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151.
152.
Alice A. Torres Stephanie L. Macilwee Amir Rashid Sarah E. Cox Jonas D. Albarnaz Claudio A. Bonjardim Geoffrey L. Smith 《PLoS pathogens》2022,18(2)
Cellular proteins often have multiple and diverse functions. This is illustrated with protein Spir-1 that is an actin nucleator, but, as shown here, also functions to enhance innate immune signalling downstream of RNA sensing by RIG-I/MDA-5. In human and mouse cells lacking Spir-1, IRF3 and NF-κB-dependent gene activation is impaired, whereas Spir-1 overexpression enhanced IRF3 activation. Furthermore, the infectious virus titres and sizes of plaques formed by two viruses that are sensed by RIG-I, vaccinia virus (VACV) and Zika virus, are increased in Spir-1 KO cells. These observations demonstrate the biological importance of Spir-1 in the response to virus infection. Like cellular proteins, viral proteins also have multiple and diverse functions. Here, we also show that VACV virulence factor K7 binds directly to Spir-1 and that a diphenylalanine motif of Spir-1 is needed for this interaction and for Spir-1-mediated enhancement of IRF3 activation. Thus, Spir-1 is a new virus restriction factor and is targeted directly by an immunomodulatory viral protein that enhances virus virulence and diminishes the host antiviral responses. 相似文献
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Rosangela Marchelli Roberto Corradini Terenzio Bertuzzi Gianni Galaverna Arnaldo Dossena Francesco Gasparrini Beatrice Galli Claudio Villani Domenico Misiti 《Chirality》1996,8(6):452-461
The copper(II) complexes of two new diastereomeric ligands, N2-(R)- and N2-(S)-2′-hydroxypropyl-(S)-phenylalaninamide [(R, S)-1 and (S, S)-1], have been used as additives to the eluent in high-performance liquid chromatography (HPLC) reversed phase for the chiral separation of DNS-amino acids. The aim was that of comparing the separation process obtained by the chiral eluent with that obtained by an analogous bonded stationary phase containing (S)-phenylalaninamide, previously studied [CSP-(S)-Phe-NH2]. The affinity of the ternary complexes for the C18 column was determined by adsorption experiments in HPLC. It was shown that the two systems (chiral eluent, chiral stationary phase) work according to different mechanisms. Ternary complex formation in solution was studied by fluorescence spectroscopy. It was shown that chiral separation with the Cu(II) complexes added to the eluent was determined by the relative affinities of the ternary complexes for the column-stationary phase rather than by their stabilities in solution. With CSP-(S)-Phe-NH2 the separation is accounted for by the relative stabilities of the ternary complexes, which depends mainly on the “allowed” geometry of the complex and on the steric repulsion of the amino acid side chain with the spacer. © 1996 Wiley-Liss, Inc. 相似文献
155.
Massimo De Vincenzi Roberto Luchetti Claudio Giovannini Norberto E. Pogna Carlo Saponaro Giovanni Galterio Giovanni Gasbarrini 《Journal of biochemical and molecular toxicology》1996,11(6):313-318
Peptic-tryptic digests of alcohol-soluble proteins from flours of 10 accessions of Triticum monococcum with contrasting storage protein compositions and bread-making characteristics were found unable to agglutinate K562(S) cells even at a peptide concentration as high as 14 g/L, agglutination being strongly correlated with toxicity in celiac disease. When fractionated by affinity chromatography on Sepharose-6B coupled with mannan, peptic-tryptic digests separated into three fractions. Fraction C peptides were shown to agglutinate K562(S) cells, whereas peptides in fractions A and B and in the mixed fraction B + C were inactive, suggesting that fraction B contains “protective” peptides that interfere with toxic peptides in fraction C in their agglutinating activity. These results offer an opportunity to study the biochemical and genetic bases of wheat toxicity at the diploid level. Moreover, the reduced toxicity, if any, of Triticum monococcum in the celiac disease, along with the good grain characteristics of some “monococcum” accessions, greatly increases the economical prospects of this wheat species. © 1997 John Wiley & Sons, Inc. J Biochem Toxicol 11: 313–318, 1997. 相似文献
156.
Batool Ossareh-Nazari Carlos A. Ni?o Mario H. Bengtson Joong-Won Lee Claudio A.P. Joazeiro Catherine Dargemont 《The Journal of cell biology》2014,204(6):909-917
Autophagy, the process by which proteins or organelles are engulfed by autophagosomes and delivered for vacuolar/lysosomal degradation, is induced to ensure survival under starvation and other stresses. A selective autophagic pathway for 60S ribosomal subunits elicited by nitrogen starvation in yeast—ribophagy—was recently described and requires the Ubp3-Bre5 deubiquitylating enzyme. This discovery implied that an E3 ligases act upstream, whether inhibiting the process or providing an initial required signal. In this paper, we show that Ltn1/Rkr1, a 60S ribosome-associated E3 implicated in translational surveillance, acts as an inhibitor of 60S ribosomal subunit ribophagy and is antagonized by Ubp3. The ribosomal protein Rpl25 is a relevant target. Its ubiquitylation is Ltn1 dependent and Ubp3 reversed, and mutation of its ubiquitylation site rendered ribophagy less dependent on Ubp3. Consistently, the expression of Ltn1—but not Ubp3—rapidly decreased after starvation, presumably to allow ribophagy to proceed. Thus, Ltn1 and Ubp3-Bre5 likely contribute to adapt ribophagy activity to both nutrient supply and protein translation. 相似文献
157.
Yanyan Guo Hushan Yuan Natalie M. Claudio Sreekanth Kura Naomi Shakerdge Thorsten R. Mempel Brian J. Bacskai Lee Josephson 《PloS one》2014,9(4)
“PEG-like Nanoprobes” (PN’s) are pharmacokinetically and optically tunable nanomaterials whose disposition in biological systems can be determined by fluorescence or radioactivity. PN’s feature a unique design where a single PEG polymer surrounds a short fluorochrome and radiometal bearing peptide, and endows the resulting nanoprobe with pharmacokinetic control (based on molecular weight of the PEG selected) and optical tunability (based on the fluorochrome selected), while the chelate provides a radiolabeling option. PN’s were used to image brain capillary angiography (intravital 2-photon microscopy), tumor capillary permeability (intravital fluorescent microscopy), and the tumor enhanced permeability and retention (EPR) effect (111In-PN and SPECT). Clinical applications of PN’s include use as long blood half-life fluorochromes for intraoperative angiography, for measurements of capillary permeability in breast cancer lesions, and to image EPR by SPECT, for stratifying patient candidates for long-circulating nanomedicines that may utilize the EPR mechanism. 相似文献
158.
Rashpal S. Dhillon Yiming Qin Paul R. van Ginkel Vivian X. Fu James M. Vann Alexis J. Lawton Cara L. Green Fúlvia B. ManchadoGobatto Claudio A. Gobatto Dudley W. Lamming Tomas A. Prolla John M. Denu 《Aging cell》2022,21(12)
Mitochondrial NAD+‐dependent protein deacetylase Sirtuin3 (SIRT3) has been proposed to mediate calorie restriction (CR)‐dependent metabolic regulation and lifespan extension. Here, we investigated the role of SIRT3 in CR‐mediated longevity, mitochondrial function, and aerobic fitness. We report that SIRT3 is required for whole‐body aerobic capacity but is dispensable for CR‐dependent lifespan extension. Under CR, loss of SIRT3 (Sirt3 −/− ) yielded a longer overall and maximum lifespan as compared to Sirt3 +/+ mice. This unexpected lifespan extension was associated with altered mitochondrial protein acetylation in oxidative metabolic pathways, reduced mitochondrial respiration, and reduced aerobic exercise capacity. Also, Sirt3 −/− CR mice exhibit lower spontaneous activity and a trend favoring fatty acid oxidation during the postprandial period. This study shows the uncoupling of lifespan and healthspan parameters (aerobic fitness and spontaneous activity) and provides new insights into SIRT3 function in CR adaptation, fuel utilization, and aging. 相似文献
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160.
Malchiodi-Albedi F Paradisi S Di Nottia M Simone D Travaglione S Falzano L Guidotti M Frank C Cutarelli A Fabbri A Fiorentini C 《PloS one》2012,7(4):e34115
Modulation of cerebral Rho GTPases activity in mice brain by intracerebral administration of Cytotoxic Necrotizing Factor 1 (CNF1) leads to enhanced neurotransmission and synaptic plasticity and improves learning and memory. To gain more insight into the interactions between CNF1 and neuronal cells, we used primary neuronal and astrocytic cultures from rat embryonic brain to study CNF1 effects on neuronal differentiation, focusing on dendritic tree growth and synapse formation, which are strictly modulated by Rho GTPases. CNF1 profoundly remodeled the cytoskeleton of hippocampal and cortical neurons, which showed philopodia-like, actin-positive projections, thickened and poorly branched dendrites, and a decrease in synapse number. CNF1 removal, however, restored dendritic tree development and synapse formation, suggesting that the toxin can reversibly block neuronal differentiation. On differentiated neurons, CNF1 had a similar effacing effect on synapses. Therefore, a direct interaction with CNF1 is apparently deleterious for neurons. Since astrocytes play a pivotal role in neuronal differentiation and synaptic regulation, we wondered if the beneficial in vivo effect could be mediated by astrocytes. Primary astrocytes from embryonic cortex were treated with CNF1 for 48 hours and used as a substrate for growing hippocampal neurons. Such neurons showed an increased development of neurites, in respect to age-matched controls, with a wider dendritic tree and a richer content in synapses. In CNF1-exposed astrocytes, the production of interleukin 1β, known to reduce dendrite development and complexity in neuronal cultures, was decreased. These results demonstrate that astrocytes, under the influence of CNF1, increase their supporting activity on neuronal growth and differentiation, possibly related to the diminished levels of interleukin 1β. These observations suggest that the enhanced synaptic plasticity and improved learning and memory described in CNF1-injected mice are probably mediated by astrocytes. 相似文献