Discovery of XEN445: A potent and selective endothelial lipase inhibitor raises plasma HDL-cholesterol concentration in mice

Endothelial lipase (EL) activity has been implicated in HDL metabolism and in atherosclerotic plaque development; inhibitors are proposed to be efficacious in the treatment of dyslipidemia related cardiovascular disease. We describe here the discovery of a novel class of anthranilic acids EL inhibitors. XEN445 (compound 13) was identified as a potent and selective EL inhibitor, that showed good ADME and PK properties, and demonstrated in vivo efficacy in raising plasma HDLc concentrations in mice.     

模型实验教学在组织学与胚胎学实验教学中的尝试

组织学与胚胎学是重要的医学基础课,属于形态学科。目前,组织学与胚胎学实验教学多采用数码互动实验教学,切片观察为主要手段,而切片观察主要是观察组织的平面结构,欠缺立体结构的观察。模型实验教学是以组织学与胚胎学的形态为中心组织学生制作立体模型,启发学生思维,充分发挥想象力,培养学生的动手能力和实践能力。     

Negative Regulation of Interferon-induced Transmembrane Protein 3 by SET7-mediated Lysine Monomethylation

Although lysine methylation is classically known to regulate histone function, its role in modulating antiviral restriction factor activity remains uncharacterized. Interferon-induced transmembrane protein 3 (IFITM3) was found monomethylated on its lysine 88 residue (IFITM3-K88me1) to reduce its antiviral activity, mediated by the lysine methyltransferase SET7. Vesicular stomatitis virus and influenza A virus infection increased IFITM3-K88me1 levels by promoting the interaction between IFITM3 and SET7, suggesting that this pathway could be hijacked to support infection; conversely, IFN-α reduced IFITM3-K88me1 levels. These findings may have important implications in the design of therapeutics targeting protein methylation against infectious diseases.     

Intermediates in the Guanine Nucleotide Exchange Reaction of Rab8 Protein Catalyzed by Guanine Nucleotide Exchange Factors Rabin8 and GRAB

Small G-proteins of the Ras superfamily control the temporal and spatial coordination of intracellular signaling networks by acting as molecular on/off switches. Guanine nucleotide exchange factors (GEFs) regulate the activation of these G-proteins through catalytic replacement of GDP by GTP. During nucleotide exchange, three distinct substrate·enzyme complexes occur: a ternary complex with GDP at the start of the reaction (G-protein·GEF·GDP), an intermediary nucleotide-free binary complex (G-protein·GEF), and a ternary GTP complex after productive G-protein activation (G-protein·GEF·GTP). Here, we show structural snapshots of the full nucleotide exchange reaction sequence together with the G-protein substrates and products using Rabin8/GRAB (GEF) and Rab8 (G-protein) as a model system. Together with a thorough enzymatic characterization, our data provide a detailed view into the mechanism of Rabin8/GRAB-mediated nucleotide exchange.     

Differential regulation of CaMKIIα interactions with mGluR5 and NMDA receptors by Ca2+ in neurons

Two glutamate receptors, metabotropic glutamate receptor 5 (mGluR5), and ionotropic NMDA receptors (NMDAR), functionally interact with each other to regulate excitatory synaptic transmission in the mammalian brain. In exploring molecular mechanisms underlying their interactions, we found that Ca²⁺/calmodulin‐dependent protein kinase IIα (CaMKIIα) may play a central role. The synapse‐enriched CaMKIIα directly binds to the proximal region of intracellular C terminal tails of mGluR5 in vitro. This binding is state‐dependent: inactive CaMKIIα binds to mGluR5 at a high level whereas the active form of the kinase (following Ca²⁺/calmodulin binding and activation) loses its affinity for the receptor. Ca²⁺ also promotes calmodulin to bind to mGluR5 at a region overlapping with the CaMKIIα‐binding site, resulting in a competitive inhibition of CaMKIIα binding to mGluR5. In rat striatal neurons, inactive CaMKIIα constitutively binds to mGluR5. Activation of mGluR5 Ca²⁺‐dependently dissociates CaMKIIα from the receptor and simultaneously promotes CaMKIIα to bind to the adjacent NMDAR GluN2B subunit, which enables CaMKIIα to phosphorylate GluN2B at a CaMKIIα‐sensitive site. Together, the long intracellular C‐terminal tail of mGluR5 seems to serve as a scaffolding domain to recruit and store CaMKIIα within synapses. The mGluR5‐dependent Ca²⁺ transients differentially regulate CaMKIIα interactions with mGluR5 and GluN2B in striatal neurons, which may contribute to cross‐talk between the two receptors.

     

Betaine attenuates Alzheimer‐like pathological changes and memory deficits induced by homocysteine

Hyperhomocysteinemia (Hhcy) may induce memory deficits with β‐amyloid (Aβ) accumulation and tau hyperphosphorylation. Simultaneous supplement of folate and vitamin B12 partially restored the plasma homocysteine level and attenuated tau hyperphosphorylation, Aβ accumulation and memory impairments induced by Hhcy. However, folate and vitamin B12 treatment have no effects on Hhcy which has the methylenetetrahydrofolate reductase genotype mutation. In this study, we investigated the effects of simultaneous supplement of betaine on Alzheimer‐like pathological changes and memory deficits in hyperhomocysteinemic rats after a 2‐week induction by vena caudalis injection of homocysteine (Hcy). We found that supplementation of betaine could ameliorate the Hcy‐induced memory deficits, enhance long‐term potentiation (LTP) and increase dendritic branches numbers and the density of the dendritic spines, with up‐regulation of NR1, NR2A, synaptotagmin, synaptophysin, and phosphorylated synapsin I protein levels. Supplementation of betaine also attenuated the Hcy‐induced tau hyperphosphorylation at multiple AD‐related sites through activation protein phosphatase‐2A (PP2A) with decreased inhibitory demethylated PP2A_C at Leu309 and phosphorylated PP2A_C at Tyr307. In addition, supplementation of betaine also decreased Aβ production with decreased presenilin‐1 protein levels. Our data suggest that betaine could be a promising candidate for arresting Hcy‐induced AD‐like pathological changes and memory deficits.     

Synergistic roles of leaf boron and calcium during the growing season in affecting sugar and starch accumulation in ripening apple fruit

Fruit sugar content is one of the most important flavor quality traits in the fresh market. Minerals, such as boron (B) and calcium (Ca), are associated with fruit sugar and starch accumulation in many plant species. To better understand the roles of B and Ca in affecting sugar and starch accumulation in apples, 2 g L^?1 Na₂B₄O₇·10H₂O or 10 g L^?1 CaCl₂ was supplied by foliar spray to 20-year-old ‘Fuji’ (Malus domestica Borkh. cv. Fuji) trees at four developmental stages (fruit set, onset of rapid fruit growth, rapid fruit growth and the end of rapid fruit growth), in 2010–2011. The most effective treatment significantly increasing soluble sugar and starch levels in ripening fruit was the foliar application of 2 g L^?1 Na₂B₄O₇·10H₂O during rapid fruit growth, and the robustness of the effects was confirmed for two cultivars, ‘Fuji’ and ‘Orin’, at three orchards in 2011. Foliar applications of B during the onset of rapid fruit growth and rapid fruit growth, as well as the foliar application of Ca at fruit set, significantly increased the soluble sugar content in ripening fruit. In addition, the B application was effective in increasing the fruit starch content, but Ca was not. Both B and Ca treatments significantly increased the leaf concentrations of the other element at least transiently. However, B and Ca effects on fruit sugar/starch did not seem to depend on higher leaf B or Ca levels. In conclusion, B and Ca interact in enhancing fruit sugar and starch contents at the fruit ripening stage.     

Serum proteomic profiling for the early diagnosis of colorectal cancer

No ideal serum biomarker currently exists for the early diagnosis of colorectal cancer (CRC). Magnetic bead‐based fractionation coupled with MALDI‐TOF MS was used to screen serum samples from CRC patients, healthy controls, and other cancer patients. A diagnostic model with five proteomic features (m/z 1778.97, 1866.16, 1934.65, 2022.46, and 4588.53) was generated using Fisher algorithm with best performance. The Fisher‐based model could discriminate CRC patients from the controls with 100% (46/46) sensitivity and 100% (35/35) specificity in the training set, 95.6% (43/45) sensitivity and 83.3% (35/42) specificity in the test set. We further validated the model with 94.4% (254/269) sensitivity and 75.5% (83/110) specificity in the external independent group. In other cancers group, the Fisher‐based model classified 25 of 46 samples (54.3%) as positive and the other 21 as negative. With FT‐ICR‐MS, the proteomic features of m/z 1778.97, 1866.16, 1934.65, and 2022.46, of which intensities decreased significantly in CRC, were identified as fragments of complement C3f. Therefore, the Fisher‐based model containing five proteomic features was able to effectively differentiate CRC patients from healthy controls and other cancers with a high sensitivity and specificity, and may be CRC‐specific. Serum complement C3f, which was significantly decreased in CRC group, may be relevant to the incidence of CRC. J. Cell. Biochem. 114: 448–455, 2013. © 2012 Wiley Periodicals, Inc.     

Isolation and partial characterization of a bacteriocin produced by Lactobacillus plantarum BM‐1 isolated from a traditionally fermented Chinese meat product

Lactobacillus plantarum BM‐1 isolated from a traditionally fermented Chinese meat product was found to produce a novel bacteriocin that is active against a wide range of gram‐positive and gram‐negative bacteria. Production of the bacteriocin BM‐1 started early in the exponential phase and its maximum activity (5120 AU/mL) was recorded early during the stationary phase (16 hr). Bacteriocin BM‐1 is sensitive to proteolytic enzymes but stable in the pH range of 2.0–10.0 and heat‐resistant (15 min at 121°C). This bacteriocin was purified through pH‐mediated cell adsorption–desorption and cation‐exchange chromatography on an SP Sepharose Fast Flow column. The molecular weight of the purified bacteriocin BM‐1 was determined to be 4638.142 Da by electrospray ionization Fourier transform mass spectrometry. Furthermore, the N‐terminal amino acid sequence was obtained through automated Edman degradation and found to comprise the following 15 amino acid residues: H₂N‐Lys‐Tyr‐Tyr‐Gly‐Asn‐Gly‐Val‐Tyr‐Val‐Gly‐Lys‐His‐Ser‐Cys‐Ser. Comparison of this sequence with that of other bacteriocins revealed that bacteriocin BM‐1 contains the consensus YGNGV amino acid motif near the N‐terminus. Based on its physicochemical characteristics, molecular weight, and N‐terminal amino acid sequence, plantaricin BM‐1 is a novel class IIa bacteriocin.     

Development of rRNA-targeted probes for detection of Prorocentrum micans (Dinophyceae) using whole cell in situ hybridization

Prorocentrum is a common dinoflagellate genus along the Chinese seacoast, which frequently causes harmful algal blooms. Efforts to understand and prevent blooms caused by these harmful species require the development of methods for rapid and precise identification and quantification so that an adequate early warning of harmful algal blooms may be given. Here, we report the development and application of rRNA-targeted oligonucleotide probes for fluorescence in situ hybridization (FISH) to aid in the detection of Prorocentrum micans. The hypervariable D1–D2 regions of a large subunit rDNA of a strain isolated from East China Sea identified as P. micans were first sequenced to design species-specific probes. Analysis of sequences identified as P. micans and deposited in GenBank revealed significant base differences among them and phylogenetic analyses revealed multiple clades within the taxon P. micans. Thus, it is likely that more than one taxonomic and genetically distinct entity has been identified as P. micans, if not misidentified. A series of probes were identified to one of these clades and tested for their specificity. Second, whole cell in situ hybridization procedures were established and the optimal probes were screened among the candidate probes. Next, cross-reactivity was performed to test the specificity of the probes and the detection reliability under various culture conditions, including different nutrient levels, temperatures, and light intensities. Finally, an improved protocol for natural samples was applied to the field material. The designed rRNA-targeted probe was specific, showing no cross-reactivity with other microalgae. The optimized detection protocol could be completed within 1.5 h. All target cells were speculated to be identified during all stages of their whole growth cycle under different culture conditions because the difference in fluorescence intensities throughout the experiment was not significant (p?>?0.05). The cell densities determined by FISH and light microscopy (LM) were comparable, without any significant difference (p?>?0.05) between them. In general, the established FISH probe was promising for specific, rapid, precise detection of a selected set of P. micans in natural samples and served as a good detection model for other Prorocentrum in the future.