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181.
The mammalian immune system has cytotoxic mechanisms, both cellular and humoral, that destroy the membrane integrity of target
cells. The main effector molecules of these cytolytic mechanisms—perforin, used by killer lymphocytes, and the membrane attack
complex (MAC) components of the complement system—share a unique module called the MAC/perforin module. Until now, both immunological
cytotoxicity and the MAC/perforin module have been reported only in jawed vertebrates. Here, we report the identification
of a protein containing the MAC/perforin module from the invertebrate cephalochordate, amphioxus (Branchiostoma belcheri), using expressed sequence tag (EST) analysis of the notochord. The deduced amino acid sequence of this molecule is most
similar to the primary structure of human complement component C6 and is designated AmphiC6. AmphiC6 shares a unique modular
structure, including the MAC/perforin module, with human C6 and other MAC components. Another EST clone predicts the presence
of a thioester-containing protein with the closest structural similarity to vertebrate C3 (therefore designated AmphiC3).
AmphiC3 retains most of the functionally important residues of vertebrate C3 and is shown by phylogenetic analysis to be derived
directly from the common ancestor of vertebrate C3, C4, and C5. Only opsonic activity has been assigned to the invertebrate
complement system until now. Therefore, this is the first molecular evidence for complement-mediated immunological cytotoxicity
in invertebrates.
Received: 24 August 2001 / Accepted: 12 November 2001 相似文献
182.
Robert C. Jennings Flavio M. Garlaschi Paolo D. Gerola Rachel Etzion-Katz Giorgio Forti 《BBA》1981,638(1):100-107
Lowering the pH of the incubation medium to pH 5.4 leads to grana formation morphologically similar to that induced by metal cations. The same phenomenon is observed in EDTA-washed chloroplasts, indicating that it is not due in part to electrostatic ‘masking’ by residual cations associated with the membranes. Digitonin fractionation studies have indicated that the distribution of the major chlorophyll-protein complexes between granal and stromal membrane regions is similar at pH 5.4 in the absence of Mg2+, and at pH 7.4 in the presence of Mg2+. Chlorophyll fluorescence induction studies have indicated that the primary photochemistry of Photosystem II (PS II) is stimulated by lowering the pH to 5.4, just as it is upon metal cation addition at higher pH values. The failure to observe such an increase at pH 5.4 by measuring electron transport to ferricyanide is attributed to a combination of an inhibition by this pH of electron transport at a site after Q reduction and an increase in the number of PS II centres detached from the plastoquinone pool. We conclude that the stacked configuration of chloroplast membranes leads to increased PS II primary photochemistry, which is most simply explained in terms of a redistribution of excitation energy towards PS II. 相似文献
183.
Eric W. Ainscough Andrew M. Brodie William A. Denny Graeme J. Finlay John D. Ranford 《Journal of inorganic biochemistry》1998,70(3-4):175-185
The preparation of N-, S- and O-donor ligand adducts with CuX+(HX=6-methyl-2-formylpyridinethiosemicarbazone (6HL); 2-formylpyridine-2′-methylthiosemicarbazone (2′L); 2-formylpyridine-4′-methylthiosemicarbazone (4′HL)) is described. The N-donors, 2,2′-bipyridyl (bipy), 4-dimethylaminopyridine (dmap) give the complexes [Cu(6L)(bipy)]PF6, [Cu(6L)(bipy)]Cl·5H2O, [Cu(4′L)(bipy)]PF6, [Cu(6L)(dmap)2]PF6·2.5 H2O and [Cu(4′L)(dmap)2]PF6·H2O which have been characterized by physical and spectroscopic techniques. Pentafluorothiophenolate (pftp) gives S-donor complexes [CuX(pftp)] (X=6L and 4′L) and thiolato co-ordination is proposed on the basis of spectroscopic evidence. Paratritylphenolate (ptp) and HPO2−4 give O-donor complexes [Cu(6L)(ptp)], [Cu(4′L)(ptp)], [{Cu(6L)}2HPO4]·4H2O, and [{Cu(4′L)}2HPO4]·5H2O which have been characterized by physical and spectroscopic techniques, as have the precursor complexes [Cu(6L)(CH3COO)]·H2O, [Cu(4′L)(CH3COO)], Cu(6HL)(CF3COO)](CF3COO)·0.5H2O, [Cu(4′HL)(CF3COO)](CF3COO), [Cu(2′L)Cl2] and [Cu(2′L)(NO3)2]. Protonation constants for the ligands and some of their complexes have been determined. 2-Formylpyridinethiosemicarbazone (HL) complexes of silver, gold, zinc, mercury, cadmium and lead are also discussed. Cytotoxicity against the human tumor cell line HCT-8 and antiviral data for selected compounds are presented. 相似文献
184.
McKenna MC 《Neurochemistry international》2011,59(4):525-533
Metabolism of glutamate, the primary excitatory neurotransmitter in brain, is complex and of paramount importance to overall brain function. Thus, understanding the regulation of enzymes involved in formation and disposal of glutamate and related metabolites is crucial to understanding glutamate metabolism. Glutamate dehydrogenase (GDH) is a pivotal enzyme that links amino acid metabolism and TCA cycle activity in brain and other tissues. The allosteric regulation of GDH has been extensively studied and characterized. Less is known about the influence of lipid modifications on GDH activity, and the participation of GDH in transient heteroenzyme complexes (metabolons) that can greatly influence metabolism by altering kinetic parameters and lead to channeling of metabolites. This review summarizes evidence for palmitoylation and acylation of GDH, information on protein binding, and information regarding the participation of GDH in transient heteroenzyme complexes. Recent studies suggest that a number of other proteins can bind to GDH altering activity and overall metabolism. It is likely that these modifications and interactions contribute additional levels of regulation of GDH activity and glutamate metabolism. 相似文献
185.
The Pro-rich, PH, and SH2 domain containing mitogenic signaling adapter PSM/SH2-B has been implicated as a cellular partner of various mitogenic receptor tyrosine kinases and related signaling mechanisms. Here, we report in a direct comparison of three peptide hormones, that PSM participates in the assembly of distinct mitogenic signaling complexes in response to insulin or IGF-I when compared to PDGF in cultured normal fibroblasts. The complex formed in response to insulin or IGF-I involves the respective peptide hormone receptor and presumably the established components leading to MAP kinase activation. However, our data suggest an alternative link from the PDGF receptor via PSM directly to MEK1/2 and consequently also to p44/42 activation, possibly through a scaffold protein. At least two PSM domains participate, the SH2 domain anticipated to link PSM to the respective receptor and the Pro-rich region in an association with an unidentified downstream component resulting in direct MEK1/2 and p44/42 regulation. The PDGF receptor signaling complex formed in response to PDGF involves PI 3-kinase in addition to the same components and interactions as described for insulin or IGF-I. PSM associates with PI 3-kinase via p85 and in addition the PSM PH domain participates in the regulation of PI 3-kinase activity, presumably through membrane interaction. In contrast, the PSM Pro-rich region appears to participate only in the MAP kinase signal. Both pathways contribute to the mitogenic response as shown by cell proliferation, survival, and focus formation. PSM regulates p38 MAP kinase activity in a pathway unrelated to the mitogenic response. 相似文献
186.
Guiseppina Silletta Maria Colanzi Antonino Weigert Roberto Di Girolamo Maria Santone Ivana Fiucci Giusy Mironov Alexander De Matteis Maria Antonietta Luini Alberto Corda Daniela 《Molecular and cellular biochemistry》1999,193(1-2):43-51
The fungal toxin brefeldin A (BFA) dissociates coat proteins from Golgi membranes, causes the rapid disassembly of the Golgi complex and potently stimulates the ADP-ribosylation of two cytosolic proteins of 38 and 50 kDa. These proteins have been identified as the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and a novel guanine nucleotide binding protein (BARS-50), respectively. The role of ADP-ribosylation in mediating the effects of BFA on the structure and function of the Golgi complex was analyzed by several approaches including the use of selective pharmacological blockers of the reaction and the use of ADP-ribosylated cytosol and/or enriched preparations of the BFA-induced ADP-ribosylation substrates, GAPDH and BARS-50.A series of blockers of the BFA-dependent ADP-ribosylation reaction identified in our laboratory inhibited the effects of BFA on Golgi morphology and, with similar potency, the ADP-ribosylation of BARS-50 and GAPDH. In permeabilized RBL cells, the BFA-dependent disassembly of the Golgi complex required NAD+ and cytosol. Cytosol that had been previously ADP-ribosylated (namely, it contained ADP-ribosylated GAPDH and BARS-50), was instead sufficient to sustain the Golgi disassembly induced by BFA.Taken together, these results indicate that an ADP-ribosylation reaction is part of the mechanism of action of BFA and it might intervene in the control of the structure and function of the Golgi complex. 相似文献
187.
Transport between the cytoplasm and the nucleus 总被引:1,自引:0,他引:1
Summary Active transport of proteins and RNAs across the nuclear-pore complex (NPC) is mediated by a family of related transport receptors which shuttle between the cytoplasm and the nucleoplasm. A number of import and export pathways have been described. Some transport substrates require adapters which mediate association with certain transporters. The transport receptors specifically bind to a recognition signal within the transport substrate or adapter, pass the NPC in one direction, and deliver their cargo to the other side of the nuclear envelope. The Ran GTPase is the crucial regulator of bidirectional transport. Ran-modulating proteins establish an asymmetric intracellular distribution of Ran. As a result, Ran is mainly bound to GTP in the nucleus and to GDP in the cytoplasm. Evidently, RanGTP regulates binding and release of the transport substrates by binding to the transport receptors in the nucleus as well as the transport direction across the NPC. However, little is known about the molecular mechanism of translocation through the NPC. 相似文献
188.
Pare JM López-Orozco J Hobman TC 《Biochemical and biophysical research communications》2011,(1):259-264
Argonaute proteins are the core components of the RNA-induced silencing complex, the central effector of the mammalian RNA interference pathway. In the cytoplasm, they associate with at least two types of cytoplasmic RNA granules; processing bodies and stress granules, which function in mRNA degradation and translational repression, respectively. The significance of Argonaute association with these RNA granules is not entirely clear but it is likely related to their activities within the RNAi pathway. Understanding what regulates targeting of Argonautes to RNA granules may provide clues as to their functions at these organelles. To this end, there are a number of conflicting reports that describe the role of small RNAs in targeting Argonaute proteins in mammalian cells. We employed quantitative microscopic analyses of human Argonaute 2 (hAgo2) mutants to study factors that govern localization of this RNA-binding protein to cytoplasmic RNA granules. We report, for the first time, that hAgo2 is recruited to stress granules as a consequence of its interaction with miRNAs. Moreover, loading of small RNAs onto hAgo2 is not required for its stability, suggesting that a pool of unloaded hAgo2 may exist for extended periods of time in the cytoplasm. 相似文献
189.
A chiral spin crossover iron(II) complex, fac-Λ-[FeII(HLR)3](ClO4)2·EtOH was synthesized and its crystal structures in both the high-spin (HS) and low-spin (LS) states were determined, where HLR denotes 2-methylimidazol-4-yl-methylideneamino-R-(+)-1-methylphenyl. The complex assumes octahedral coordination geometry of N6 donor atoms by three bidentate ligands HLR. The complex exists as the facial-Λ-isomer of fac-Λ-[FeII(HLR)3]2+ of the possible geometrical fac- and mer-isomers and the Δ- and Λ-enantiomorphs. The X-ray structural analyses revealed that the R-form of the ligand (HLR) induces the fac-Λ-isomer of fac-Λ-[FeII(HLR)3]2+ and the S-form of the ligand (HLS) induces the fac-Δ-isomer of fac-Δ-[Fe(HLS)3]2+. The complex fac-Λ-[FeII(HLR)3](ClO4)2·EtOH shows a complete steep spin crossover between the HS and the LS states at T1/2 = 195 K. 相似文献
190.
Mary Ann Checkley 《Journal of molecular biology》2011,410(4):582-608
The HIV-1 envelope (Env) glycoproteins play an essential role in the virus replication cycle by mediating the fusion between viral and cellular membranes during the entry process. The Env glycoproteins are synthesized as a polyprotein precursor (gp160) that is cleaved by cellular proteases to the mature surface glycoprotein gp120 and the transmembrane glycoprotein gp41. During virus assembly, the gp120/gp41 complex is incorporated as heterotrimeric spikes into the lipid bilayer of nascent virions. These gp120/gp41 complexes then initiate the infection process by binding receptor and coreceptor on the surface of target cells. Much is currently known about the HIV-1 Env glycoprotein trafficking pathway and the structure of gp120 and the extracellular domain of gp41. However, the mechanism by which the Env glycoprotein complex is incorporated into virus particles remains incompletely understood. Genetic data support a major role for the cytoplasmic tail of gp41 and the matrix domain of Gag in Env glycoprotein incorporation. Still to be defined are the identities of host cell factors that may promote Env incorporation and the role of specific membrane microdomains in this process. Here, we review our current understanding of HIV-1 Env glycoprotein trafficking and incorporation into virions. 相似文献