两种缘毛类纤毛虫胞质Hsp70基因序列的克隆及其系统发育分析

克隆得到2种缘毛类纤毛虫——钟形钟虫(Vorticella campanula)和螅状独缩虫(Carchesium polypinum)的胞质Hsp70基因部分序列,长度均为438bp,编码146个氨基酸。以细菌为外类群,利用最大似然法和邻接法构建包括其他5种纤毛虫在内的共26个物种的Hsp70基因氨基酸序列系统发育树,其拓扑结构显示：V．campanula和C．polypinum聚在一起,并与另2种寡膜纲的嗜热四膜虫(Tetrahymena thermophila)及草履虫(Paramecium tetraurelia)聚为姊妹枝,提示了缘毛类纤毛虫为单系,且隶属于寡膜纲的系统发育地位。     

Up-regulation of the peroxisomal β-oxidation system occurs in butyrate-grown Candida tropicalis following disruption of the gene encoding peroxisomal 3-ketoacyl-CoA thiolase

In the yeast Candida tropicalis, two thiolase isozymes, peroxisomal acetoacetyl-CoA thiolase and peroxisomal 3-ketoacyl-CoA thiolase, participate in the peroxisomal fatty acid β-oxidation system. Their individual contributions have been demonstrated in cells grown on butyrate, with C. tropicalis able to grow in the absence of either one. In the present study, a lack of peroxisomal 3-ketoacyl-CoA thiolase protein resulted in increased expression (up-regulation) of acetoacetyl-CoA thiolase and other peroxisomal proteins, whereas a lack of peroxisomal acetoacetyl-CoA thiolase produced no corresponding effect. Overexpression of the acetoacetyl-CoA thiolase gene did not suppress the up-regulation or the growth retardation on butyrate in cells without peroxisomal 3-ketoacyl-CoA thiolase, even though large amounts of the overexpressed acetoacetyl-CoA thiolase were detected in most of the peroxisomes of butyrate-grown cells. These results provide important evidence of the greater contribution of 3-ketoacyl-CoA thiolase to the peroxisomal β-oxidation system than acetoacetyl-CoA thiolase in C. tropicalis and a novel insight into the regulation of the peroxisomal β-oxidation system.     

Structural basis for the broad range substrate specificity of a novel mouse cytosolic sulfotransferase—mSULT1D1

The mouse cytosolic sulfotransferase, mSULT1D1, catalyzes the sulfonation of a wide range of phenolic molecules including p-nitrophenol (pNP), α-naphthol (αNT), serotonin, as well as dopamine and its metabolites. To gain insight into the structural basis for its broad range substrate specificity, we solved two distinct ternary crystal structures of mSULT1D1, complexed with 3′-phosphoadenosine-5′-phosphate (PAP) plus pNP or PAP plus αNT. The structures revealed that the mSULT1D1 contains an L-shaped accepter-binding site which comprises 20 amino acid residues and four conserved water molecules. The shape of the accepter-binding site can be adjusted by conformational changes of two residues, Ile148 and Glu247, upon binding with respective substrates.     

Expression of novel cytosolic malate dehydrogenases (cMDH) in Lupinus angustifolius nodules during phosphorus starvation

During P deficiency, the increased activity of malate dehydrogenase (MDH, EC 1.1.1.37) can lead to malate accumulation. Cytosolic- and nodule-enhanced MDH (cMDH and neMDH, respectively) are known isoforms, which contribute to MDH activity in root nodules. The aim of this study was to investigate the role of the cMDH isoforms in nodule malate supply under P deficiency. Nodulated lupins (Lupinus angustifolius var. Tanjil) were hydroponically grown at adequate P (+P) or low P (−P). Total P concentration in nodules decreased under P deficiency, which coincided with an increase in total MDH activity. A consequence of higher MDH activity was the enhanced accumulation of malate derived from dark CO₂ fixation via PEPC and not from pyruvate. Although no measurable neMDH presence could be detected via PCR, gene-specific primers detected two 1 kb amplicons of cMDH, designated LangMDH1 (corresponding to +P, HQ690186) and LangMDH2 (corresponding to −P, HQ690187), respectively. Sequencing analyses of these cMDH amplicons showed them to be 96% identical on an amino acid level. There was a high degree of diversification between proteins detected in this study and other known MDH proteins, particularly those from other leguminous plants. Enhanced malate synthesis in P-deficient nodules was achieved via increased anaplerotic CO₂ fixation and subsequent higher MDH activities. Novel isoforms of cytosolic MDH may be involved, as shown by gene expression of specific genes under P deficiency.     

Apoplastic and cytosolic expression of full‐size antibodies and antibody fragments in Nicotiana tabacum

We compared the expression of a functional recombinant TMVspecific fullsize antibody (rAb29) in both the apoplast and cytosol of tobacco plants and a single chain antibody fragment (scFv29), derived from rAb29, was expressed in the cytosol. Cloned heavy and light chain cDNAs of fullsize rAb29, which binds to TMV coat protein monomers, were integrated into the plant expression vector pSS. The fullsize rAb29 was expressed in the cytosol and targeted to the apoplast by including the original murine antibody leader sequences. Levels of functional fullsize rAb29 expression were high in the apoplast (up to 8.5g per gram leaf tissue), whereas cytosolic expression was low or at the ELISA detection limit. Sequences of the variable domains of rAb29 light and heavy chain were used to generate the single chain antibody scFv29, which was expressed in the periplasmic space of E.coli and showed the same binding specificity as fullsize rAb29. In addition, scFv29 was functionally expressed in the cytosol of tobacco plants and plant derived scFv29 maintained same binding specificity to TMVcoat protein monomers as rAb29.     

Heterochromatin protein (HP)1γ is not only in the nucleus but also in the cytoplasm interacting with actin in both cell compartments

Confocal and electron microscopy images, and WB analysis of cellular fractions revealed that HP1γ is in the nucleus but also in the cytoplasm of C2C12 myoblasts, myotubes, skeletal and cardiac muscles, N2a, HeLa and HEK293T cells. Signal specificity was tested with different antibodies and by HP1γ knockdown. Leptomycin B treatment of myoblasts increased nuclear HP1γ, suggesting that its nuclear export is Crm-1-dependent. HP1γ exhibited a filamentous pattern of staining partially co-localizing with actin in the cytoplasm of myotubes and myofibrils. Immunoelectron microscopic analysis showed high-density immunogold particles that correspond to HP1γ localized to the Z-disk and A-band of the sarcomere of skeletal muscle. HP1γ partially co-localized with actin in C2C12 myotubes and murine myofibrils. Importantly, actin co-immunoprecipitated with HP1γ in the nuclear and cytosolic fractions of myoblasts. Actin co-immunoprecipitated with HP1γ in myoblasts incubated in the absence or presence of the actin depolymerizing agent cytochalasin D, suggesting that HP1γ may interact with G-and F-actin. In the cytoplasm, HP1γ was associated to the perinuclear actin cap that controls nuclear shape and position. In the nucleus, re-ChIP assays showed that HP1γ-actin associates to the promoter and transcribed regions of the house keeping gene GAPDH, suggesting that HP1γ may function as a scaffold protein for the recruitment of actin to control gene expression. When HP1γ was knocked-down, myoblasts were unable to differentiate or originated thin myotubes. In summary, HP1γ is present in the nucleus and the cytoplasm interacting with actin, a protein complex that may exert different functions depending on its subcellular localization.     

Structure-activity relationship studies on 1-(5-carboxyindol-1-yl)-propan-2-one inhibitors of human cytosolic phospholipase A2α: variation of the activated ketone moiety

Indole-5-carboxylic acids with 3-aryloxy-2-oxopropyl residues in position 1 have been found to be potent inhibitors of human cytosolic phospholipase A₂α (cPLA₂α). In course of structure-activity relationship studies, we investigated the effect of the substitution of the electrophilic ketone group in the middle part of the molecule by other polar residues, such as hydroxyimino, azido, acyloxy, acylamino, urea and carbamate, on enzyme inhibition. With an IC₅₀ of 1.7 μM against cPLA₂α from human platelets, the 4-fluorophenylcarbamate derivative 23f was the most active of the compounds tested.     

Toxicity induced by cumene hydroperoxide in PC12 cells: protective role of thiol donors

Oxidative shock and production of reactive oxygen species are known to play a major role in situations leading to neuron degeneration, but the precise mechanisms responsible for cell degeneration remain uncertain. In the present article, we have studied in PC 12 cells the effect of cumene hydroxyperoxide on both cell metabolism and morphology. We observed that relatively low concentrations of the drug (100 μM) led to a significant decrease in the cellular content of ATP and reduced glutathione as well as to a decreased mitochondrial potential. These metabolic alterations were followed by an important increase in intracellular free calcium and membrane disruption and death. In parallel, we observed profound changes in cell morphology with a shortening of cell extensions, the formation of ruffles and blebs at the cell surface, and a progressive detachment of the cells from the surface of the culture flasks. We also showed that addition of thiol donors such as N-acetylcysteine or β-mercaptoethanol, which were able to enhance cell glutathione content, almost completely protected PC 12 cells from the toxic action of cumene hydroperoxide whereas pretreatment by buthionine sulfoximine, a selective inhibitor of GSH synthesis, enhanced its action.     

Thermodynamic characterization of cytosolic phospholipase A2 alpha inhibitors

Cytosolic phospholipase A₂ alpha (cPLA₂α, type IVA phospholipase) acts at the membrane surface to release free arachidonic acid, which is metabolized into inflammatory mediators, including leukotrienes and prostaglandins. Thus, specific cPLA₂α inhibitors are predicted to have antiinflammatory properties. However, a key criterion in the identification and development of such inhibitors is to distinguish between compounds that bind stoichiometrically to cPLA₂α and nonspecific membrane perturbants. In the current study, we developed a method employing isothermal titration calorimetry (ITC) to characterize the binding of several distinct classes of cPLA₂α inhibitors. Thermodynamic parameters and the binding constants were obtained following titration of the inhibitor to the protein at 30 °C and pH 7.4. The compounds tested bound cPLA₂α with a 1:1 stoichiometry, and the dissociation constant K_d of the inhibitors calculated from the ITC experiments correlated well with the IC₅₀ values obtained from enzymatic assays. Interestingly, binding was observed only in the presence of a micellar surface, even for soluble compounds. The site of binding of these inhibitors within cPLA₂α was analyzed by testing for binding in the presence of methyl arachidonyl fluorophosphonate (MAFP), an irreversible active site inhibitor of cPLA₂α. Lack of binding of inhibitors in the presence of MAFP suggested that the compounds tested bound specifically at or near the active site of the protein. Furthermore, the effect of various detergents on the binding of certain inhibitors to cPLA₂α was also tested. The results are discussed with reference to thermodynamic parameters such as changes in enthalpy (ΔH), entropy (ΔS), and free energy (ΔG). The data obtained from these studies provide not only structure-activity relationships for compounds but also important information regarding mechanism of binding. This is the first example of ITC used for studying inhibitors of enzymes with interfacial kinetics.