of individual patients is strongly influenced by the combination of mutations in their leukaemia and that many leukaemias are composed of multiple subclones, with differential susceptibilities to treatment. Here, we describe a method, employing targeted capture coupled with next-generation sequencing and tailored bioinformatic analysis, for the simultaneous study of 24 genes recurrently mutated in AML-NK. Mutational analysis was performed using open source software and an in-house script (Mutation Identification and Analysis Software), which identified dominant clone mutations with 100% specificity. In each of seven cases of AML-NK studied, we identified and verified mutations in 2-4 genes in the main leukaemic clone. Additionally, high sequencing depth enabled us to identify putative subclonal mutations and detect leukaemia-specific mutations in DNA from remission marrow. Finally, we used normalised read depths to detect copy number changes and identified and subsequently verified a tandem duplication of exons 2-9 of MLL and at least one deletion involving PTEN. This methodology reliably detects sequence and copy number mutations, and can thus greatly facilitate the classification, clinical research, diagnosis and management of AML-NK.

Design of ridge filters for spread-out Bragg peaks with Monte Carlo simulation in carbon ion therapy.

Spread-out Bragg peaks made by ridge filters or wheel range modulators are used in charged particle therapy with passive methods to achieve uniform biological responses in irradiated tumors. Following the biological responses needed to design the ridge filters, which were developed at the National Institute of Radiological Sciences in Japan, new ridge filters were designed using recent developments in heavy-ion reactions and dosimetry. The Monte Carlo code of Geant4 was used to calculate the qualities of carbon ion beams in a water phantom. The results obtained from the simulation were corrected so that they agreed with the measurements of depth dose distributions. The calculations of biological responses to fragments other than carbon ions were assumed to be for helium ions. The measured dose distributions with the designed ridge filters were compared to the calculated distributions. A beam modifying system using this adaptable method was successively applied to carbon ion therapy at Gunma University.

The compact electron cyclotron resonance ion source KeiGM for the carbon ion therapy facility at Gunma University.

A high-energy carbon-ion radiotherapy facility is under construction at Gunma University Heavy Ion Medical Centre (GHMC). Its design was based on a study of the heavy ion radiotherapy at the National Institute of Radiological Sciences (NIRS) in order to reduce the size and construction cost of the facility. A compact electron cyclotron resonance ion source (ECRIS) for Gunma University, called KeiGM, was installed in 2008. It is almost a copy of the prototype ECRIS Kei2 which was developed by NIRS; meanwhile this prototype produced over 1 e mA of C(4+) using C(2)H(2) gas (660 W and 40 kV). The beam intensity of C(4+) was 600 e microA with CH(4) gas (250 W and 30 kV). The beam intensity satisfies the required value of 300 e microA.

New strategy for comprehensive analysis of gene functions in embryonic stem cells.

At present, the limitation of Phenotype-based genetic screening in embryonic stem cells (ESCs) is the diploid nature of the genome. Since it is known that cells deficient in the Bloom's syndrome gene (Blm) show an increased rate of homologous recombination, we have developed a new system to conditionally regulate the Blm allele for introduction of bi-allelic mutations across the genome. Transient deficiency of Blm induces homologous recombination not only between sister chromatids but also between homologous chromosomes, resulting in a high rate of loss of heterozygosity (LOH). Introduction of genome-wide mutations in ESCs can be achieved by retroviral vector. In combination, using genome-wide mutagenesis and transient loss of Blm expression, we have generated ES libraries with bi-allelic mutations. These results show that this new system is very efficient for identifying gene functions in ESCs.

Enhanced infection of an X4 strain of HIV-1 due to capping and colocalization of CD4 and CXCR4 induced by capsianoside G, a diterpene glycoside.

We investigated whether capsianosides, diterpene glycosides, extracted from Capsicum plants could affect human immunodeficiency virus type 1 (HIV-1) infection. Significant effect on virus infection in MAGI/CCR5 cells was neither observed for the X4 virus by capsianosides II, XI, and A, nor for an R5 virus by capsianoside G. Apparent enhancement of X4 HIV-1 infection by capsianoside G was observed and exclusively related to the usage of the CXCR4 coreceptor. The capsianoside G-treated cells had no change in the expression level of CD4, CXCR4, and CCR5, however, colocalization and capping of CD4 and CXCR4, but not of CD4 and CCR5 was observed. Our results suggested that capsianoside G enhanced X4 virus infection at the level of viral penetration through the capping and colocalization of receptors needed for infection.

[13C-urea breath test].

A 13C-urea breath test(13C-UBT) is known to be a good diagnostic method for detecting H. pylori infection since it is non-invasive, simple and accurate. Its diagnostic capability in determining H. pylori eradication has been studied using 153 patients (who underwent the H. pylori eradication therapy) as subjects at two times: 6-8 weeks after the end of administration (at the time of determination of eradication) and 6 months afterwards. When determination was made, the sensitivity and specificity of 13C-UBT compared to culture and histology were 100% and 95.1%, respectively. Seven inconsistent cases were positive according to 13C-UBT and negative according to two other methods. After 6 months, both sensitivity and specificity were 100% and 4 of the 7 inconsistent cases became positive according to all three methods. These results indicate that the 13C-UBT is superior in terms of sensitivity and specificity to culture and histology and recognize the failure eradication earlier than ether two methods. Re-examination of inconsistent cases should be performed after 6 months. After covered by insurance, the H. pylori eradication therapy will become a general form of treatment of peptic ulcers. 13C-UBT in particular has proven most useful for diagnosis of eradication.

[Development of a multi-layer ion chamber for measurement of depth dose distributions of heavy-ion therapeutic beam for individual patients].

In heavy-ion radiotherapy, an accelerated beam is modified to realize a desired dose distribution in patients. The setup of the beam-modifying devices in the irradiation system is changed according to the patient, and it is important to check the depth dose distributions in the patient. In order to measure dose distributions realized by an irradiation system for heavy-ion radiotherapy, a multi-layer ionization chamber(MLIC) was developed. The MLIC consists of 64 ionization chambers, which are stacked mutually. The interval between each ionization chamber is about 4.1 mm water. There are signal and high voltage plates in the MILC, which are used as electrodes of the ionization chambers and phantom. Depth dose distribution from 5.09 mm to 261.92 mm water can be measured in about 30 seconds using this MLIC. Thus, it is possible to check beam quality in a short amount of time.

Antileukemic activity and mechanism of action of cordycepin against terminal deoxynucleotidyl transferase-positive (TdT+) leukemic cells.

The nucleoside analogue cordycepin (3'-deoxyadenosine, 3'-dA) is substantially more cytotoxic to terminal deoxynucleotidyl transferase positive (TdT+) leukemic cells than to TdT leukemic cells in vitro in the presence of an adenosine deaminase inhibitor, deoxycoformycin (dCF), and has been considered as a therapeutic agent for TdT+ leukemia. The intracellular metabolism of 3'-dA was examined with HPLC, and the mechanism of its anti-TdT+ leukemic activity was analyzed. In the presence of dCF (2.5 microM), TdT+ leukemic cells (N = 5) were sensitive to the cytotoxic effect of 3'-dA, whereas TdT (N = 6) cells were not. A high level of 3'-dA-5'-triphosphate (3'-dATP) formation was detected in TdT+ NALM-6 cells (67 pmol/10(6) cells) and TdT- K562 cells (49 pmol/10(6) cells) when cultured with 1 microM [3'-3H]-labeled 3'-dA. A substantial level of 3'-dATP was detected in TdT HUT-102 cells (27 pmol/10(6) cells), whereas the level of 3'-dATP in TdT+ MOLT-4 cells was low (0.3 pmol/10(6) cells). The mean IC50 values of 3'-dA against phytohemagglutinin (PHA)-activated and resting peripheral blood mononuclear cells (PBM) (N = 5) were 8 and 32 microM, respectively. There was a modest level of 3'-dATP (7 pmol/10(6) cells) in PHA-PBM, whereas a lower level of 3'-dATP was detected in resting PBM (2.5 pmol/10(6) cells). These data suggest that the presence of 3'-dATP is not sufficient for the antileukemic effect of 3'-dA, but that TdT positivity is essential, and that PBM are significantly less sensitive to the cytotoxicity of 3'-dA in vitro. Further development of 3'-dA as a potential antileukemic agent to treat patients with TdT+ leukemia is warranted.

JE-2147: a dipeptide protease inhibitor (PI) that potently inhibits multi-PI-resistant HIV-1.

We designed, synthesized, and identified JE-2147, an allophenylnorstatine-containing dipeptide HIV protease inhibitor (PI), which is potent against a wide spectrum of HIV-1, HIV-2, simian immunodeficiency virus, and various clinical HIV-1 strains in vitro. Drug-resistant clinical HIV-1 strains, isolated from seven patients who had failed 9-11 different anti-HIV therapeutics after 32-83 months, had a variety of drug-resistance-related amino acid substitutions and were highly and invariably resistant to all of the currently available anti-HIV agents. JE-2147 was, however, extremely potent against all such drug-resistant strains, with IC(50) values ranging from 13-41 nM (<2-fold changes in IC(50) compared with that of wild-type HIV-1). The emergence of JE-2147-resistant HIV-1 variants in vitro was substantially delayed compared with that of HIV-1 resistant to another allophenylnorstatine-containing compound, KNI-272, and other related PIs. Structural analysis revealed that the presence of a flexible P2' moiety is important for the potency of JE-2147 toward wild-type and mutant viruses. These data suggest that the use of flexible components may open a new avenue for designing PIs that resist the emergence of PI-resistant HIV-1. Further development of JE-2147 for treating patients harboring multi-PI-resistant HIV-1 is warranted.

Conserved cysteines of the human immunodeficiency virus type 1 protease are involved in regulation of polyprotein processing and viral maturation of immature virions.

We investigated the role of the two highly conserved cysteine residues, cysteines 67 and 95, of the human immunodeficiency virus type 1 (HIV-1) protease in regulating the activity of that protease during viral maturation. To this end, we generated four HIV-1 molecular clones: the wild type, containing both cysteine residues; a protease mutant in which the cysteine at position 67 was replaced by an alanine (C67A); a C95A protease mutant; and a double mutant (C67A C95A). When immature virions were produced in the presence of an HIV-1 protease inhibitor, KNI-272, and the inhibitor was later removed, limited polyprotein processing was observed for wild-type virion preparations over a 20-h period. Treatment of immature wild-type virions with the reducing agent dithiothreitol considerably improved the rate and extent of Gag processing, suggesting that the protease is, in part, reversibly inactivated by oxidation of the cysteine residues. In support of this, C67A C95A virions processed Gag up to fivefold faster than wild-type virions in the absence of a reducing agent. Furthermore, oxidizing agents, such as H2O2 and diamide, inhibited Gag processing of wild-type virions, and this effect was dependent on the presence of cysteine 95. Electron microscopy revealed that a greater percentage of double-mutant virions than wild-type virions developed a mature-like morphology on removal of the inhibitor. These studies provide evidence that under normal culture conditions the cysteines of the HIV-1 protease are susceptible to oxidation during viral maturation, thus preventing immature virions from undergoing complete processing following their release. This is consistent with the cysteines being involved in the regulation of viral maturation in cells under oxidative stress.

HIV-1 acquires resistance to two classes of antiviral drugs through homologous recombination.

Genetic recombination contributes to the genomic heterogeneity of human immunodeficiency virus type 1 (HIV-1). In the present study, we demonstrate that HIV-1 readily develops resistance to two classes of anti-HIV-1 drugs through in vitro genetic recombination involving large segments of the viral genome. Co-transfection of COS-7 cells with an HIV-1 plasmid (pSUM13) carrying five mutations in the reverse transcriptase (RT)-encoding region (A62V, V75I, F77L, F116Y, Q151M), conferring resistance to multiple dideoxynucleoside analogs (ddNs), and another HIV-1 plasmid (pSUM431) carrying five mutations in the protease-encoding region (V321, L33F, K451, 184V, L89M), conferring resistance to protease inhibitors such as KNI-272, readily produced HIV-1 carrying both sets of mutations when propagated in MT-2 cells in the presence of azidothymidine (AZT) and KNI-272. The resultant HIV-1 variant was highly resistant to both ddNs and KNI-272. Co-infection of MT-2 cells with HIV-1SUM13 carrying the RT mutations and HIV-1SUM431 carrying the mutations in the protease also generated HIV-1 with both sets of mutations when cultured with AZT and KNI-272. We also report here that the problematic artifactual recombination occurring during genetic analyses of heterogeneous nucleic acid sequences using polymerase chain reaction can be successfully obviated.

Activation of silent MDR1 genes in revertant cells by fusion with multidrug-resistant cells.

We isolated revertant and resistant clones from multidrug-resistant K562/ADM cells and evaluated the expression of P-glycoprotein and the DNA copy number of MDR1. The 9 revertant clones contained 2- to 26-fold DNA copies of MDR1; however, they expressed an extensively decreased P-glycoprotein compared with K562/ADM, while the 10 multidrug-resistant clones contained 4- to 48-fold DNA copies, and the expression level of P-glycoprotein was dependent on the copy number of MDR1 DNA. The decreased expression of P-glycoprotein in the revertants was not due only to the loss of the copy number of MDR1 DNA. To elucidate the mechanism of P-glycoprotein expression decrease in the revertants, a revertant clone (R1-5) was fused with a multidrug-resistant clone (A2-1) or with a drug-sensitive clone isolated from K562. Compared with K562 clone, the A2-1 contained 32-fold MDR1 DNA copies and showed 131-fold resistance to Adriamycin. The revertant clone R1-5 contained 26-fold MDR1 DNA copies but expressed only 5% the P-glycoprotein of A2-1 cells and showed only 2-fold resistance to Adriamycin. For selection of intraspecific hybrids, a neomycin-resistant or a blasticidin S-resistant gene was introduced into clones by electroporation of pSV2neo or pSV2bsr. The introduction of these resistant genes did not alter the copy number or expression of MDR1 in the clones. Hybrid cells between R1-5bsr and A2-1neo were found to express 136 +/- 15% of the P-glycoprotein of A2-1 cells evaluated by quantitive flow cytometry. These hybrid cells contained 41- to 48-fold MDR1 copies and showed the multidrug-resistant phenotype, such as decrease of rhodamine123 accumulation and 120- to 210-fold resistance to Adriamycin (compared with K562), indicating that the 'silent' MDR1 genes in the revertant clone R1-5 were activated by cell fusion with an MDR clone. R1-5bsr x K562neo hybrids were found to contain 8- to 11-fold MDR1 copies and there was no increase in P-glycoprotein expression as compared with R1-5.

Induction of resistance to 1-beta-D-arabinofuranosylcytosine in human H9 cell line by simian immunodeficiency virus.

We examined drug sensitivity of human T cell acute lymphoblastic leukemia H9 cells chronically infected with simian immunodeficiency virus (SIVmac) and found that the retrovirus-infected H9 cells showed 8.2-fold resistance to 1-beta-D-arabinofuranosylcytosine (Ara-C). In the infected cells, Ara-CTP levels decreased to 20% of that found in uninfected H9 cells after 3 h incubation at Ara-C concentration of 1 microM, and 8.1-fold increase of cytidine deaminase activity was observed in the infected H9 cells. A competitive inhibitor of cytidine deaminase, 3, 4, 5, 6-tetrahydrouridine (THU), at 100 microM reversed Ara-C resistance in the infected cells. These results indicate that inducing increased cytidine deaminase activity by SIVmac infection conferred Ara-C resistance to H9 cells. An understanding of these cellular differences in drug sensitivity may aid in the development of therapeutic strategies against retrovirus-infected cells.

Inhibition of human immunodeficiency virus type 1 (HIV-1) replication by daphnodorins.

Three flavans, daphnodorins A, B and C isolated from Dahpne odora THUNB. were tested for their abilities to inhibit human immunodeficiency virus type 1 (HIV-1(IIIB)) replication in MT-4 cells. The effective concentrations (EC50) of daphnodorins A, B and C against HIV-1-induced cytolysis were 0.26 +/- 0.08, 1.8 +/- 0.6 and 3.6 +/- 0.5 micrograms/ml, respectively. Also these three compounds showed inhibitory effects of p24 antigen in human peripheral blood lymphocytes. As compared with 2',3'-dideoxycytidine 5'-triphosphate (DDC-TP), daphnodorin A and daphnodorin C had relatively weak inhibitory effects on the reverse transcriptase of HIV-1, while daphnodorin B did not show any inhibitory effect at concentrations up to 1000 micrograms/ml. These three compounds showed marked inhibitory effects on syncytium formation between HIV-1(IIIB)-infected and uninfected MOLT-4 (clone 8) cells at 3-30 micrograms/ml without inducing cytotoxicity. The concentrations of the compounds blocking syncytium formation were consistent with the effective concentrations (EC50) against HIV-induced cytolysis of MT-4 cells. These results, differing from reverse transcriptase inhibitors, suggest that the daphnodorins exert their anti-HIV-1 activity through inhibition of early events of viral replication including adsorption of the virions to the cells or the subsequent entry.

Human immunodeficiency virus type 1 induces 1-beta-D-arabinofuranosylcytosine resistance in human H9 cell line.

We have found that chronically HIV-1(IIIB)-infected H9 cells showed 21-fold resistance to 1-beta-D-arabinofuranosylcytosine (ARA-C) compared with uninfected H9 cells. In the infected H9 cells, a 37% increase of dCTP pool and a 34% increase of dATP were observed, and no alteration of dTTP and dGTP was observed, compared with the uninfected H9 cells. A marked decrease of ARA-CTP generation was observed in the infected H9 cells after 3-h incubation with 0.1-10 microM ARA-C. The level of deoxycytidine kinase activity with ARA-C as substrate was similar in both the infected and the uninfected cells; however, a 37-fold increase of cytidine deaminase activity was observed in the infected H9 cells. These results indicate that the induction of cytidine deaminase activity by HIV-1(IIIB) infection conferred ARA-C resistance to H9 cells. This conclusion was supported by the observation that a marked reversal of ARA-C resistance in the infected H9 cells occurred after treatment with the inhibitor of cytidine deaminase, 3,4,5,6-tetrahydrouridine. The understanding of these cellular alterations in drug sensitivity may facilitate the development of effective therapeutic strategies against HIV-1-infected cells.

Synthesis and anti-HIV activity of 9-[c-4,t-5-bis(hydroxymethyl)cyclopent-2-en-r-1-yl]-9H-adenine.

The synthesis and in vitro anti-HIV activity of two new racemic nucleoside analogues are described; namely, 9-[c-4,t-5-bis(hydroxymethyl)cyclopent-2-en-r-1-yl]-9H-adenine (12) and its guanine analogue 18. While the latter (18) showed no activity, the therapeutic index of the former (12) was 200 and comparable to that (400) of carbovir. One enantiomer of 12 may be viewed as an analogue of carbocyclic oxetanocin and the other as an analogue of carbovir. Hence, these results indicate that one or both of the individual enantiomers of 12 could serve as candidates or lead compounds for the development of anti-AIDS agents.

Resolution of 9-(c-4,t-5-bishydroxymethylcyclopent-2-en-r-1-yl)-9H-adenine and selective inhibition of human immunodeficiency virus by the (-) enantiomer.

Two enantiomers of 9-(c-4,t-5-bishydroxymethylcyclopent-2-en-r-1-yl)-9H- adenine (BCA) which showed a potent and selective anti-HIV effects have been synthesized and evaluated against human immunodeficiency virus type 1. The result demonstrated that the potent-HIV activity of racemic BCA is expressed solely by the (-) isomer.

Cross-resistance of human multidrug-resistant cells to mitomycin C.

Human multidrug-resistant cells, K562/ADM, KB-C-4, AdrRMCF-7 and CEM/VLB100 showed 21-, 7.5-, 105- and 3.4-fold cross-resistance to mitomycin C (MMC). The resistance to MMC in K562/ADM, KB-C-4, AdrRMCF-7, CEM/VLB100 cells was reversed by 6.6 microM verapamil. Accumulation of [3H]MMC in K562/ADM, AdrRMCF-7 and CEM/VLB100 cells also decreased by 37, 26 and 33%, as compared with their drug-sensitive counterparts. In KB-C-4 cells, accumulation of [3H]MMC decreased by 60%, and efflux rate of [3H]MMC was slightly increased as compared to their parental KB-3-1 cells. Verapamil at 6.6 microM increased accumulation of [3H]MMC in these multidrug-resistant sublines. K562/ADM10, K562/ADM50, K562/ADM100 and K562/ADM250 cells, which showed 17- to 230-fold resistance to Adriamycin, also showed 0.8- to 7.3-fold cross-resistance to MMC. In these cell lines, the extent of resistance to Adriamycin (ADM) that was consistent with expression levels of P-glycoprotein shown by immunoblotting was directly proportional to the extent of their resistance to MMC. Regression analysis indicated that relative resistance to Adriamycin was correlated with relative resistance to MMC (r = 0.98). These results indicate that MMC can be transported by P-glycoprotein overexpressed in multidrug-resistant cells.