The roles of amino acid residues at positions 43 and 45 in microsomal contents and enzymatic functions of rat CYP2D1 and CYP2D2

The effects of the substitution of amino acid residues at positions 43 and 45 of rat CYP2D1 and CYP2D2 on their microsomal contents and enzymatic functions were examined. The substitution of Val-45 of CYP2D1 by glycine decreased the microsomal content, whereas the substitution of Gly-45 of CYP2D2 by valine increased. The substitution of Leu-43 of CYP2D2 by tryptophan also increased the microsomal protein content. In reduced CO-difference spectra, CYP2D2 showed a P420 peak as well as a P450 peak, whereas CYP2D1 gave only a P450 peak. The substitution of Leu-43 and Gly-45 of CYP2D2 by valine and tryptophan, respectively, markedly decreased the P420 peak in parallel with an increase in P450 content. These substitutions did not cause remarkable changes in drug oxidation capacities (bufuralol 1'-hydroxylation and debrisoquine 4-hydroxylation) of the recombinant enzymes in terms of nmol/min/nmol CYP. The results indicate that amino acid residues at positions 43 and 45 are important for anchoring of the rat CYP2D proteins and their stabilities in the endoplasmic reticulum membrane.     

Prostaglandin D2 plays an essential role in chronic allergic inflammation of the skin via CRTH2 receptor

PGD(2) plays roles in allergic inflammation via specific receptors, the PGD receptor designated DP and CRTH2 (chemoattractant receptor homologous molecule expressed on Th2 cells). We generated mutant mice carrying a targeted disruption of the CRTH2 gene to investigate the functional roles of CRTH2 in cutaneous inflammatory responses. CRTH2-deficent mice were fertile and grew normally. Ear-swelling responses induced by hapten-specific IgE were less pronounced in mutant mice, giving 35-55% of the responses of normal mice. Similar results were seen in mice treated with a hemopoietic PGD synthase inhibitor, HQL-79, or a CRTH2 antagonist, ramatroban. The reduction in cutaneous responses was associated with decreased infiltration of lymphocytes, eosinophils, and basophils and decreased production of macrophage-derived chemokine and RANTES at inflammatory sites. In models of chronic contact hypersensitivity induced by repeated hapten application, CRTH2 deficiency resulted in a reduction by approximately half of skin responses and low levels (63% of control) of serum IgE production, although in vivo migration of Langerhans cells and dendritic cells to regional lymph nodes was not impaired in CRTH2-deficient mice. In contrast, delayed-type hypersensitivity to SRBC and irritation dermatitis in mutant mice were the same as in wild-type mice. These findings indicate that the PGD(2)-CRTH2 system plays a significant role in chronic allergic skin inflammation. CRTH2 may represent a novel therapeutic target for treatment of human allergic disorders, including atopic dermatitis.     

Dioecism of the genusCallicarpa (Verbenaceae) in the Bonin (Ogasawara) Islands

The morphology and function of the flowers of three species of the genusCallicarpa, C. glabra, C. nisnimurae andC. subpubescens, endemic to the Bonin Islands, revealed that all three species were dioecious. Male plants had short-styled flowers with sterile ovaries, while female plants had long-styled flowers with non-germinating inaperturate pollen grains. Such dioecism has never been reported from the family Verbenaceae. This curious sexual system with non-germinating pollen grains may have been maintained as a reward to insect pollinators.     

Characterization of a major secretory protein in the cane toad (Bufo marinus) choroid plexus as an amphibian lipocalin-type prostaglandin D synthase

Here we report the enzymatic and ligand-binding properties of a major secretory protein in the choroid plexus of cane toad, Bufo marinus, whose protein is homologous with lipocalin-type prostaglandin (PG) D synthase (L-PGDS) and is recombinantly expressed in Xenopus A6 cells and Escherichia coli. The toad protein bound all-trans retinal, bile pigment, and thyroid hormones with high affinities (K(d)=0.17 to 2.00 microM). The toad protein also catalysed the L-PGDS activity, which was accelerated in the presence of GSH or DTT, similar to the mammalian enzyme. The K(m) value for PGH(2) (17 microM) of the toad protein was almost the same as that of rat L-PGDS (14 microM), whereas the turnover number (6 min(-1)) was approximately 28 fold lower than that of rat L-PGDS. Site-directed mutagenesis based on a modeled structure of the toad protein revealed that Cys(59) and Thr(61) residues were crucial for the PGDS activity. The quadruple Gly(39)Ser/Ala(75)Ser/Ser(140)Thr/Phe(142)Tyr mutant of the toad protein, resembling mouse L-PGDS, showed a 1.6 fold increase in the turnover number and a shift in the optimum pH for the PGDS activity from 9.0 to 8.5. Our results suggest that the toad protein is a prototype of L-PGDS with a highly functional ligand-binding pocket and yet with a primitive catalytic pocket.     

Indigenous utilization of termite mounds and their sustainability in a rice growing village of the central plain of Laos

Background

This study was conducted to identify medicinal plants and spices used for medicine by the community of Beni-Sueif, Upper Egypt.

Methods

Ethnobotanical data from local people was collected using direct interviews and a semi-structured questionnaire.

Results

Forty-eight plant species belonging to twenty-seven families and forty-seven genera were encountered during the study. Their botanical and vernacular names, plant parts used and medicinal uses are given. Results of the study were analyzed using two quantitative tools. The factor informant consensus indicated the agreement in the use of plants and the fidelity level indicated the ratio between the number of informants who independently suggested the use of a species for the same major purpose and the total number of informants who mentioned the plant for any use. The results of the factor informant consensus showed that the cardiovascular category has the greatest agreement, followed by the immunological, gastrointestinal and respiratory categories. The most important species according to their fidelity are: Hibiscus sabdariffa L. for the cardiovascular category; Trigonella foenum-graecum L. for the immunological category; Mentha piperita L. for the gastrointestinal category and Pimpinella anisum L. for the respiratory category.

Conclusions

Medicinal plants are still used for treatment in Beni-Sueif community despite the availability of prescribed medications. Documentation of this ethnomedicinal knowledge is important. Evaluation of pharmacological activity for the promising medicinal plants is suggested.     

Chemokine receptor inhibitor,Antileukinate, suppressed ovalbumin-induced eosinophilic inflammation in the airway

Accumulating evidence suggests that eosinophils play an important role in the pathogenesis of allergic diseases. An eosinophil-active chemokine, eotaxin, and its receptor, C-C chemokine receptor 3, are particularly attractive as novel targets of immunological intervention for the disease. In this study, we examine the effects of a hexa-peptide (Ac-RRWWCR-NH(2)), Antileukinate, which we have previously defined as a potent inhibitor of CXC chemokine receptor 1 and 2, on eotaxin in vitro and in vivo. Antileukinate inhibited the binding of 125I-labeled human eotaxin to human eosinophils with an IC(50) of approximately 10 microM and eosinophil chemotaxis to human eotaxin was significantly inhibited by 10 microM of Antileukinate. We examined the effects of Antileukinate on eosinophil accumulation induced by intraperitoneal administration of murine eotaxin, and confirmed that Antileukinate is also active in the murine system. When Antileukinate was tested in ovalbumin-induced airway inflammation model in vivo, Antileukinate significantly inhibited eosinophil accumulation and allergen-induced increase in total protein in bronchoalveolar lavage fluids. Furthermore, Antileukinate suppressed fibrous thickening of submucosal tissue induced by chronic antigen challenge. These results suggest that eotaxin is involved in the pathogenesis of eosinophilic airway inflammation, and that Antileukinate may be a promising tool to control allergic diseases.     

Synthesis of prumycin and related compounds

Prumycin (1) and related compounds have been synthesized from benzyl 2-(benzyloxycarbonyl)amino-2-deoxy-5,6-O-isopropylidene-β-d-glucofuranoside (4). Benzoylation of 4, followed by deisopropylidenation, gave benzyl 3-O-benzoyl-2-(benzyloxycarbonyl)amino-2-deoxy-β-d-glucofuranoside (6), which was converted, via oxidative cleavage at C-5–C-6 and subsequent reduction, into the related benzyl β-d-xylofuranoside derivative (7). Benzylation of 3-O-benzoyl-2-(benzyloxycarbonyl)-amino-2-deoxy-d-xylopyranose (8), derived from 7 by hydrolysis, afforded the corresponding derivatives (9, 11) of β- and α-d-xylopyranoside, and compound 7 as a minor product. Treatment of benzyl 3-O-benzoyl-2-(benzyloxycarbonyl)amino-2-deoxy-4-O-mesyl-β-d-xylopyranoside 10, formed by mesylation of 9, with sodium azide in N,N-dimethylformamide gave benzyl 4-azido-3-O-benzoyl-2-(benzyloxy-carbonyl)amino-2,4-dideoxy-α-l-arabinopyranoside (13), which was debenzoylated to compound 14. Selective reduction of the azide group in 14, and condensation of the 4-amine with N-[N-(benzyloxycarbonyl)-d-alaninoyloxy]succinimide, gave the corresponding derivative (15) of 1. Reductive removal of the protecting groups of 15 afforded 1. Prumycin analogs were also synthesized from compound 14. Evidence in support of the structures assigned to the new derivatives is presented.     

Carbohydrate-recognition domains of galectin-9 are involved in intermolecular interaction with galectin-9 itself and other members of the galectin family

Galectin-9 (Gal-9) is a tandem-repeat-type member of the galectin family associated with diverse biological processes, such as apoptosis, cell aggregation, and eosinophil chemoattraction. Although the detailed sugar-binding specificity of Gal-9 has been elucidated, molecular mechanisms that underlie these functions remain to be investigated. During the course of our binding study by affinity chromatography and surface plasmon resonance (SPR) analysis, we found that human Gal-9 interacts with immobilized Gal-9 in the protein-protein interaction mode. Interestingly, this intermolecular interaction strongly depended on the activity of the carbohydrate recognition domain (CRD), because the addition of potent saccharide inhibitors abolished the binding. The presence of multimers was also confirmed by Ferguson plot analysis of result of polyacrylamide gel electrophoresis and matrix-assisted laser-desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry (MS). Moreover, this intermolecular interaction was observed between Gal-9 and other galectin members, such as Gal-3 and Gal-8, but not Gal-1. Because such properties have not been reported yet, they may explain an unidentified mechanism underlying the diverse functions of Gal-9.     

Change in enantioselectivity in bufuralol 1''-hydroxylation by the substitution of phenylalanine-120 by alanine in cytochrome P450 2D6

The functional roles of phenylalanine at position 120 in drug oxidation by cytochrome P450 2D6 (CYP2D6) were examined using a yeast cell expression system and bufuralol (BF) enantiomers as a chiral substrate. Two mutated cDNAs, one encoding a CYP2D6 mutant having alanine instead of Phe-120 (F120A) and another encoding a mutant having alanine instead of Glu-222 (E222A), were prepared by site-directed mutagenesis and transformed into yeast cells via pGYRI vectors. The enantiomeric BF 1'-hydroxylase activities of the mutants were compared with those of the wild type. When enantiomeric BF 1'-hydroxylase activities at a substrate concentration of 100 microM were compared, the CYP2D6 wild type showed substrate enantioselectivity of (R-BF > S-BF) and the F120A mutant exhibited substrate enantioselectivity of (R-BF < or = S-BF), whereas the product diastereoselectivity of (1'R-OH-BF < 1'-S-OH-BF) was similar between the wild type and the mutant. The activities of the other mutant (E222A) were much lower than those of the wild type and the F120A mutant, while its substrate enantioselectivity and product diastereoselectivity were the same as those of the wild type. The kinetics demonstrated that apparent K(m) values were similar among the recombinant enzymes, and V(max) values clearly reflected the selectivity described above. These results indicate that Phe-120 has a key role in the enantioselective BF 1'-hydroxylation by CYP2D6.     

Suppression of Adipocyte Differentiation by Aldo-keto Reductase 1B3 Acting as Prostaglandin F2�� Synthase

Prostaglandin (PG) F_2α suppresses adipocyte differentiation by inhibiting the function of peroxisome proliferator-activated receptor γ. However, PGF_2α synthase (PGFS) in adipocytes remains to be identified. Here, we studied the expression of members of the aldo-keto reductase (AKR) 1B family acting as PGFS during adipogenesis of mouse 3T3-L1 cells. AKR1B3 mRNA was expressed in preadipocytes, and its level increased about 4-fold at day 1 after initiation of adipocyte differentiation, and then quickly decreased the following day to a level lower than that in the preadipocytes. In contrast, the mRNA levels of Akr1b8 and 1b10 were clearly lower than that level of Akr1b3 in preadipocytes and remained unchanged during adipogenesis. The transient increase in Akr1b3 during adipogenesis was also observed by Western blot analysis. The mRNA for the FP receptor, which is selective for PGF_2α, was also expressed in preadipocytes. Its level increased about 2-fold within 1 h after the initiation of adipocyte differentiation and was maintained at almost the same level throughout adipocyte differentiation. The small interfering RNA for Akr1b3, but not for Akr1b8 or 1b10, suppressed PGF_2α production and enhanced the expression of adipogenic genes such as peroxisome proliferator-activated receptor γ, fatty acid-binding protein 4 (aP2), and stearoyl-CoA desaturase. Moreover, an FP receptor agonist, Fluprostenol, suppressed the expression of those adipogenic genes in 3T3-L1 cells; whereas an FP receptor antagonist, AL-8810, efficiently inhibited the suppression of adipogenesis caused by the endogenous PGF_2α. These results indicate that AKR1B3 acts as the PGFS in adipocytes and that AKR1B3-produced PGF_2α suppressed adipocyte differentiation by acting through FP receptors.