Purine derivatives as potent γ-secretase modulators

The development of a novel series of purines as γ-secretase modulators for potential use in the treatment of Alzheimer’s disease is disclosed herein. Optimization of a previously disclosed pyrimidine series afforded a series of potent purine-based γ-secretase modulators with 300- to 2000-fold in vitro selectivity over inhibition of Notch cleavage and that selectively reduces Αβ42 in an APP-YAC transgenic mouse model.     

Temperature controls on aquatic bacterial production and community dynamics in arctic lakes and streams

The impact of temperature on bacterial activity and community composition was investigated in arctic lakes and streams in northern Alaska. Aquatic bacterial communities incubated at different temperatures had different rates of production, as measured by ¹⁴C‐leucine uptake, indicating that populations within the communities had different temperature optima. Samples from Toolik Lake inlet and outlet were collected at water temperatures of 14.2°C and 15.9°C, respectively, and subsamples incubated at temperatures ranging from 6°C to 20°C. After 5 days, productivity rates varied from 0.5 to ～13.7 µg C l^?1 day^?1 and two distinct activity optima appeared at 12°C and 20°C. At these optima, activity was 2‐ to 11‐fold higher than at other incubation temperatures. The presence of two temperature optima indicates psychrophilic and psychrotolerant bacteria dominate under different conditions. Community fingerprinting via denaturant gradient gel electrophoresis (DGGE) of 16S rRNA genes showed strong shifts in the composition of communities driven more by temperature than by differences in dissolved organic matter source; e.g. four and seven unique operational taxonomic units (OTUs) were found only at 2°C and 25°C, respectively, and not found at other incubation temperatures after 5 days. The impact of temperature on bacteria is complex, influencing both bacterial productivity and community composition. Path analysis of measurements of 24 streams and lakes sampled across a catchment 12 times in 4 years indicates variable timing and strength of correlation between temperature and bacterial production, possibly due to bacterial community differences between sites. As indicated by both field and laboratory experiments, shifts in dominant community members can occur on ecologically relevant time scales (days), and have important implications for understanding the relationship of bacterial diversity and function.     

A molecular phylogeny of Amazona: implications for Neotropical parrot biogeography, taxonomy, and conservation

Amazon parrots (Genus Amazona) are among the most recognizable and imperiled of all birds. Several hypotheses regarding the evolutionary history of Amazona are investigated using a combined phylogenetic analysis of DNA sequence data from six partitions including mitochondrial (COI, 12S, and 16S) and nuclear (beta-fibint7, RP40, and TROP) regions. The results demonstrate that Amazona is not monophyletic with respect to the placement of the Yellow-faced parrot (Amazona xanthops), as first implied by. In addition, the analysis corroborates previous studies suggesting a Neotropical short-tailed parrot genus as sister to Amazona. At a finer level, the phylogeny resolves the Greater Antillean endemic species as constituting a monophyletic group, including the Central American Amazona albifrons, while further revealing a paraphyletic history for the extant Amazon species of the Lesser Antilles. The reconstructed phylogeny provides further insights into the mainland sources of the Antillean Amazona, reveals areas of taxonomic uncertainty within the genus, and presents historical information that may be included in conservation priority-setting for Amazon parrots.     

Short-range axonal/dendritic transport by myosin-V: A model for vesicle delivery to the synapse

Myosin-V is a versatile motor involved in short-range axonal/dendritic transport of vesicles in the actin-rich cortex and synaptic regions of nerve cells. It binds to several different kinds of neuronal vesicles by its globular tail domain but the mechanism by which it is recruited to these vesicles is not known. In this study, we used an in vitro motility assay derived from axoplasm of the squid giant axon to study the effects of the globular tail domain on the transport of neuronal vesicles. We found that the globular tail fragment of myosin-V inhibited actin-based vesicle transport by displacing native myosin-V and binding to vesicles. The globular tail domain pulled down kinesin, a known binding partner of myosin-V, in affinity isolation experiments. These data confirmed earlier evidence that kinesin and myosin-V interact to form a hetero-motor complex. The formation of a kinesin/myosin-V hetero-motor complex on vesicles is thought to facilitate the coordination of long-range movement on microtubules and short-range movement on actin filaments. The direct interaction of motors from both filament systems may represent the mechanism by which the transition of vesicles from microtubules to actin filaments is regulated. These results are the first demonstration that the recombinant tail of myosin-V inhibits vesicle transport in an in vitro motility assay. Future experiments are designed to determine the functional significance of the interaction between myosin-V and kinesin and to identify other proteins that bind to the globular tail domain of myosin-V.     

Design and synthesis of 3,7-diarylimidazopyridines as inhibitors of the VEGF-receptor KDR

3,7-Diarylsubstituted imidazopyridines were designed and developed as a new class of KDR kinase inhibitors. A variety of imidazopyridines were synthesized and potent inhibitors of KDR kinase activity were identified with good aqueous solubility.     

Enzymatic hydrolysis and simultaneous saccharification and fermentation of steam-pretreated spruce using crude Trichoderma reesei and Trichoderma atroviride enzymes

The aim of this study was to compare the performance of the enzymes produced by Trichoderma reesei Rut C30 and the good extracellular β-glucosidase-producing mutant Trichoderma atroviride TUB F-1663 to that of commercial preparations in the enzymatic hydrolysis and the simultaneous saccharification and fermentation (SSF) of steam-pretreated spruce (SPS).The concentrated TUB F-1663 enzyme was found to be the most efficient in the hydrolysis of washed SPS at 50 g/L water-insoluble solids (WIS) in terms of the glucose produced (18.5 g/L), even in comparison with commercial cellulases (14.1–16.7 g/L). The enzyme preparations were studied at low enzyme loadings (5 FPU/g WIS) in SSF to produce ethanol from SPS. The enzyme supernatant and whole fermentation broth of T. atroviride as well as the whole broth of T. reesei proved to be as efficient in SSF as the commercial cellulase mixtures (ethanol yields of 61–76% of the theoretical were achieved), while low ethanol yields (<40%) were obtained with the β-glucosidase-deficient T. reesei supernatant.Therefore, it seems, that instead of using commercial cellulases, the TUB F-1663 enzymes and the whole broth of Rut C30 may be produced on-site, using a process stream as carbon source, and employed directly in the biomass-to-bioethanol process.     

Glucagon-Like Peptide-1 Induced Signaling and Insulin Secretion Do Not Drive Fuel and Energy Metabolism in Primary Rodent Pancreatic β-Cells

Background

Glucagon like peptide-1 (GLP-1) and its analogue exendin-4 (Ex-4) enhance glucose stimulated insulin secretion (GSIS) and activate various signaling pathways in pancreatic β-cells, in particular cAMP, Ca²⁺ and protein kinase-B (PKB/Akt). In many cells these signals activate intermediary metabolism. However, it is not clear whether the acute amplification of GSIS by GLP-1 involves in part metabolic alterations and the production of metabolic coupling factors.

Methodology/Prinicipal Findings

GLP-1 or Ex-4 at high glucose caused release (∼20%) of the total rat islet insulin content over 1 h. While both GLP-1 and Ex-4 markedly potentiated GSIS in isolated rat and mouse islets, neither had an effect on β-cell fuel and energy metabolism over a 5 min to 3 h time period. GLP-1 activated PKB without changing glucose usage and oxidation, fatty acid oxidation, lipolysis or esterification into various lipids in rat islets. Ex-4 caused a rise in [Ca²⁺]_i and cAMP but did not enhance energy utilization, as neither oxygen consumption nor mitochondrial ATP levels were altered.

Conclusions/Significance

The results indicate that GLP-1 barely affects β-cell intermediary metabolism and that metabolic signaling does not significantly contribute to GLP-1 potentiation of GSIS. The data also indicate that insulin secretion is a minor energy consuming process in the β-cell, and that the β-cell is different from most cell types in that its metabolic activation appears to be primarily governed by a “push” (fuel substrate driven) process, rather than a “pull” mechanism secondary to enhanced insulin release as well as to Ca²⁺, cAMP and PKB signaling.     

Heat-Resistant Agglutinin 1 Is an Accessory Enteroaggregative Escherichia coli Colonization Factor

Enteroaggregative Escherichia coli (EAEC) is an important cause of acute and persistent diarrhea. The defining stacked brick adherence pattern of Peruvian EAEC isolate 042 has previously been attributed to aggregative adherence fimbriae II (AAF/II), which confer aggregative adherence on laboratory E. coli strains. EAEC strains also show exceptional autoaggregation and biofilm formation, other phenotypes that have hitherto been ascribed to AAF/II. We report that EAEC 042 carries the heat-resistant agglutinin (hra1) gene, also known as hek, which encodes an outer membrane protein. Like AAF/II, the cloned EAEC 042 hra1 gene product is sufficient to confer autoaggregation, biofilm formation, and aggregative adherence on nonadherent and nonpathogenic laboratory E. coli strains. However, an 042 hra1 deletion mutant is not deficient in these phenotypes compared to the wild type. EAEC strain 042 produces a classic honeycomb or stacked brick pattern of adherence to epithelial cells. Unlike wild-type 042, the hra1 mutant typically does not form a tidy stacked brick pattern on HEp-2 cells in culture, which is definitive for EAEC. Moreover, the hra1 mutant is significantly impaired in the Caenorhabditis elegans slow kill colonization model. Our data suggest that the exceptional colonization of strain 042 is due to multiple factors and that Hra1 is an accessory EAEC colonization factor.Enteroaggregative Escherichia coli (EAEC) was originally identified as the etiologic agent of persistent diarrhea in developing countries but is gaining increasing prominence for its role in a wider spectrum of diarrheal syndromes. EAEC strains have been implicated in acute as well as persistent diarrhea among adults and children (reviewed in references 25 and 40). A recent meta-analysis found that EAEC is significantly associated with disease in every group at high risk for diarrhea, including young children, human immunodeficiency virus-positive individuals, and visitors to developing countries (24). In addition to its association with disease in epidemiological studies in developing countries, EAEC has also been identified as a principal cause of diarrheal disease in Germany, the United Kingdom, and the United States (11, 26, 51).Aggregative adherence is the defining characteristic of EAEC (38). EAEC strains adhere to the intestinal epithelium, and to epithelial cells in culture, in a characteristic two-dimensional “stacked brick” fashion. The pattern features bacteria adhering to the eukaryotic surface, other bacteria, and the solid substratum. Four types of fimbriae have so far been documented as conferring aggregative adherence (4, 14, 17, 37). Two noncontiguous plasmid loci containing the complete complement of genes encoding aggregative adherence fimbriae I (AAF/I) or AAF/II are sufficient to confer aggregative adherence on nonadherent E. coli (14, 49). The plasmid bearing type IV pili found in Serbian EAEC outbreak strain C1096 are also sufficient to confer a weak aggregative adherence phenotype on E. coli K-12 (17). AAF additionally play an essential role in production of a superfluous EAEC-associated biofilm, which could account for the association of these strains with persistent diarrhea in epidemiological studies (46).Some categories of diarrheagenic pathogens have a conserved set of adhesins which allow them to overcome flushing across the intestinal epithelium. Typical enteropathogenic E. coli isolates, for example, all possess bundle-forming pili and the outer membrane adhesin intimin, whereas atypical enteropathogenic E. coli isolates possess intimin but not bundle-forming pili (reviewed in reference 10). EAEC strains, by contrast, are considerably heterogeneous. While many EAEC strains carry genes encoding one of the known aggregative adherence fimbriae, some EAEC do not harbor any known AAF even though they do demonstrate aggregative adherence (4, 7, 13, 14). This, and the presence of multiple adhesins in most mucosal colonizers (53), points to the likelihood of other EAEC adhesins. Imuta et al. recently implicated a TolC secreted factor in adherence (27), and Montiero-Neto et al. (33) described a 58-kDa nonstructural adhesin in O111:H12 EAEC. However, the former factor is only a contributor to aggregative adherence and the latter adhesin is not found in other EAEC. Overall, nonstructural EAEC adhesins have received little attention.The outer membrane protein Tia was originally characterized as an invasin and later shown to confer adhesive properties on enterotoxigenic E. coli (ETEC) (20, 21). Fleckenstein et al. (21) observed that a tia gene probe hybridized to DNA from non-ETEC strains, one of which was EAEC strain 042. As the Southern blot data published by Fleckenstein et al. showed bands of different intensities, as well as size, between ETEC strain {"type":"entrez-nucleotide","attrs":{"text":"H10407","term_id":"875229","term_text":"H10407"}}H10407, which carries tia, and EAEC strain 042, we hypothesized that the probe was recognizing a similar, rather than identical, gene (21).We have determined that EAEC strain 042 harbors a gene encoding the heat-resistant agglutinin 1 (hra1), a hemagglutinin originally reported from an O9:H10:K99 porcine ETEC strain. Hra1 has also been reported from uropathogenic E. coli strains and neonatal meningitis E. coli strain RS218, in which context it is otherwise known as Hek (19, 48). (The hek nomenclature was introduced after hra1, to delineate the form of the gene found in invasive human pathogens from that of a porcine isolate [19].) A role for the outer membrane protein Hra1/Hek in adherence by neonatal meningitis E. coli has recently been defined (19).Although hra1/hek has been reported from multiple pathogens, its role in colonization and virulence has only been conclusively studied in the neonatal meningitis E. coli strain RS218 (19). In this paper, we demonstrate that the EAEC hra1 gene is sufficient to confer colonization-associated phenotypes, including aggregative adherence and biofilm formation, on laboratory E. coli strains. Intriguingly, we find that although it confers these phenotypes on K-12 and is expressed in 042, hra1 is not required for in vitro colonization-associated phenotypes demonstrated by 042. The hra1 gene is, however, essential for the formation of a true stacked brick pattern in EAEC and for optimal in vivo colonization in a Caenorhabditis elegans model.     

Derivation and Characterization of a Simian Immunodeficiency Virus SIVmac239 Variant with Tropism for CXCR4

Like human immunodeficiency virus type 1 (HIV-1), most simian immunodeficiency virus (SIV) strains use CCR5 to establish infection. However, while HIV-1 can acquire the ability to use CXCR4, SIVs that utilize CXCR4 have rarely been reported. To explore possible barriers against SIV coreceptor switching, we derived an R5X4 variant, termed 239-ST1, from the R5 clone SIVmac239 by serially passaging virus in CD4⁺ CXCR4⁺ CCR5⁻ SupT1 cells. A 239-ST1 env clone, designated 239-ST1.2-32, used CXCR4 and CCR5 in cell-cell fusion and reporter virus infection assays and conferred the ability for rapid, cytopathic infection of SupT1 cells to SIVmac239. Viral replication was inhibitable by the CXCR4-specific antagonist AMD3100, and replication was abrogated in a novel CXCR4⁻ SupT1 line. Surprisingly, parental SIVmac239 exhibited low-level replication in SupT1 cells that was not observed in CXCR4⁻ SupT1 cells. Only two mutations in the 239-ST1.2-32 Env, K47E in the C1 domain and L328W in the V3 loop, were required for CXCR4 use in cell-cell fusion assays, although two other V3 changes, N316K and I324M, improved CXCR4 use in infection assays. An Env cytoplasmic tail truncation, acquired during propagation of 239-ST1 in SupT1 cells, was not required. Compared with SIVmac239, 239-ST1.2-32 was more sensitive to neutralization by five of seven serum and plasma samples from SIVmac239-infected rhesus macaques and was approximately 50-fold more sensitive to soluble CD4. Thus, SIVmac239 can acquire the ability to use CXCR4 with high efficiency, but the changes required for this phenotype may be distinct from those for HIV-1 CXCR4 use. This finding, along with the increased neutralization sensitivity of this CXCR4-using SIV, suggests a mechanism that could select strongly against this phenotype in vivo.Simian immunodeficiency viruses (SIVs) share many structural and biological features with human immunodeficiency virus (HIV), including target cell entry via interactions of the viral envelope glycoprotein (Env) with CD4 and a chemokine coreceptor. For HIV, the most important coreceptors in vivo are CCR5 (2, 13, 19, 21, 22) and CXCR4 (30). HIV type 1 (HIV-1) strains that use only CCR5 (R5 viruses) predominate during the early stages of infection and are critical for transmission (84, 90), as evidenced by the finding that individuals lacking a functional CCR5 protein due to a homozygous 32-bp deletion in the CCR5 gene (ccr5-Δ32) are largely resistant to HIV-1 infection (16, 54, 82). Although R5 viruses generally persist in late-stage disease, viruses that can use CXCR4, either exclusively (X4 viruses) or in addition to CCR5 (R5X4 viruses), emerge in approximately 50% of subtype B-infected individuals (15, 43). This coreceptor switch is associated with a more rapid decline in peripheral blood CD4⁺ T cells and a faster progression to AIDS (15, 43, 77), although it is unclear if CXCR4-using viruses are a cause or a consequence of progressing immunodeficiency. Like HIV, the vast majority of SIVs use CCR5 to establish infection (11, 12, 45). However, although CXCR4-using SIVs have been reported (47, 52, 65, 68, 69), their occurrence is rare, especially in models of pathogenic infection, where only one CXCR4-using SIV has been identified (17, 60, 71).This paucity of CXCR4-using SIVs is surprising for several reasons. First, SIV Envs tend to be more promiscuous than HIV-1 Envs and frequently use alternative coreceptors in addition to CCR5, including GPR1, GPR15, CXCR6, and CCR8 (20, 27, 29, 80, 81, 92) but not CXCR4. Second, HIV-2, which is more closely related to SIVmac than to HIV-1 (56, 57), commonly uses CXCR4 in vitro and in vivo (3, 28, 33, 58, 59, 67). Third, rhesus CXCR4 is ∼98% identical to human CXCR4 in amino acid sequence and can function as a coreceptor for HIV-1 in vitro (12). Finally, chimeric simian-human immunodeficiency viruses (SHIVs) that contain X4 HIV Envs on an SIV core can replicate to high levels in vivo and cause disease in rhesus macaques (39, 86). Moreover, it was recently shown that coreceptor switching can occur in rhesus macaques infected with an R5 SHIV (35). Thus, there does not appear to be any block per se against the use of rhesus CXCR4 as an entry coreceptor either in vitro or in vivo, suggesting that SIV is less capable of adapting to use CXCR4 and/or that mutations required for CXCR4 utilization may lead to a virus that is less fit and/or more susceptible to immune control in this host.For HIV-1, the Env determinants for CXCR4 use have been well documented and often involve the acquisition of positively charged amino acids in the V3 loop (18, 32, 87), particularly at positions 11, 24, and 25 (6, 18, 31, 32, 38, 75). Although the SIVmac239 V3 loop is a critical determinant for Env-coreceptor interactions (44, 63, 72), attempts to create an X4 SIVmac239 by introducing positively charged residues into the V3 loop (63) or by inserting a V3 loop from X4 HIV-1 (44) have been unsuccessful. SIVmac155T3, the only CXCR4-using variant of SIVmac that has been identified to date, was isolated from a rhesus macaque with advanced disease and contains additional positively charged residues in V3, although the determinants for CXCR4 use have not been determined (60, 71).Given questions concerning the possible determinants for and/or barriers to coreceptor switching in SIV, we sought to derive a CXCR4-using variant of the well-characterized pathogenic R5 SIV clone SIVmac239. Here we show that SIVmac239 could indeed acquire CXCR4 utilization when it was adapted in vitro for high-efficiency replication in the CXCR4⁺ CCR5⁻ human SupT1 cell line. An env clone from this virus could use CXCR4 in cell-cell fusion and reporter virus infection assays and conferred CXCR4 tropism to a replication-competent SIV. Although V3 mutations were important for CXCR4 use, an L328W change at the V3 crown rather than the acquisition of positively charged residues was required, as was an unusual K47E mutation in the conserved C1 domain of gp120. These changes also caused the highly neutralization-resistant SIVmac239 strain to become more neutralization sensitive to sera and plasmas from SIVmac239-infected animals, and particularly to soluble CD4. These results indicate that mutations distinct from those typically seen for HIV-1 may be required for SIVmac to gain CXCR4 utilization and suggest that these changes render this virus more susceptible to humoral immune control. Collectively, our findings indicate that there are likely to be strong viral and host selection pressures against CXCR4 use that may contribute to the paucity of X4 coreceptor switching for SIVmac in vivo.     

Baicalein induces proliferation inhibition in B16F10 melanoma cells by generating reactive oxygen species via 12-lipoxygenase

In a previous study, we demonstrated that baicalein induces hydroxyl radical formation in human platelets but the mechanisms are unclear. Herein, we show, using an electron spin resonance technique, that baicalein also induces hydroxyl radical formation in B16F10 melanoma cells in a dose-dependent manner. Baicalein produced superoxide anions in the presence of an iron chelator and superoxide dismutase (SOD) inhibitor. We suggest that superoxide anions produced by baicalein were promptly converted to hydroxyl radicals through SOD and the Fenton reaction in B16F10 melanoma cells. According to Western blotting results, the 12-LOX protein was expressed in B16F10 melanoma cells, but baicalein had no effect on 12-LOX expression. Decreases in 12-LOX protein expression and hydroxyl radical signals occurred in a 12-LOX small interfering RNA knockdown protein group compared with the baicalein control. In the MTT assay, we also found that baicalein caused a reduction in cellular viability, which was reversed by the addition of ROS scavengers. On the basis of these data, we conclude that ROS formation catalyzed by 12-LOX is one possible mechanism of growth inhibition by baicalein in B16F10 melanoma cells.