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991.
Merlino A Russo Krauss I Rossi B Vergara A De Vendittis A Marco S De Vendittis E Sica F 《Biochimie》2012,94(3):768-775
Superoxide dismutases are enzymes that protect biological systems against oxidative damage caused by superoxide radicals. In this paper, a detailed characterization is presented on the stability of SmSOD, the dimeric cambialistic superoxide dismutase from the dental pathogenic microorganism Streptococcus mutans, towards temperature and guanidine hydrochloride. Thermal and chemical denaturations were investigated by means of circular dichroism, fourth-derivative UV spectroscopy and fluorescence measurements. Data indicate that SmSOD is endowed with a significant thermostability and that both its thermal and guanidine hydrochloride-induced unfolding processes occur through a three-state model, characterized by a catalytically active dimeric intermediate species. To our knowledge, SmSOD is the smallest known dimeric protein that populates a well-structured active dimeric rather than a monomeric intermediate during unfolding processes. 相似文献
992.
Mardones L Zúñiga FA Villagrán M Sotomayor K Mendoza P Escobar D González M Ormazabal V Maldonado M Oñate G Angulo C Concha II Reyes AM Cárcamo JG Barra V Vera JC Rivas CI 《Free radical biology & medicine》2012,52(9):1874-1887
Although there is in vivo evidence suggesting a role for glutathione in the metabolism and tissue distribution of vitamin C, no connection with the vitamin C transport systems has been reported. We show here that disruption of glutathione metabolism with buthionine-(S,R)-sulfoximine (BSO) produced a sustained blockade of ascorbic acid transport in rat hepatocytes and rat hepatoma cells. Rat hepatocytes expressed the Na(+)-coupled ascorbic acid transporter-1 (SVCT1), while hepatoma cells expressed the transporters SVCT1 and SVCT2. BSO-treated rat hepatoma cells showed a two order of magnitude decrease in SVCT1 and SVCT2 mRNA levels, undetectable SVCT1 and SVCT2 protein expression, and lacked the capacity to transport ascorbic acid, effects that were fully reversible on glutathione repletion. Interestingly, although SVCT1 mRNA levels remained unchanged in rat hepatocytes made glutathione deficient by in vivo BSO treatment, SVCT1 protein was absent from the plasma membrane and the cells lacked the capacity to transport ascorbic acid. The specificity of the BSO treatment was indicated by the finding that transport of oxidized vitamin C (dehydroascorbic acid) and glucose transporter expression were unaffected by BSO treatment. Moreover, glutathione depletion failed to affect ascorbic acid transport, and SVCT1 and SVCT2 expression in human hepatoma cells. Therefore, our data indicate an essential role for glutathione in controlling vitamin C metabolism in rat hepatocytes and rat hepatoma cells, two cell types capable of synthesizing ascorbic acid, by regulating the expression and subcellular localization of the transporters involved in the acquisition of ascorbic acid from extracellular sources, an effect not observed in human cells incapable of synthesizing ascorbic acid. 相似文献
993.
Bucciantini M Nosi D Forzan M Russo E Calamai M Pieri L Formigli L Quercioli F Soria S Pavone F Savistchenko J Melki R Stefani M 《FASEB journal》2012,26(2):818-831
The interaction of amyloid aggregates with the cell plasma membrane is currently considered among the basic mechanisms of neuronal dysfunction in amyloid neurodegeneration. We used amyloid oligomers and fibrils grown from the yeast prion Sup35p, responsible for the specific prion trait [PSI(+)], to investigate how membrane lipids modulate fibril interaction with the membranes of cultured H-END cells and cytotoxicity. Sup35p shares no homology with endogenous mammalian polypeptide chains. Thus, the generic toxicity of amyloids and the molecular events underlying cell degeneration can be investigated without interference with analogous polypeptides encoded by the cell genome. Sup35 fibrils bound to the cell membrane without increasing its permeability to Ca(2+). Fibril binding resulted in structural reorganization and aggregation of membrane rafts, with GM1 clustering and alteration of its mobility. Sup35 fibril binding was affected by GM1 or its sialic acid moiety, but not by cholesterol membrane content, with complete inhibition after treatment with fumonisin B1 or neuraminidase. Finally, cell impairment resulted from caspase-8 activation after Fas receptor translocation on fibril binding to the plasma membrane. Our observations suggest that amyloid fibrils induce abnormal accumulation and overstabilization of raft domains in the cell membrane and provide a reasonable, although not unique, mechanistic and molecular explanation for fibril toxicity. 相似文献
994.
TLQP-21, a vgf-derived peptide modulates gastric emptying and prevents ethanol-induced gastric lesions in rats. However, it remains to be
studied whether or not TLQP-21 affects gastric acid secretion. In this study, we evaluated the effects of central (0.8–8 nmol/rat)
or peripheral (48–240 nmol/kg, intraperitoneally) TLQP-21 administration on gastric acid secretion in pylorus-ligated rats.
The mechanisms involved in such activity were also examined. Central TLQP-21 injection significantly reduced gastric acid
volume and dose-dependently inhibited total acid output (ED50 = 2.71 nmol), while peripheral TLQP-21 administration had no effect. The TLQP-21 antisecretory activity was prevented by
cysteamine (300 mg/kg, subcutaneously), a depletor of somatostatin, by indomethacin (0.25 mg/rat, intracerebroventricularly),
a non-selective cyclooxygenase inhibitor, and by functional ablation of sensory nerves by capsaicin. We conclude that TLQP-21
could be considered a new member of the large group of regulatory peptides affecting gastric acid secretion. The central inhibitory
effect of TLQP-21 on gastric acid secretion is mediated by endogenous somatostatin and prostaglandins and requires the integrity
of sensory nerve fibres. 相似文献
995.
Saverio Tardito Martina Chiu Renata Franchi-Gazzola Valeria Dall’Asta Paola Comi Ovidio Bussolati 《Amino acids》2012,42(6):2507-2512
l-Methionine sulfoximine (MSO) and dl-Phosphinothricin (PPT), two non-proteinogenic amino acids known as inhibitors of Glutamine Synthetase, cause a dose-dependent increase in the phosphorylation of the mTOR substrate S6 kinase 1. The effect is particularly evident in glutamine-depleted cells, where mTOR activity is very low, but is detectable for PPT also in the presence of glutamine. The stimulation of mTOR activity by either MSO or PPT is strongly synergized by essential amino acids. Thus, the non-proteinogenic amino acids MSO and PPT are mTOR activators. 相似文献
996.
Gisela Di Giusto Pilar Flamenco Valeria Rivarola Juan Fernández Luciana Melamud Paula Ford Claudia Capurro 《Journal of cellular biochemistry》2012,113(12):3721-3729
We have previously demonstrated that in renal cortical collecting duct cells (RCCD1) the expression of the water channel Aquaporin 2 (AQP2) raises the rate of cell proliferation. In this study, we investigated the mechanisms involved in this process, focusing on the putative link between AQP2 expression, cell volume changes, and regulatory volume decrease activity (RVD). Two renal cell lines were used: WT‐RCCD1 (not expressing aquaporins) and AQP2‐RCCD1 (transfected with AQP2). Our results showed that when most RCCD1 cells are in the G1‐phase (unsynchronized), the blockage of barium‐sensitive K+ channels implicated in rapid RVD inhibits cell proliferation only in AQP2‐RCCD1 cells. Though cells in the S‐phase (synchronized) had a remarkable increase in size, this enhancement was higher and was accompanied by a significant down‐regulation in the rapid RVD response only in AQP2‐RCCD1 cells. This decrease in the RVD activity did not correlate with changes in AQP2 function or expression, demonstrating that AQP2—besides increasing water permeability—would play some other role. These observations together with evidence implying a cell‐sizing mechanism that shortens the cell cycle of large cells, let us to propose that during nutrient uptake, in early G1, volume tends to increase but it may be efficiently regulated by an AQP2‐dependent mechanism, inducing the rapid activation of RVD channels. This mechanism would be down‐regulated when volume needs to be increased in order to proceed into the S‐phase. Therefore, during cell cycle, a coordinated modulation of the RVD activity may contribute to accelerate proliferation of cells expressing AQP2. J. Cell. Biochem. 113: 3721–3729, 2012. © 2012 Wiley Periodicals, Inc. 相似文献
997.
998.
The guanidine hydrochloride‐induced conformational transitions of glycosomal triosephosphate isomerase (TIM) were monitored with functional, spectroscopic, and hydrodynamic measurements. The equilibrium folding pathway was found to include two intermediates (N2?I2?2M?2U). According to this model, the conformational stability parameters of TIM are as follows: ΔGI2‐N2 = 5.5 ± 0.6, ΔG2M‐I2=19.6 ± 1.6, and ΔG2U‐2M = 14.7 ± 3.1 kcal mol?1. The I2 state is compact (αSR = 0.8); it is able to bind 8‐anilinonaphthalene‐1‐sulfonic acid ANS and it is composed of ~45% of α‐helix and tertiary structure content compared with the native enzyme; however, it is unable to bind the transition‐state analog 2‐phosphoglycolate. Conversely, the 2M state lacks detectable tertiary contacts, possesses ~10% of the native α‐helical content, is significantly expanded (αSR = 0.2), and has low affinity for ANS. We studied the effect of mutating cysteine residues on the structure and stability of I2 and 2M. Three mutants were made: C39A, C126A, and C39A/C126A. The replacement of C39, which is located at β2, was found to be neutral. The I2–C126A state, however, was prone to aggregation and exhibited an emission maximum that was 3‐nm red‐shifted compared with the I2–wild type, indicating solvent exposure of W90 at β4. Our results suggest that the I2 state comprises the (βα)1‐4β5 module in which the conserved C126 residue located at β5 defines the boundary of the folded segment. We propose a folding pathway that highlights the remarkable thermodynamic stability of this glycosomal enzyme. Proteins 2012; © 2012 Wiley Periodicals, Inc. 相似文献
999.
Human granzyme B (hGB) is a serine protease involved in immune‐mediated apoptosis. Its cytotoxicity makes it potentially applicable in cancer therapy. However, the effectiveness of hGB can be hampered by the cytosolic expression of a natural protein inhibitor, human Serpin B9 (hSB9). Here, we used computational approaches to identify hGB mutations that can affect its binding to hSB9 without significantly decreasing its catalytic efficiency. Alanine‐scanning calculations allowed us to identify residues of hGB important for the interaction with hSB9. Some variants were selected, and molecular dynamic simulations on the mutated hGB in complex with hSB9 in aqueous solution were carried out to investigate the effect of these variants on the stability of the complex. The R28K, R201A, and R201K mutants significantly destabilized the interaction of the protein with hSB9. Consistently, all of these variants also retained their activity in the presence of the Serpin B9 inhibitor in subsequent in vitro assays of wild‐type and mutated hGB. In particular, the activity of R201K hGB with and without Serpin B9 is very similar to that of the wild‐type protein. Hence, R201K hGB emerges as a promising species for antitumoral therapy applications. Proteins 2012. © 2012 Wiley Periodicals, Inc. 相似文献
1000.
Bravo-Almonacid F Rudoy V Welin B Segretin ME Bedogni MC Stolowicz F Criscuolo M Foti M Gomez M López M Serino G Cabral S Dos Santos C Huarte M Mentaberry A 《Transgenic research》2012,21(5):967-982
Solanum tuberosum ssp. tuberosum (cv. Spunta) was transformed with a chimeric transgene containing the Potato virus Y (PVY) coat protein (CP) sequence. Screening for PVY resistance under greenhouse conditions yielded over 100 independent candidate lines. Successive field testing of selected lines allowed the identification of two genetically stable PVY-resistant lines, SY230 and SY233, which were further evaluated in field trials at different potato-producing regions in Argentina. In total, more than 2,000 individuals from each line were tested along a 6-year period. While no or negligible PVY infection was observed in the transgenic lines, infection rates of control plants were consistently high and reached levels of up to 70-80%. Parallel field studies were performed in virus-free environments to assess the agronomical performance of the selected lines. Tubers collected from these assays exhibited agronomical traits and biochemical compositions indistinguishable from those of the non-transformed Spunta cultivar. In addition, an interspecific out-crossing trial to determine the magnitude of possible natural gene flow between transgenic line SY233 and its wild relative Solanum chacoense was performed. This trial yielded negative results, suggesting an extremely low probability for such an event to occur. 相似文献