A one-pot primary aminomethylation of aryl halides, triflates, mesylates, and tosylates via Suzuki-Miyaura cross-coupling reactions with sodium phthalimidomethyltrifluoroborate followed by deamidation with ethylenediamine is reported.

Dodecyl-β-D-selenomaltoside (SeDDM) is a seleno-detergent with a β-glycosidic seleno-ether in place of the ether moiety in dodecyl-β-D-maltoside. Seleno-detergents are candidates for heavy-atom agents in experimental phasing of membrane proteins in protein crystallography. Crystals of a nuclear membrane-embedded enzyme, leukotriene C(4) synthase (LTC(4)S), in complex with SeDDM were prepared and a multiwavelength anomalous diffraction (MAD) experiment was performed. The SeDDM in the LTC(4)S crystal exhibited sufficient anomalous diffraction for determination of the structure using MAD phasing.

We have previously reported the efficacy of the Patient Oriented Clerkship (POC) in the clinical clerkship in Showa University Hospitals, by a trial with old four-year pharmacy program students. In the unique clerkship, each student has a patient in charge, and follows his/her clinical conditions throughout the rotation. The aim of the POC is that having the students learn spontaneously (Active Learning) and actively (Adult Learning) promoted by student's commitment and responsibility by communicating with patients and health professionals in a team. As the POC requires students both Active Learning and Adult Learning, we define the POC as Active Adult Learning (AAL). Having a patient in charge for each student gives them many opportunities to participate in the medical team and foster their problem solving skills. Our previous study eventually showed positive results of the POC in the one-month short clerkship in the four-year program. On the other hand, the effect of the unique hospital clerkship in the new six-year program is not known. We conducted a student survey to clarify the learning effect in the new six-year education system which was revised and 2.5 month clinical clerkship was scheduled according to the model core clerkship curriculum. This report is the first report to show a challenge of the AAL/POC clerkship in the new six-year pharmacy education program.

Leukotriene (LT) C(4) and its metabolites, LTD(4) and LTE(4), are involved in the pathobiology of bronchial asthma. LTC(4) synthase is the nuclear membrane-embedded enzyme responsible for LTC(4) biosynthesis, catalyzing the conjugation of two substrates that have considerably different water solubility; that amphipathic LTA(4) as a derivative of arachidonic acid and a water-soluble glutathione (GSH). A previous crystal structure revealed important details of GSH binding and implied a GSH activating function for Arg-104. In addition, Arg-31 was also proposed to participate in the catalysis based on the putative LTA(4) binding model. In this study enzymatic assay with mutant enzymes demonstrates that Arg-104 is required for the binding and activation of GSH and that Arg-31 is needed for catalysis probably by activating the epoxide group of LTA(4).

The high yield expression of BLT1, a G-protein coupled receptor for leukotriene B(4), was established in Pichia pastoris for structural studies. Guinea pig BLT1 was expressed in a functional form without post-translational modifications for the rapid purification and the crystallization. Among the BLT1s from four species, only guinea pig BLT1 was successfully expressed with the comparable binding affinity to BLT1 of native guinea pig tissues for several ligands. Only Asn4 of the two putative N-glycosylation sites was glycosylated, and the mutation to Ala to avoid glycosylation did not affect the ligand binding affinity. However, the N-terminal region of the mutant was digested at the carboxyl ends of Arg3 and Arg8, as detected by N-terminal amino acid sequencing, and Ser309 in the C-terminal region was partially phosphorylated, as identified in the micro-sequencing by Q-TOF-MS/MS. To avoid chemical heterogeneity, the N-terminal peptide (1 to 14) truncated and the C-terminal phosphorylation site eliminated mutant was generated. The binding affinity of the mutant's membrane fraction for LTB(4) was K(d)= 6.6 nM and B(max)= 50.0 pmol/mg membrane protein. The yield of purified mutant was approximately 0.3-0.4 mg from one liter culture, and the protein showed a single peak at molecular weight of 100 kDa in gel-filtration and no glycosylation or phosphorylation in MALDI-TOF MS.

Leukotriene C(4)(LTC(4)) is synthesized by binding of glutathione to LTA(4), an epoxide derived from arachidonic acid, and further metabolized to LTD(4) and LTE(4). We previously prepared a monoclonal antibody with a high affinity and specificity to LTC(4). To explore the structure of the antigen-binding site of a monoclonal antibody against LTC(4)(mAbLTC), we isolated full-length cDNAs for heavy and light chains of mAbLTC. The heavy and light chains consisted of 461 and 238 amino acids including a signal peptide with molecular weights of 51,089 and 26,340, respectively. An expression plasmid encoding a single-chain antibody comprising variable regions of mAbLTC heavy and light chains (scFvLTC) was constructed and expressed in COS-7 cells. The recombinant scFvLTC showed a high affinity with LTC(4) comparable to mAbLTC. The scFvLTC also bound to LTD(4) and LTE(4) with 48% and 17% reactivities, respectively, as compared with LTC(4) binding, whereas the antibody showed almost no affinity for LTB(4).

There has been accumulating evidence for the involvement of retroviral integrase (IN) in the reverse transcription of viral RNA. We previously identified a host factor, survival motor neuron-interacting protein 1 (SIP1/Gemin2) that binds to human immunodeficiency virus type 1 (HIV-1) IN and supports HIV-1 infection apparently at reverse transcription step. Here, we demonstrated that HIV-1 IN together with SIP1 augments reverse transcriptase (RT) activity by enhancing the assembly of RT on viral RNA in vitro. Synthetic peptides corresponding to the binding motifs within IN that inhibited the IN-SIP1 interaction abrogated reverse transcription in vitro and in vivo. Furthermore, knockdown of SIP1 reduced intracellular stability and multimer formation of IN through proteasome-mediated degradation machinery. Taken together, SIP1 appears to stabilize functional multimer forms of IN, thereby promoting the assembly of IN and RT on viral RNA to allow efficient reverse transcription, which is a prerequisite for efficient HIV-1 infection.

The extended-spectrum beta-lactamases are associated with antibiotic resistance. Toho-1 R274N/R276N, a Class A beta-lactamase of CTX-M-type, efficiently hydrolyzes first generation cephalosporins (for example, cephalothin), in addition to cefotaxime, a third generation cephalosporin. However, this enzyme only marginally hydrolyzes the third generation cephalosporin ceftazidime, and the monobactam aztreonam. The deacylation defectiveness of the mutant Toho-1 E166A/R274N/R276N, which lacks the deacylation activity, results in the accumulation of the complex of an acylated-enzyme intermediate analog. For drug design, it would be useful if a quantitative prediction of a catalytic property were available without the need of enzymatic measurements. Therefore, we examined whether there is a correlation between the thermal stability of a catalytic intermediate (analog) and its kinetic parameters. First we measured the hydrolytic kinetics of the 14 species of beta-lactam antibiotics by Toho-1 R274N/R276N, and also measured the thermal stability of the accumulated acyl-intermediates of Toho-1 E166A/R274N/R276 by differential scanning calorimetry. Here we report the correlation of these parameters. The logarithm of the catalytic efficiency for Toho-1 R274N/R276N, log(k(cat)/K(m)) exhibited the best linear correlation with T(m)(,) which is the heat-denaturation temperature midpoint of the corresponding acylated complex of Toho-1 E166A/R274N/R276N. The correlation coefficient was 0.947, indicating that a relationship exists between the kinetic parameters and the stability of the intermediates. The results demonstrate a new method for investigating the catalytic properties of enzymes against any substrates, and a new approach to designing enzymes.

Lipocalin-type prostaglandin (PG) D synthase (L-PGDS) is a multifunctional protein acting as a somnogen (PGD(2))-producing enzyme, an extracellular transporter of various lipophilic ligands, and an amyloid-beta chaperone in human cerebrospinal fluid. In this study, we determined the crystal structures of 2 different conformers of mouse L-PGDS, one with an open cavity of the beta-barrel and the other with a closed cavity due to the movement of the flexible E-F loop. The upper compartment of the central large cavity contains the catalytically essential Cys65 residue and its network of hydrogen bonds with the polar residues Ser45, Thr67, and Ser81; whereas the lower compartment is composed of hydrophobic amino acid residues that are highly conserved among other lipocalins. SH titration analysis combined with site-directed mutagenesis revealed that the Cys65 residue is activated by its interaction with Ser45 and Thr67 and that the Ser45Ala/Thr67Ala/Ser81Ala mutant showed less than 10 % of the L-PGDS activity. The conformational change between the open and closed states of the cavity indicate that the mobile calyx contributes to the multi-ligand binding ability of L-PGDS.

AbstractD-Amino acid oxidase (DAO) has been established to be involved in the oxidation of D-serine, an allosteric activator of the N-methyl-d-aspartate-type glutamate receptor in the brain, and to be associated with the onset of schizophrenia. The effect of risperidone, a benzisoxazole derivative, atypical antischizophrenic drug, on the activity of human DAO was tested using an in-vitro oxygraph system and rat C6, stable C6 transformant cells overexpressing mouse DAO (designated as C6/DAO) and pig kidney epithelial cells (LLC-PK1). Risperidone has a hyperbolic mixed-type inhibition, designated as 'partial uncompetitive inhibition effect', with Ki value of 41 microM on human DAO. Risperidone exhibited a protective effect from D-amino acid induced cell death in both C6/DAO and LLC-PK1 cells with 10% increase in viability. These data indicate the involvement of DAO activity in D-serine metabolism and also suggest a new mechanism of action to risperidone as antischizophrenic drug.