Characterization of a sHsp of Schizosaccharomyces pombe, SpHsp15.8, and the implication of its functional mechanism by comparison with another sHsp, SpHsp16.0

There exist two small heat shock proteins (sHsps) in the fission yeast, Schizosaccharomyces pombe (S. pombe), whose expressions are highly induced by heat stress. We have previously expressed, purified, and characterized one of the sHsps, SpHsp16.0. In this study, we examined the other sHsp, SpHsp15.8. It suppressed the thermal aggregation of citrate synthase (CS) from porcine heart and dithiothreitol-induced aggregation of insulin from bovine pancreas with very high efficiency. Almost one SpHsp15.8 subunit was sufficient to protect one protein molecule from aggregation. Like SpHsp16.0, SpHsp15.8 dissociated into small oligomers and then interacted with denatured substrate proteins. SpHsp16.0 exhibited a clear enthalpy change for denaturation occurring over 60 degrees C in differential scanning calorimetry (DSC). However, we could not observe any significant enthalpy change in the DSC of SpHsp15.8. The difference is likely to be caused by the adhesive characteristics of SpHsp15.8. The oligomer dissociation of SpHsp15.8 and SpHsp16.0 and their interactions with denatured substrate proteins were studied by fluorescence polarization analysis (FPA). Both sHsps exhibited a temperature-dependent decrease of fluorescence polarization, which correlates with the dissociation of large oligomers to small oligomers. The dissociation of the SpHsp15.8 oligomer began at about 35 degrees C and proceeded gradually. On the contrary, the SpHsp16.0 oligomer was stable up to approximately 45 degrees C, but then dissociated into small oligomers abruptly at this temperature. Interestingly, SpHsp16.0 is likely to interact with denatured CS in the dissociated state, while SpHsp15.8 is likely to interact with CS in a large complex. These results suggest that S. pombe utilizes two sHsps that function in different manners, probably to cope with a wide range of temperatures and various denatured proteins.     

Expression of exogenous fluorescent proteins in early freshwater pond snail embryos

We have for the first time succeeded in expressing in vitro-synthesized mRNAs in both the sinistral and the dextral Lymnaea stagnalis early embryos by microinjecting the mRNAs into the eggs before the first polar body stage. Translation of exogenous mRNA in developing embryos was confirmed by expressing various fluorescent proteins; mCherry, DsRed-Express, and enhanced green fluorescent protein. We have found that the protein expression derived from the introduced exogenous mRNA largely depends on the elapsed time after the microinjection and not on the developmental stage of injection, and also on the amount of injected mRNA. Developmental abnormalities were hardly observed. The first notable fluorescent signal was detected within 2–3 h after the injection while the embryos were still in uncleaved stage. Fluorescence gradually increased until 8–9 h and was stable up to 24 h. From these results, it is suggested that there is enough translation machinery necessary for early development and the translation of injected mRNA proceeds immediately and constantly in the early embryos. This is true for both the sinistral and dextral L. stagnalis embryos. Application of the developed method to other freshwater pond snails, dextral Lymnaea peregra, sinistral Physa acuta, and sinistral Indoplanorbis exustus revealed that their early expression mechanisms to be similar to that of L. stagnalis. Thus, in vitro-synthesized mRNA expression is expected to be important for the understanding of evolutional process and the molecular mechanism underlining the handedness determination in these freshwater snail embryos.     

Biodegradation of high molecular weight lignin under sulfate reducing conditions: lignin degradability and degradation by-products

This study is designed to investigate the biodegradation of high molecular weight (HMW) lignin under sulfate reducing conditions. With a continuously mesophilic operated reactor in the presence of co-substrates of cellulose, the changes in HMW lignin concentration and chemical structure were analyzed. The acid precipitable polymeric lignin (APPL) and lignin monomers, which are known as degradation by-products, were isolated and detected. The results showed that HMW lignin decreased and showed a maximum degradation capacity of 3.49 mg/l/day. APPL was confirmed as a polymeric degradation by-product and was accumulated in accordance with HMW lignin reduction. We also observed non-linear accumulation of aromatic lignin monomers such as hydrocinnamic acid. Through our experimental results, it was determined that HMW lignin, when provided with a co-substrate of cellulose, is biodegraded through production of APPL and aromatic monomers under anaerobic sulfate reducing conditions with a co-substrate of cellulose.     

2-Cyclohexylcarbonylbenzimidazoles as potent,orally available and brain-penetrable opioid receptor-like 1 (ORL1) antagonists

The synthesis and biological evaluation of new potent opioid receptor-like 1 (ORL1) antagonists are presented. Conversion of the thioether linkage of the prototype [It is reported prior to this communication as a consecutive series.: Kobayashi, K.; Kato, T.; Yamamoto, I.; Shimizu, A.; Mizutani, S.; Asai, M.; Kawamoto, H.; Ito, S.; Yoshizumi, T.; Hirayama, M.; Ozaki, S.; Ohta, H.; Okamoto, O. Bioorg. Med. Chem. Lett., in press] to the carbonyl linker effectively reduces susceptibility to P-glycoprotein (P-gp) efflux. This finding led to the identification of 2-cyclohexylcarbonylbenzimizole analogue 7c, which exhibited potent ORL1 activity, excellent selectivity over other receptors and ion channels, and poor susceptibility to P-gp. Compound 7c also showed satisfactory pharmacokinetic profiles and brain penetrability in laboratory animals. Furthermore, 7c showed good in vivo antagonism. Hence, 7c was selected as a clinical candidate for a brain-penetrable ORL1 antagonist.     

Establishment of Agrobacterium tumefaciens-Mediated Transformation of an Oleaginous Fungus,Mortierella alpina 1S-4, and Its Application for Eicosapentaenoic Acid Producer Breeding

Gene manipulation tools for an arachidonic-producing filamentous fungus, Mortierella alpina 1S-4, have not been sufficiently developed. In this study, Agrobacterium tumefaciens-mediated transformation (ATMT) was investigated for M. alpina 1S-4 transformation, using the uracil-auxotrophic mutant (ura5⁻ strain) of M. alpina 1S-4 as a host strain and the homologous ura5 gene as a selectable marker gene. Furthermore, the gene for ω3-desaturase, catalyzing the conversion of n-6 fatty acid to n-3 fatty acid, was overexpressed in M. alpina 1S-4 by employing the ATMT system. As a result, we revealed that the frequency of transformation surpassed 400 transformants/10⁸ spores, most of the integrated T-DNA appeared as a single copy at a random position in chromosomal DNA, and most of the transformants (60 to 80%) showed mitotic stability. Moreover, the accumulation of n-3 fatty acid in transformants was observed under the conditions of optimal ω3-desaturase gene expression. In particular, eicosapentaenoic acid (20:5n-3), an end product of n-3 fatty acids synthesized in M. alpina 1S-4, reached a maximum of 40% of total fatty acids. In conclusion, the ATMT system was found to be effective and suitable for the industrial strain Mortierella alpina 1S-4 and will be a useful tool for basic mutagenesis research and for industrial breeding of this strain.Two decades ago, a filamentous zygomycete fungus, Mortierella alpina 1S-4, was isolated from soil as a potent producer of polyunsaturated fatty acids (PUFAs) in our laboratory and was utilized for commercial production of arachidonic acid (AA) (20:4n-6) (21). Breeding of mutants derived from the wild strain led to the production of dihomo-γ-linolenic acid (20:3n-6) and Mead acid (20:3n-9) (10-12) (Fig. ​(Fig.1).1). Furthermore, we attempted to produce other PUFAs synthesized in M. alpina 1S-4, since some fatty acids (e.g., 18:2n-9, 18:4n-3, and 20:4n-3) have limited natural sources and could have promising beneficial physiological effects (9). In particular, for microbial production of n-3 PUFAs, currently prepared from fish oil, it is necessary to achieve stable productivity and quality; however, mutation treatment caused low activity of the specific enzymes involved in PUFA biosynthesis, which is unsuitable for industrial application. In addition, gene manipulation tools have not been sufficiently developed for metabolic control of the PUFA synthetic pathway. Genetic manipulation is a new means of molecularly breeding industrial strains, analyzing their physiological properties, and clarifying the biosynthetic pathway to PUFAs. A comprehensive transformation system for this fungus has been fundamentally established. It involves a uracil-auxotrophic mutant (ura5⁻ strain) as a host strain, a homologous ura5 gene as a selectable marker gene, and transformation through the biolistic method, which is the only effective method (24).Open in a separate windowFIG. 1.Putative biosynthetic pathway of PUFAs in Mortierella alpina 1S-4. OA, oleic acid; LA, linoleic acid; ALA, α-linolenic acid; GLA, γ-linolenic acid; SDA, stearidonic acid; EDA, n-9 eicosadienoic acid; DGLA, dihomo-γ-linolenic acid; ETA, n-3 eicosatetraenoic acid; MA, Mead acid. Open and black arrows indicate elongase and desaturase reactions, respectively.Agrobacterium tumefaciens-mediated transformation (ATMT) has been employed for a wide range of plants (7, 27). Recently, it was reported that A. tumefaciens is also able to transfer its DNA to various fungi, including ascomycetes, basidiomycetes, zygomycetes, and oomycetes, as well as to plants (2, 5, 16). Additionally, this bacterium can transform intact cells and spores as well as protoplasts. Under mild conditions, the ATMT system generates a large number of stable transformants, which show vigorous growth, indicating that the ATMT system can be an efficient tool for molecular manipulation of M. alpina 1S-4. Moreover, the frequency of homologous recombination was higher than that with conventional transformation methods (8). In this study, we evaluated the external gene transfer system using the ATMT system and determined the optimal conditions for M. alpina 1S-4. Furthermore, we overexpressed the ω3-desaturase gene to improve n-3 PUFA productivity in an industrial n-6-PUFA-producing strain, M. alpina 1S-4 (18, 20), using ATMT.     

Effects of encouraged water drinking on thermoregulatory responses after 20 days of head-down bed rest in humans

We tested the hypothesis that encouraged water drinking according to urine output for 20 days could ameliorate impaired thermoregulatory function under microgravity conditions. Twelve healthy men, aged 24 ± 1.5 years (mean ± SE), underwent −6° head-down bed rest (HDBR) for 20 days. During bed rest, subjects were encouraged to drink the same amount of water as the 24-h urine output volume of the previous day. A heat exposure test consisting of water immersion up to the knees at 42°C for 45 min after a 10 min rest (baseline) in the sitting position was performed 2 days before the 20-day HDBR (PRE), and 2 days after the 20-day HDBR (POST). Core temperature (tympanic), skin temperature, skin blood flow and sweat rate were recorded continuously. We found that the −6° HDBR did not increase the threshold temperature for onset of sweating under the encouraged water drinking regime. We conclude that encouraged water drinking could prevent impaired thermoregulatory responses after HDBR.     

c-ABL tyrosine kinase stabilizes RAD51 chromatin association

The assembly of RAD51 recombinase on DNA substrates at sites of breakage is essential for their repair by homologous recombination repair (HRR). The signaling pathway that triggers RAD51 assembly at damage sites to form subnuclear foci is unclear. Here, we provide evidence that c-ABL, a tyrosine kinase activated by DNA damage which phosphorylates RAD51 on Tyr-315, works at a previously unrecognized, proximal step to initiate RAD51 assembly. We first show that c-ABL associates with chromatin after DNA damage in a manner dependent on its kinase activity. Using RAD51 mutants that are unable to oligomerize to form a nucleoprotein filament, we separate RAD51 assembly on DNA to form foci into two steps: stable chromatin association followed by oligomerization. We show that phosphorylation on Tyr-315 by c-ABL is required for chromatin association of oligomerization-defective RAD51 mutants, but is insufficient to restore oligomerization. Our findings suggest a new model for the regulation of early steps of HRR.     

Anti-metatype peptides, a molecular tool with high sensitivity and specificity to monitor small ligands

To develop a new immunological detection system of gibberellins (GAs), a class of phytohormones, peptides that interact with an antibody against GA₄ in a GA₄-dependent manner, were screened from phage display random peptide libraries. The biopanning procedure yielded peptides designated as anti-metatype peptides (AM-peps), which showed specific binding to the complex of the antibody and its ligand GA₄; that is, the antibody could not be replaced with the other anti-GA₄ antibody, and GA₄ could not be replaced with GA₁, another ligand of the antibody. Together with computational analyses such as analysis of structural propensity of the AM-peps and docking simulation of the AM-peps and the 8/E9-GA₄ complex, it was suggested that AM-peps formed a helix in their central region and interacted with a part of the 8/E9-GA₄ complex located in close proximity to the GA₄ molecule. Based on the property of AM-peps to make a ternary complex with antibody and its ligand, a noncompetitive enzyme-linked immunosorbent assay (ELISA) system corresponding to sandwich ELISA was developed to detect GA₄. GA₄ as low as 30 pg, which could not be achieved by conventional competitive ELISA, could be detected by the new system, demonstrating the feasibility of this system.     

Analysis of eighteen deletion breakpoints in the parkin gene

Parkin mutations are responsible for the pathogenesis of autosomal-recessive juvenile parkinsonism (AR-JP). On initial screening of Japanese patients with AR-JP, we had found that approximately half of the parkin mutations are deletions occurring between exons 2 and 5, forming a deletion hot spot. In this study, we investigated the deletion breakpoints of the parkin mutations in 22 families with AR-JP and examined the possible association between these deletion events and meiotic recombinations. We identified 18 deletion breakpoints at the DNA nucleotide sequence level. Almost all these deletions were different, indicating that the deletion hot spot was generated by recurrent but independent events. We found no association between the deletions and specific DNA elements. Recent copy number variation (CNV) data from various ethnic groups showed that the deletion hot spot is overlapped by a highly polymorphic CNV region, indicating that the recurrent deletion mutation or CNV is observable worldwide. By comparing Marshfield and deCODE linkage maps, we found that the parkin deletion hot spot may be associated with a meiotic recombination hot spot, although such association was not found on comparison with recent high-resolution genetic maps generated from the International HapMap project. Here, we discuss the possible mechanisms for deletion hot spot formation and its effects on human genomes.