Ecto-lysophospholipase C controls lysophospholipid uptake and metabolism in porcine kidney epithelial cell line LLC-PK1

Lysophosphatidylcholine (LPC) has diverse biological activities through different mechanisms including its conversion into other types of lipid mediators such as lysophosphatidic acid and 2-arachidonoylglycerol. Previously, we found that a large portion of the fluorescent analog of alkyl type LPC (Bodipy-lysoPAF) on porcine kidney epithelial cells (LLC-PK1) was degraded to monoalkylglycerol by lysophospholipase C-like activity and then quickly internalized into the cells. In this study, we investigated whether exogenous fluorescently labeled LPC (NBD-LPC) itself was also metabolized and internalized by a similar mechanism. LLC-PK1 cells converted NBD-LPC to either NBD-MG, possibly due to lysophospholipase C-like activity of ecto-nucleotide pyrophosphatase/phosphodiesterase-6, or to free fatty acid (FA), due to lysophospholipase activity in the culture medium at both sites. The resultant NBD-MG was further degraded to NBD-FA by lipase activity before or after its uptake into the cells, and a portion of NBD-FA was finally released into the culture medium on the opposite side.     

Combination of MS Protein Identification and Bioassay of Chromatographic Fractions to Identify Biologically Active Substances from Complex Protein Sources

Purification of biologically active proteins from complex biological sources is a difficult task, usually requiring large amounts of sample and many separation steps. We found an active substance in a serum response element-dependent luciferase reporter gene bioassay in interstitial cystitis urine that we attempted to purify with column chromatography and the bioassay. With anion-exchange Mono Q and C₄ reversed-phase columns, apparently sharp active peaks were obtained. However, more than 20 kinds of proteins were identified from the active fractions with MS, indicating that the purification was not complete. As further purification was difficult, we chose a candidate molecule by means of studying the correlation between MS protein identification scores and bioassay responses of chromatographic fractions near the active peaks. As a result, epidermal growth factor (EGF) was nominated as a candidate molecule among the identified proteins because the elution profile of EGF was consistent with that of the bioassay, and the correlation coefficient of EGF between MS protein identification scores and bioassay responses was the highest among all the identified proteins. With recombinant EGF and anti-EGF and anti-EGF receptor antibodies, EGF was confirmed to be the desired substance in interstitial cystitis urine. This approach required only 20 ml of urine sample and two column chromatographic steps. The combination of MS protein identification and bioassay of chromatographic fractions may be useful for identifying biologically active substances from complex protein sources.Purification and identification of biologically active proteins existing in minute amounts from biological sources such as urine is still a difficult task (1). It requires a large volume of the sample and many separation steps for purification (2, 3). Nevertheless the recent progress of MS has dramatically changed protein analysis (4). With MS, smaller protein samples can be used than with classical protein identification methods such as N-terminal peptide sequencing.Interstitial cystitis (IC)¹ is a chronic inflammatory disease characterized by frequency and urgency and/or severe pelvic pain (5). The International Continence Society also selected the term “painful bladder syndrome” for IC (6). The quality of life of IC patients is extremely low because of their severe symptoms. The pathogenesis of IC is unclear, and effective treatments have not been established. To elucidate the mechanism of IC pathogenesis, we attempted to find characteristic proteins in IC urine using proteomics techniques and have already reported active neutrophil elastase as an IC urinary marker (7). We had also performed gene expression analysis of IC bladder tissues using GeneChip technology and found that mRNA expression of GPR18, a member of the G-protein-coupled receptors, was higher in IC bladder than in the control.² We tried to confirm whether GPR18 endogenous ligand existed in IC urine by using a bioassay with GPR18 transfectant cells.In the present study, the existence of an active substance in IC urine was suggested in the bioassay using the serum response element (SRE)-dependent luciferase reporter gene with the stable recombinant HEK293 cell line expressing GPR18. We thought that the response was derived from GPR18 and tried to purify the active substance from a small volume of IC urine using chromatographic techniques. Among the many proteins identified from partially purified samples, we clearly nominated epidermal growth factor (EGF) as a candidate molecule judging from the correlation between MS protein identification and the bioassay of chromatographic fractions. With recombinant EGF and anti-EGF antibody, EGF was confirmed to be the desired substance found in IC urine. The complete inhibition of the bioassay response by anti-EGF receptor antibody also indicated that the response was based on the EGF receptor, not GPR18, suggesting that GPR18 overexpression enhanced the EGF signal via the endogenous EGF receptor of the HEK293 cell line.     

Management units of the endangered herb Primula sieboldii based on microsatellite variation among and within populations throughout Japan

To promote programs for the conservation and restoration of the endangered species Primula sieboldii, we examined genetic variation at eight microsatellite loci among and within 32 remnant wild populations throughout Japan. Total allelic diversity within a population was higher in larger populations, but not so after rarefaction adjustment. The positive relationship between population size and the inbreeding coefficient may suggest that more heterozygous genets tend to survive the habitat contraction possibly because of the higher fitness associated with heterozygosity. By principal coordinate analysis and Bayesian analysis, we detected four genetic groups (Hokkaido, northern Honshu, central Honshu, and western Japan), which could be recognized as management units of P. sieboldii. If supplementation with plants from other populations were planned, it should be conducted among populations which belong to the same management unit and which are likely to represent the same adaptive variation.     

Octocoral bleaching during unusual thermal stress

We describe a bleaching event in octocoral communities at four reefs in southwest Puerto Rico during October 2005 following a period of elevated sea surface temperatures. Percentages of colonies bleached varied among taxa, ranging from 0% for Pseudopterogorgia, Eunicea and Gorgonia to over 90% for Muricea. Other taxa exhibiting bleaching included Pseudoplexaura (22.3%), Muriceopsis (36.6%), Briareum (46.1%), Plexaurella (69.6%) and Pterogorgia (84.5%).     

Mitochondrial and apoptotic neuronal death signaling pathways in cerebral ischemia

Mitochondria play important roles as the powerhouse of the cell. After cerebral ischemia, mitochondria overproduce reactive oxygen species (ROS), which have been thoroughly studied with the use of superoxide dismutase transgenic or knockout animals. ROS directly damage lipids, proteins, and nucleic acids in the cell. Moreover, ROS activate various molecular signaling pathways. Apoptosis-related signals return to mitochondria, then mitochondria induce cell death through the release of pro-apoptotic proteins such as cytochrome c or apoptosis-inducing factor. Although the mechanisms of cell death after cerebral ischemia remain unclear, mitochondria obviously play a role by activating signaling pathways through ROS production and by regulating mitochondria-dependent apoptosis pathways.     

Characterization of Streptococcus pyogenes Isolated from Balanoposthitis Patients Presumably Transmitted by Penile-Oral Sexual Intercourse

Streptococcus pyogenes is indigenous to the human pharynx and causes acute pharyngitis. Balanoposthitis is an inflammatory disease of the glans and the foreskin. However, balanoposthitis caused by S. pyogenes is not widely recognized as a sexually transmitted disease. In addition, bacteriological features of the isolates causing balanoposthitis are unclear. The four S. pyogenes strains isolated from adult balanoposthitis were examined. We performed emm typing, T antigen typing, RAPD assay, PCR assay for the streptococcal pyrogenic exotoxin-related genes and antibiotic-resistant genes, and antibiotic susceptibility assay. All four strains were suspected to be transmitted by penile-oral sexual intercourse, were found to be different by genetic analysis, and also harbored some antibiotic-resistant factors. We propose that S. pyogenes should be considered as a causative agent of sexually transmitted disease. The drug resistant S. pyogenes must be taken into account when balanoposthitis patients are treated with antibiotic.     

Efficient propagation of progressive multifocal leukoencephalopathy-type JC virus in COS-7-derived cell lines stably expressing Tat protein of human immunodeficiency virus type 1

The high incidence of progressive multifocal leukoencephalopathy (PML) in AIDS patients compared with many other immunosuppressive diseases suggests that HIV-1 infection is strictly related to the activation of JC virus (JCV) propagation. In this report, propagation of PML-type JCV in COS-7-derived cell lines stably expressing HIV-1 Tat (COS-tat cells) has been examined. In COS-tat cells, production of viral particles and replication of genomic DNA were markedly increased compared to COS-7 cells, as judged by HA and real-time PCR analyses. These results demonstrate that COS-tat cells provide a useful model system for studying HIV-1 Tat-mediated propagation of PML-type JCV.     

Titanium dioxide induces different levels of IL-1β production dependent on its particle characteristics through caspase-1 activation mediated by reactive oxygen species and cathepsin B

Although titanium dioxide (TiO₂) is widely used, its inhalation can induce inflammatory diseases accompanied by interleukin-1β (IL-1β) production. The particle characteristics of TiO₂ are important factors in its biological effects. It is urgently necessary to investigate the relationship between the particle characteristics and biological responses for the development of safe forms of TiO₂. Here, we systematically compared the production of IL-1β in response to various forms of TiO₂ by macrophage-like human THP-1 cells using various sizes (nano to micro), crystal structures (anatase or rutile), and shapes (spherical or spicular) of TiO₂. The production of IL-1β depended dramatically on the characteristics of the TiO₂. Notably, smaller anatase and larger rutile particles provoked higher IL-1β production. In addition, IL-1β production depended on active cathepsin B and reactive oxygen species production independent of the characteristics of TiO₂. Our results provide basic information for the creation of safe and effective novel forms of TiO₂.     

Recombinant Porphyromonas gingivalis FimA preproprotein expressed in Escherichia coli is lipidated and the mature or processed recombinant FimA protein forms a short filament in vitro

The gram-negative anaerobic bacterium Porphyromonas gingivalis is an etiologically important pathogen for chronic periodontal diseases in adults. Our previous study suggested that the major structural components of both Fim and Mfa fimbriae in this organism are secreted through their lipidated precursors. In this study, we constructed Escherichia coli strains expressing various fimA genes with or without the 5'-terminal DNA region encoding the signal peptide, and we determined whether lipidation of recombinant FimA proteins occurred in E. coli. Lipidation occurred for a recombinant protein from the fimA gene with the 5'-terminal DNA region encoding the signal peptide but not for a recombinant protein from the fimA gene without the signal-peptide-encoding region, as revealed by [3H]palmitic acid labeling experiments. A TLR2-dependent signaling response was induced by the recombinant protein from the fimA gene with the signal-peptide-encoding region but not by a recombinant protein from the fimA gene with the signal-peptide-encoding region that had a base substitution causing an amino acid substitution (C19A). Electron microscopic analysis revealed that recombinant FimA (A-47?- W-383) protein was autopolymerized to form filamentous structures of about 80?nm in length in vitro. The results suggest that FimA protein, a major subunit of Fim fimbriae, is transported to the outer membrane by the lipoprotein sorting system, and a mature or processed FimA protein on the outer membrane is autopolymerized to form Fim fimbriae.