Toll-like receptor 2 activation implicated in oral squamous cell carcinoma development

Recent studies have revealed that Toll-like receptors (TLRs) are highly expressed and activated in many types of cancer. Physiologically, TLR2 recognizes bacteria and other microorganisms in the oral cavity; however, the role of TLR2 in oral squamous cell carcinoma (OSCC) is unclear. In this study, we demonstrated that TLR2 is highly expressed in OSCC in comparison with adjacent non-malignant tissue. TLR2 was also expressed in OSCC-derived cell lines, and its expression was activated by ligands derived from bacteria and mycoplasma. Furthermore, to elucidate the mechanism of OSCC progression via TLR2 signal transduction, we focused on microRNAs (miRNAs) that are induced by TLR2 activation. Interestingly, ligand activation of TLR2 induced the expression of miR-146a and we found that downregulation of caspase recruitment domain–containing protein 10 (CARD10) mRNA in OSCC-derived cell lines. Moreover, knockdown of CARD10 induced resistance to cisplatin-induced apoptosis in OSCC cells. These findings suggest that the activation of TLR2 by bacterial components can enhance the progression of OSCC and may be implicated in acquired resistance to cisplatin-induced apoptosis through regulation of the miR-146a pathway.     

Use of a surface plasmon resonance biosensor for the determination of binding constants of transiently expressed recombinant antibody to its antigen

Summary By using a commercially available surface plasmon resonance (SPR) biosensor, the values of the association rate constant (kass), dissociation rate constant (kdiss), and association constant (KA = kass / kdiss) for binding to the antigens were determined. They were almost the same for the recombinant antibody expressed in COS cells, CHO cells, and mouse hybridoma cells. The system of transient expression of the recombinant antibody (Ab) in COS cells and SPR analysis of the supernatant should be useful for rapid expression and evaluation of the binding ability of large numbers of engineered Abs.     

Adoptive transfer of cytotoxic T lymphocytes induced by CD86-transfected tumor cells suppresses multi-organ metastases of C1300 neuroblastoma in mice

 In this study, we examined the therapeutic antitumor effect of cytotoxic T lymphocytes (CTL) generated against CD86-transfected mouse neuroblastoma C1300. We first generated the transfectant, CD86⁺C1300, expressing a high level of mouse CD86 on the cell surface. While CD86⁺C1300 cells were rejected in syngeneic A/J mice when inoculated subcutaneously, neither vaccination nor any therapeutic antitumor effect was obtained, implying that C1300 may be a poorly immunogenic tumor. However, in vitro stimulation of splenocytes from either C1300-bearing or CD86⁺C1300-rejecting mice with CD86⁺C1300 cells resulted in remarkable CTL activity against C1300 cells. The CTL activity induced by CD86⁺C1300 was mediated by T cell receptor/CD3 and CD8 and was further enhanced by the addition of interleukin-2. Intravenous inoculation of C1300 cells led to multiple organ metastases including the liver, lung, kidney, ovary, lymph node and bone marrow. To examine the therapeutic effect of CTL in this metastasis model, CTL induced by parental or CD86⁺C1300 cells were administrated into C1300-bearing mice. Adoptive transfer of CD86⁺C1300-induced CTL resulted in marked elimination of multi-organ metastases and prolonged survival in almost all mice, 70% of which survived indefinitely. These results indicate that adoptive transfer of CTL induced by CD86-transfected tumor cells in vitro would be effective and useful for tumor immunotherapy against poorly immunogenic tumors. Received: 18 November 1996 / Accepted: 3 March 1997     

Gene expression and localization of a β-1,3-glucanase of <Emphasis Type="Italic">Lotus japonicus</Emphasis>

Phytohormone abscisic acid (ABA) inhibits root nodule formation of leguminous plants. LjGlu1, a β-1,3-glucanase gene of Lotus japonicus, has been identified as an ABA responsive gene. RNA interference of LjGlu1 increased nodule number. This suggests that LjGlu1 is involved in the regulation of nodule formation. Host legumes control nodule number by autoregulation of nodulation (AON), in which the presence of existing root nodules inhibits further nodulation. For further characterization of LjGlu1, we focused on the expression of LjGlu1 in relation to AON. In a split-root system, LjGlu1 expression peaked when AON was fully induced. Hairy roots transformed with LjCLE-RS1, a gene that induces AON, were generated. Expression of LjGlu1 was greater in the transgenic roots than in untransformed roots. LjGlu1 was not induced in a hypernodulating mutant inoculated with Mesorhizobium loti. These results suggest that the expression of LjGlu1 is involved in the system of AON. However, neither hypernodulation nor enlarged nodulation zone was observed on the transgenic hairy roots carrying LjGlu1-RNAi, suggesting that LjGlu1 is not a key player of AON. Recombinant LjGlu1 showed endo-β-1,3-glucanase activity. LjGlu1-mOrange fusion protein suggested that LjGlu1 associated with M. loti on the root hairs. Exogenous β-1,3-glucanase inhibited infection thread formation by both the wild type and the mutant, and nodule numbers were reduced. These results suggest that LjGlu1 is expressed in response to M. loti infection and functions outside root tissues, resulting in the inhibition of infection.     

Molecular characterization and targeted quantitative profiling of the sphingolipidome in rice

Recent advances in comprehensive metabolite profiling techniques, the foundation of metabolomics, is facilitating our understanding of the functions, regulation and complex networks of various metabolites in organisms. Here, we report a quantitative metabolomics technique for complex plant sphingolipids, composed of various polar head groups as well as structural isomers of hydrophobic ceramide moieties. Rice (Oryza sativa L.) was used as an experimental model of monocotyledonous plants and has been demonstrated to possess a highly complex sphingolipidome including hundreds of molecular species with a wide range of abundance. We established a high‐throughput scheme for lipid preparation and mass spectrometry‐based characterization of complex sphingolipid structures, which provided basic information to create a comprehensive theoretical library for targeted quantitative profiling of complex sphingolipids in rice. The established sphingolipidomic approach combined with multivariate analyses of the large dataset obtained clearly showed that different classes of rice sphingolipids, particularly including subclasses of glycosylinositol phosphoceramide with various sugar‐chain head groups, are distributed with distinct quantitative profiles in various rice tissues, indicating tissue‐dependent metabolism and biological functions of the lipid classes and subclasses. The sphingolipidomic analysis also highlighted that disruption of a lipid‐associated gene causes a typical sphingolipidomic change in a gene‐dependent manner. These results clearly support the utility of the sphingolipidomic approach in application to wide screening of sphingolipid‐metabolic phenotypes as well as deeper investigation of metabolism and biological functions of complex sphingolipid species in plants.     

Visualization of biodistribution of Zn complex with antidiabetic activity using semiconductor Compton camera GREI

Various types of zinc (Zn) complexes have been developed as promising antidiabetic agents in recent years. However, the pharmacological action of Zn complex is not elucidated because the biodistribution of the complex in a living organism has not been studied. Nuclear medicine imaging is superior technology for the noninvasive analysis of the temporal distribution of drug candidates in living organisms. Gamma-ray emission imaging (GREI), which was developed by our laboratory as a novel molecular imaging modality, was adopted to visualize various γ-ray–emitting radionuclides that are not detected by conventional imaging techniques such as positron emission tomography and single-photon emission computed tomography. Therefore, we applied GREI to a biodistribution assay of Zn complexes. In the present study, ⁶⁵Zn was produced in the ^natCu(p,n) reaction in an azimuthal varying field cyclotron for the GREI experiment. The distribution was then noninvasively visualized using GREI after the intravenous administration of a ⁶⁵Zn-labeled di(1-oxy-2-pyridinethiolato)zinc [Zn(opt)₂], ZnCl₂, and di(l-histidinato)zinc. The GREI images were validated using conventional invasive assays. This novel study showed that GREI is a powerful tool for the biodistribution analysis of antidiabetic Zn complexes in a living organism. In addition, accumulation of ⁶⁵Zn in the cardiac blood pool was observed for [Zn(opt)₂], which exhibits potent antidiabetic activity. These results suggest that the slow elimination of Zn from the blood is correlated to the antidiabetic activity of [Zn(opt)₂].     

Studies on the development of growth hormone and prolactin cells in the rat pituitary gland by in situ hybridization

Summary An antiserum raised against N-amino-3-propyl melatonin bound to a protein carrier was used to visualize melatonin by immunohistochemistry and to measure melatonin concentration by radioimmunoassay in the pineal gland of intact mink females killed throughout the 24 h cycle and females killed after a bilateral ablation of the cervical superior ganglion. Melatonin immunoreactivity revealed by immunofluorescence or by the peroxidase-antiperoxidase complex was observed in the cytoplasm of presumed pinealocytes of all the females. Circadian changes in pineal melatonin content were not visualized by immunohistochemistry; furthermore, immunoreactivity was also present in the pineal gland of the ganglionectomized females. However, the melatonin content measured by radioimmunoassay was significantly higher in the pineal gland from intact females killed during the night compared with that of intact females killed during the day or of ganglionectomized females. The discrepancy between the results obtained using the two methods may arise because immunohistochemistry can detect very small amounts of melatonin.     

Induced expression of a chimeric gene construct in transgenic lettuce plants using tobacco pathogenesis-related protein gene promoter region

The expression of a stress- and salicylic acidinducible protein gene from tobacco, PR1a protein gene, was determined after its Introduction to lettuce (Lactuca sativa L.) plants. The 5 flanking 2.4 Kb fragment from PR1a gene was joined to the bacterial -glucuronidase (GUS) gene (PR-GUS) and introduced into lettuce cotyledons by Agrobacterium-mediated gene transfer using a binary vector containing a kanamycin-resistance gene as a selectable marker. As a control with constitutive expression, the chimeric gene consisting of CaMV 35S RNA promoter and GUS gene (35S-GUS) was used. An improved method for shoot formation directly from lettuce cotyledons was used effectively for transformation, shortening the time for regeneration. In 70% or more of kanamycin-resistant regenerated lettuce plants, into which PR-GUS or 35S-GUS was introduced, high GUS activity and integration of the chimeric gene into the lettuce genome were detected. By treatment with salicylic acid, GUS activity increased 3- to 50-fold in PR-GUS transformants, however, no increase was detected in 35S-GUS plants. These results showed that the promoter of the stress-inducible tobacco PR1a protein gene was introduced into lettuce plants, and the introduced chimeric gene was expressed normally under the regulated control of the PRla promoter.Abbreviations BA N6-benzyladenine - GUS -glucuronidase - NAA -naphthaleneacetic acid - Km kanamycin - Km^s kanamycin resistant - Km⁰ kanamycin sensitive - NPT- II neomycin phosphotransferase II - PR pathogenesis-related - SA salicylic acid - MS Murashige and Skoog medium - NOS nopaline synthase     

Involvement of the Ca2+-dependent K+ channel activity in the hyperpolarizing response induced by epidermal growth factor in mammary epithelial cells

Epidermal growth factor (EGF) induces a hyperpolarizing response of 5-20 mV amplitude in mouse mammary epithelial cells in culture. The amplitude of the hyperpolarizing response was reduced by more than 60% within several minutes after addition of blockers of voltage and/or Ca2+-dependent K+ channels such as tetraethylammonium (7 mM) or quinine (0.29 mM). Both nifedipine (0.15 mM), a blocker of the Ca2+ channel, and ruthenium red (2 mM), an inhibitor of the Ca2+-binding site, also reduced the amplitude of the hyperpolarizing response by more than 60%. The Ca2+ ionophore, A23187 (3.8 microM), induced a large hyperpolarization, which was 25-40 mV and lasted about 3 min. These data suggest that activity of the Ca2+-dependent K+ channel was involved in the EGF-induced hyperpolarizing response of the mammary epithelial cells.