β-arrestin与β-肾上腺素受体

2012年度诺贝尔化学奖授予了美国科学家罗伯特.莱夫科维茨（Robert J.Lefkowitz）和布莱恩.克比尔卡（Brian K.Kobilka）,以表彰他们在G蛋白偶联受体研究中的贡献。从Robert J.Lefkowitz最初研究β-肾上腺素受体（β-adrenergic receptor,β-AR）减敏机制时发现β-arrestin1至今已有20多年,随着对β-arrestin在细胞信号转导中作用研究的逐渐深入,发现β-arrestin参与β-AR的减敏、内化和降解;近年来又发现,依赖β-arrestin的β-AR信号转导通路具有＂偏向激活＂现象,并提示这种依赖β-arrestin的＂偏向激活＂信号转导通路具有心脏保护作用。β-肾上腺素受体阻滞剂的发现和临床应用被视为20世纪药物治疗学上里程碑式的进展,是药物防治心脏疾病的最伟大突破,很多心血管药物都以β-AR为靶点。但是,由于目前受体药物均是针对受体本身的调控,这样在阻断了受体介导的病理性信号通路和功能的同时,也阻断了受体介导的正常生理性信号通路和功能,造成了严重的毒副作用。所以,研发能选择性阻滞β-AR过度激活介导的病理性信号通路和功能的同时,保留受体介导的正常生理性信号通路和功能（如β-arrestin信号通路）的药物,对治疗心血管疾病有重要意义,受体功能选择性的配体药物将成为未来药物的研究方向。该文将回顾β-arrestin的发现过程,综述其与β-AR的相互作用,期望能为心脏疾病的药物治疗提供参考。     

稳定表达β-synuclein的SH-SY5Y细胞株的构建

目的构建稳定表达β-synuclein的SH-SY5Y细胞株。方法利用脂质体转染技术将质粒pcD-NA3.1-β-synuclein转染SH-SY5Y细胞,通过Zeocin进行抗性筛选。采用原位免疫荧光、免疫组织化学染色及Western blot杂交检测β-synuclein在SH-SY5Y细胞中的表达情况;通过MTT比色法检测β-synuclein稳定表达对SH-SY5Y细胞增殖的影响。结果原位免疫荧光、免疫组织化学染色及Western blot检测结果显示β-synuclein在SH-SY5Y细胞中的表达水平较对照组明显升高;稳定表达β-synuclein的细胞增殖程度较对照组明显增高(P<0.05)。结论β-synuclein在SH-SY5Y细胞中稳定表达,为后续的研究提供有用的细胞模型。为进一步研究β-sy-nuclein对帕金森病发病神经保护作用的研究奠定了良好的基础。     

Synthesis and evaluation of styrylpyran fluorophores for noninvasive detection of cerebral β-amyloid deposits

The development of amyloid-specific fluorophores allows the visualization of cerebral β-amyloid deposits using optical imaging technology. In the present study, a series of smart styrylpyran fluorophores with compact donor–acceptor architecture were designed and evaluated for noninvasive detection of cerebral β-amyloid deposits. Spectral behavior of the fluorophores changed significantly (optical turn-on) upon binding to β-amyloid aggregates. Computational studies were conducted to correlate the experimental K_d values with calculated binding energies, speculating the relationship between fluorophore structure and β-amyloid affinity. In vivo studies demonstrated that PAD-2 could discriminate APP/PS1 transgenic mice from wild type controls, with specific labeling of cerebral β-amyloid deposits confirmed by ex vivo observation. Collectively, these styrylpyran fluorophores could provide a new scaffold for the development of optical imaging probes targeting cerebral β-amyloid deposits.     

Conversion of β-citraurin to reticulataxanthin and β-apo-8′-carotenal to citranaxanthin during the isolation of carotenoids from Citrus

Reticulataxanthin and citranaxanthin were found to be artifacts formed from β-citraurin and β-apo-8′-carotenal during the saponification of citrus carotenoids in the presence of small amounts of acetone. The reaction takes place at room temperature under normal conditions of extraction. Based on these studies it was concluded that β-citraurin rather than reticulataxanthin is the main pigment contributing to the external reddish color of a number of citrus cultivars.     

β-xylosidases and a nonspecific wall-bound β-glucosidase of the yeast cryptococcus albidus

Cryptococcus albidus grown on wood xylans possesses a soluble intracellular β-xylosidase (EC 3.2.1.37) as an additional constituent of the xylan-degrading enzyme system of this yeast. The enzyme attacks linear 1,4-β-xylooligosaccharides in an exo-fashion, liberating xylose from the non-reducing ends. The activity of the enzyme increases in the cells during growth on xylan and incubation with xylobiose or methyl β-D-xylopyranoside which are the best inducers of extracellular β-xylanase (EC 3.2.1.8). Various alkyl-, alkyl-1-thio- and aryl β-D-xylopyranosides were excellent of a different β-xylosidase of Cryptococcus albidus. This enzyme is localized outside the plasma membrane and is principally associated with cell walls. Unlike the soluble intracellular β-xylosidase, the wall-bound enzyme does not hydrolyze xylooligosaccharides. Evidence has been obtained that β-xylosidase activity in the cell walls is not due to the presence of a specific aryl β-xylosidase, but is exhibited by a nonspecific β-glucosidase (EC 3.2.1.21) inducible by β-D-xylopyranosides. The ratio of β-glucosidase and β-xylosidase activity in the cells and isolated cell walls from yeast induced by various β-xylopyranosides and β-glucopyranosides was very similar. Both wall-bound activities were inhibited in a similar pattern by inhibitors of β-glucosidases, 1,5-gluconolactone and nojirimycin. This bifunctional enzyme does not bear any relationship to the utilization of xylans in Cryptococcus albidus.     

The eccentric cleavage product of β-carotene, β-apo-13-carotenone, functions as an antagonist of RXRα

In this study, we investigated the effects of eccentric cleavage products of β-carotene, i.e. β-apocarotenoids (BACs), on retinoid X receptor alpha (RXRα) signaling. Transactivation assays were performed to test whether BACs activate or antagonize RXRα. Reporter gene constructs (RXRE-Luc, pRL-tk) and RXRα were transfected into Cos-1 cells and used to perform these assays. None of the BACs tested activated RXRα. Among the compounds tested, β-apo-13-carotenone was found to antagonize the activation of RXRα by 9-cis-retinoic acid and was effective at concentrations as low as 1 nM. Molecular modeling studies revealed that β-apo-13-carotenone makes molecular interactions like an antagonist of RXRα. The results suggest a possible function of BACs on RXRα signaling.     

Elucidation of the anticancer potential and tubulin isotype-specific interactions of β-sitosterol

Beta-sitosterol (β-SITO), a phytosterol present in many edible vegetables, has been reported to possess antineoplastic properties and cancer treatment potential. We have shown previously that it binds at a unique site (the ‘SITO-site’) compared to the colchicine binding site at the interface of α- and β-tubulin. In this study, we investigated the anticancer efficacy of β-SITO against invasive breast carcinoma using MCF-7 cells. Since ‘isotypes’ of β-tubulin show tissue-specific expression and many are associated with cancer drug resistance, using computer-assisted docking and atomistic molecular dynamic simulations, we also examined its binding interactions to all known isotypes of β-tubulin in αβ-tubulin dimer. β-SITO inhibited MCF-7 cell viability by up to 50%, compared to vehicle-treated control cells. Indicating its antimetastatic potential, the phytosterol strongly inhibited cell migration. Immunofluorescence imaging of β-SITO-treated MCF-7 cells exhibited disruption of the microtubules and chromosome organization. Far-UV circular dichroism spectra indicated loss of helical stability in tubulin when bound to β-SITO. Docking and MD simulation studies, combined with MM-PBSA and MM-GBSA calculations revealed that β-SITO preferentially binds with specific β-tubulin isotypes (β_II and β_III) in the αβ-tubulin dimer. Both these β-tubulin isotypes have been implicated in drug resistance against tubulin-targeted chemotherapeutics. Our data show the tubulin-targeted anticancer potential of β-SITO, and its potential clinical utility against β_II and β_III isotype-overexpressing neoplasms.     

Ultrafast folding and molecular dynamics of a linear hydrophobic β-hairpin

The first computational study of the folding and dynamics of a hydrophobic β-hairpin containing a central heterochiral diproline segment is reported. Linear hydrophobic sequences containing centrally positioned diproline motifs, heterochiral (DL/LD) and homochiral (LL/DD)), are investigated for their ability to form β-hairpins. Heterochiral diproline motifs (LD/DL) reveal the formation of stable β-hairpins with the backbone adopting β-turn conformation and the formation of backbone hydrogen bonds with antiparallel cross-strand registry, whereas the homochiral diproline (LL/DD) containing sequences tend to adopt PP_II helix conformation. The competition between the β-turn formation and the backbone H-bond ladder of the antiparallel β-strands in heterochiral diproline containing sequences is employed to validate the hypothesis that β-turn formation precedes inter-strand registry in the folding of a β-hairpin (“zipper” mechanism). The observation of noncanonical hydrogen bonds leads to a folded β-hairpin-like conformation and points to the existence of relatively stable transition state intermediates, between the unfolded (extended) and folded (β-hairpin) states. The MD simulations are in excellent agreement with the experimental studies on the model system and constitute the very first computational investigation of the folding and dynamics of a completely hydrophobic synthetic β-hairpin containing heterogeneous residues of mixed chirality.     

Multi-strand β-sheet of Alzheimer Aβ(1–40) folds to β-strip helix: implication for protofilament formation

X-ray fiber diffraction experiments on Alzheimer Aβ(1–40) fibrils formed in an assembly process thought to simulate a portion of the pathophysiological process in Alzheimer's disease, indicated protofilaments with tilted β-strands rather than strands oriented perpendicular to the fibril axis as is usually interpreted from cross-β patterns. The protofilament width and tilt angle determined by these experiments were used to predict a β-strip helix model – a β-helix-like structure in which multiple identical polypeptide molecules assemble in-register to form a helical sheet structure such that the outer strands 1 and m join with a register shift t – with m = 11 and t = 22. Starting from untwisted β-sheets comprising 10, 11, and 12 strands, multiple explicit solvent molecular dynamics (MD) simulations were performed to determine whether the sheets form β-strip helices matching the dimensions of the experimentally measured protofilament. In the simulations, the predicted 11-strand sheets curled up to form a closed β-strip helix-like structure with dimensions matching experimental values, whereas the 10- and 12-strand sheets did not form a closed helical structure. The 12-strand structure did, however, show similarity to a cross-β structure determined by a solid-state NMR experiment. The 11-strand β-strip helix resembles a trans-membrane β-barrel which could explain the ability of small oligomers of Aβ(1–40) to form toxic ion channels. A further consequence of opposite sides of the 11-strand strip coming together at a register shift of 22 is end-to-end joins between neighboring β-strip helices, resulting in a protofilament that keeps growing in both directions.

Communicated by Ramaswamy H. Sarma     

Gap junctions mediate STAT5-independent β-casein expression in CID-9 mammary epithelial cells

Crosstalk between gap junction intracellular communication (GJIC), STAT5 and OCT-1 in gap junction (GJ)-dependent β-casein expression was investigated. CID-9 mammary cells plated with prolactin on non-adherent substratum (poly-HEMA) expressed β-casein independent of STAT5 only in the presence of the GJIC inducer, cAMP. Nuclear STAT5 levels were not detectable. By contrast, cells on EHS-drip expressed β-casein in a STAT5-dependent manner and nuclear STAT5 levels were up-regulated. A 75 kDa OCT-1 isoform was detected in conditions that induced β-casein expression regardless of substratum. Interestingly, 40 and 28 kDa OCT-1 isoforms were induced in cells on polyHEMA with cAMP. Electrophoretic mobility shift assays (EMSA) for OCT-1 revealed two band shifts in cells on polyHEMA with cAMP and on EHS-drip, which were repressed by the GJIC inhibitor, 18α-GA. These studies demonstrated that mammary cells on polyHEMA expressed β-casein in response to prolactin in a pathway that involves GJIC and OCT-1 and is independent of STAT5 nuclear translocation.     

人β-基因3’旁侧的多态性BamHⅠ位点及其在β-地贫产前诊断中的意义

用印迹杂交技术和β-珠蛋白基因探针测定了中国人β-株蛋白基因3’旁侧BamHⅠ多态性位点。22kb带在β~A染色体上出现的频率为32％,但在β~T染色体上出现的频率为0。BamHⅠ多态性位点分布频率的这一特点在β-地贫产前诊断中具有重要意义。     

Hydroxytyrosol and oleuropein of olive oil inhibit mast cell degranulation induced by immune and non-immune pathways

The aim of this study was to determine whether hydroxytyrosol and oleuropein, the major phenols found in olives and olive oil, inhibit mast cell activation induced by immune and non-immune pathways. Purified peritoneal mast cells were preincubated in the presence of test compounds (hydroxytyrosol or oleuropein), before incubation with concanavalin A, compound 48/80 or calcium ionophore A23187. Dose–response and time-dependence studies were carried out. Comparative studies with sodium cromoglycate, a classical mast cell stabilizer, were also made. After incubation the supernatants and pellets were used to determine the β-hexosaminidase content by colorimetric reaction. The percentage of β-hexosaminidase release in each tube was calculated and taken as a measure of mast cell activation. Other samples of cell pellets were used for cell viability studies by the trypan blue dye exclusion test, or fixed for light and electron microscopy. Biochemical and morphological findings of the present study showed for the first time that hydroxytyrosol and oleuropein inhibit mast cell degranulation induced by both immune and non-immune pathways. These results suggest that olive phenols, particularly hydroxytyrosol and oleuropein, may provide insights into the development of useful tools for the prevention and treatment of mast cell-mediated disorders.     

β-tubulin在输卵管妊娠着床部位与非着床部位的表达

目的探讨β-tubulin在输卵管妊娠着床部位与非着床部位的表达及其意义。方法采用免疫组织化学方法和图像分析技术检测正常输卵管分泌期、输卵管妊娠着床部位与非着床部位β-tubulin的表达。图像分析技术检测各组输卵管粘膜上皮组织中的β-tubulin表达的平均光密度值,并分别比较正常输卯管分泌期与输卵管妊娠非着床部位、输卵管妊娠非着床部位与着床部位粘膜上皮中β-tubulin表达的差异。结果输卵管妊娠非着床部位β-tubulin的表达弱于正常输卵管分泌期;输卵管妊娠着床部位β-tubulin的表达弱于非着床部位。差异均有显著性（P〈0．05）。结论β-tubulin的低表达可能是引起人输卵管妊娠的因素之一。     

人直肠癌β-葡糖苷酶同工酶的动力学研究

 本文对人直肠癌及癌旁组织(对照)的β-葡糖苷酶同工酶的分离、底物动力学和某些物质的影响做了初步探索。结果表明:在这两种组织中分别存在三种同工酶。一种是胞液酶,Km值为1.18mmol/L(对照为1.13mmol/L),受NaCl和抗癌药WB非竞争性抑制;第二种是溶酶休可溶性酶,Km值为2.38mmol/L(对照为2.94mmol/L),不受NaCl影响,受WB的混合型抑制,直肠癌此酶受顺铂的竞争性抑制;第三种是溶酶体膜结合酶,受NaCl激活,使底物动力学由负协同性酶变为米氏酶。肿瘤组织中三种同工酶活性均高于癌旁组织中相应的酶活性。     

Causes of the Production of Multiple Forms of β-Galactosidase by Bacillus circulans

The presence of multiple types of β-galactosidases in a commercial enzyme preparation from Bacillus circulans ATCC 31382 and differences in their transgalactosylation activity were investigated. Four β-galactosidases, β-Gal-A, β-Gal-B, β-Gal-C, and β-Gal-D, which were immunologically homologous, were isolated and characterized. The N-terminal amino acid sequences of all of the enzymes were identical and biochemical characteristics were similar, except for galactooligosaccharide production. β-Gal-B, β-Gal-C, and β-Gal-D produced mainly tri- and tetra saccharides at maximum yields of 20–30 and 9–12%, while β-Gal-A produced trisaccharide with 7% with 5% lactose as substrate. The Lineweaver-Burk plots for all of the enzymes, except for β-Gal-A, showed biphasic behavior. β-Gal-A was truncated to yield multiple β-galactosidases by treatment with protease isolated from the culture broth of B. circulans. Treatment of β-Gal-A with trypsin yielded an active 91-kDa protein composed of 21-kDa and 70-kDa proteins with characteristics similar to those for β-Gal-D.     

Aided-efflux and high production of β-amyrin realized by β-cyclodextrin in situ synthesized on surface of Saccharomyces cerevisiae

As a plant-derived pentacyclic triterpenoid, β-amyrin has been heterogeneously synthesized in Saccharomyces cerevisiae. However, β-amyrin is intracellularly produced in a lower gram scale using recombinant S. cerevisiae, which limits the industrial applications. Although many strategies have been proven to be effective to improve the production of β-amyrin, the intracellularly accumulation is still a challenge in reaching higher titer and simplifying the extraction process. To solve this problem, the amphiphilic β-cyclodextrin (β-CD) has been previously employed to aid the efflux of β-amyrin out of the cells. Nevertheless, the supplemented β-CD in the medium is not consistent with β-amyrin synthesis and has the disadvantage of rather high cost. Therefore, an aided-efflux system based on in situ synthesis of β-CD was developed in this study to enhance the biosynthesis of β-amyrin and its efflux. The in situ synthesis of β-CD was started from starch by the surface displayed cyclodextrin glycosyltransferase (CGTase) on yeast cells. As a result, the synthesized β-CD could capture 16% of the intracellular β-amyrin and improve the total production by 77%. Furthermore, more strategies including inducing system remodeling, precursor supply enhancement, two-phase fermentation and lipid synthesis regulation were employed. Finally, the production of β-amyrin was increased to 73 mg/L in shake flask, 31 folds higher than the original strain, containing 31 mg/L of extracellular β-amyrin. Overall, this work provides novel strategies for the aided-efflux of natural products with high hydrophobicity in engineered S. cerevisiae.     

β-Lapachone attenuates mitochondrial dysfunction in MELAS cybrid cells

Mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS) is a mitochondrial disease caused by mutations in the mitochondrial genome. This study investigated the efficacy of β-lapachone (β-lap), a natural quinone compound, in rescuing mitochondrial dysfunction in MELAS cybrid cells. β-Lap significantly restored energy production and mitochondrial membrane potential as well as normalized the elevated ROS level in MELAS cybrid cells. Additionally, β-lap reduced lactic acidosis and restored glucose uptake in the MELAS cybrid cells. Finally, β-lap activated Sirt1 by increasing the intracellular NAD⁺/NADH ratio, which was accompanied by increased mtDNA content. Two other quinone compounds (idebenone and CoQ10) that have rescued mitochondrial dysfunction in previous studies of MELAS cybrid cells had a minimal effect in the current study. Taken together, these results demonstrated that β-lap may provide a novel therapeutic modality for the treatment of MELAS.     

Vibrio cholerae hemolysin: The β-trefoil domain is required for folding to the native conformation

Vibrio cholerae cytolysin/hemolysin (VCC) is a 65 kDa β-pore-forming toxin causing lysis and death of eukaryotic cells. Apart from the core cytolysin domain, VCC has two lectin domains with β-trefoil and β-prism folds. The β-prism domain binds to cell surface carbohydrate receptors; the role of the β-trefoil domain is unknown. Here, we show that the pro-VCC mutant without the β-trefoil domain formed aggregates highly susceptible to proteolysis, suggesting lack of a properly folded compact structure. The VCC variants with Trp532Ala or Trp534Ala mutation in the β-trefoil domain formed hemolytically inactive, protease-resistant, ring-shaped SDS-labile oligomers with diameters of ~19 nm. The Trp mutation induced a dramatic change in the global conformation of VCC, as indicated by: (a) the change in surface polarity from hydrophobic to hydrophilic; (b) movement of core Trp residues to the protein-water interface; and (c) decrease in reactivity to the anti-VCC antibody by >100-fold. In fact, the mutant VCC had little similarity to the wild toxin. However, the association constant for the carbohydrate-dependent interaction mediated by the β-prism domain decreased marginally from ~3×10⁸ to ~5×10⁷ M^?1. We interpret the observations by proposing: (a) the β-trefoil domain is critical to the folding of the cytolysin domain to its active conformation; (b) the β-prism domain is an autonomous folding unit.