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排序方式: 共有195条查询结果,搜索用时 0 毫秒
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Human Doppel and prion protein share common membrane microdomains and internalization pathways 总被引:2,自引:0,他引:2
Massimino ML Ballarin C Bertoli A Casonato S Genovesi S Negro A Sorgato MC 《The international journal of biochemistry & cell biology》2004,36(10):2016-2031
Doppel is the first identified homologue of the prion protein (PrPc) implicated in prion disease. Doppel is considered an N-truncated form of PrPc, and shares with PrPc several structural and biochemical features. When over expressed in the brain of some PrP knockout animals, it provokes cerebellar ataxia. As this phenotype is rescued by reintroducing the PrP gene, it has been suggested that Doppel and PrPc have antagonistic functions and may compete for a common ligand. However, a direct interaction between the two proteins has recently been observed. To investigate whether the neuronal environment is suitable for such possibility, human Doppel and PrPc were expressed separately, or together, in neuroblastoma cells, and then studied by biochemical and immunomicroscopic tools, as well as in intact cells expressing fluorescent fusion constructs. The results demonstrate that Doppel and PrPc co-patch extensively at the plasma membrane, and get internalized together after ganglioside cross-linking by cholera toxin or addition of an antibody against only one of the proteins. These processes no longer occur if the integrity of rafts is disrupted. We also show that, whereas each protein expressed alone occupies Triton X-100-insoluble membrane microdomains, co-transfected Doppel and PrPc redistribute together into a less ordered lipidic environment. All these features are consistent with interactions occurring between Doppel and PrPc in our neuronal cell model. 相似文献
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Ribosomes from the psychrotroph,Bacillus insolitus, were successfully dissociated into 30S and 50S ribosomal subunits, which were active in carrying out in vitro protein synthesis,
measured by the poly U-directed incorporation of14C-l-phenylalanine into polyphenylalanine. As opposed to the undissociated ribosomes, which are heat sensitive (30°C), the dissociated
ribosomes were not thermally sensitive. The heat-sensitive component(s) was found to be removed from the ribosomes during
dissociation into 30S and 50S ribosomal subunits; when added back to the ribosomal subunits, heat sensitivity was conferred. 相似文献
95.
Zolese G Wozniak M Mariani P Saturni L Bertoli E Ambrosini A 《Journal of lipid research》2003,44(4):742-753
The physiological functions of N-acylethanolamines (NAEs) are poorly understood, although many functions were suggested for these naturally occurring membrane components of plants and animals. The binding with cannabinoid receptors CB1 and CB2 was demonstrated for some NAEs, such as anandamide. However, the chemical nature of these molecules suggests that some of their biological effects on biomembranes could be related, at least partially, to physical interactions with the lipid bilayer. The present work studies the effect of saturated and monounsaturated NAEs on phospholipase A2 (PLA2) activity, which is dependent on lipid bilayer features. The present study, performed by 2-dimethylamino-(6-lauroyl)-naphthalene (Laurdan) fluorescence, demonstrates that the acyl chain length and the presence of a single double bond are crucial for the enzymatic activity modulation by NAEs. In fact, saturated NAEs with 10 carbon atoms don't affect the PLA2 activity, while NAEs with 12 and 16 carbon atoms largely activate the enzyme. On the other hand, an acyl chain length of 18 carbon atoms, with or without the presence of a double bond, only slightly affects the enzymatic activity. A structural model for NAE-lipid interactions is proposed in order to explain the differences in PLA2 activity modulation by these fatty acid derivatives. 相似文献
96.
Scirè A Saccucci F Bertoli E Cambria MT Principato G D'Auria S Tanfani F 《Proteins》2002,48(1):126-133
A peculiar characteristic of highly concentrated cytosolic recombinant human glyoxalase II (GII) solutions is to undergo partial precipitation. Previous work indicated that anionic phospholipids (PLs) exert a noncompetitive inhibition on the enzymatic activity of the soluble enzyme. In this study, FTIR spectroscopy was used to analyze the structural properties and the thermal stability of the soluble protein in the absence and in the presence of liposomes made of different phospholipids (PLs). The structural analysis was performed on the precipitate as well. The interaction of acidic PLs with GII lowered the thermal stability of the enzyme and inhibited protein intermolecular interactions (aggregation) brought about by thermal denaturation. Infrared data indicated that ionic and hydrophobic interactions occur between GII and acidic PLs causing small changes in the secondary structure of the enzyme. No interactions of the protein with egg phosphatidylcholine liposomes were detected. The results are consistent with the destabilization of the protein tertiary structure, and indicate that GII possesses hydrophobic part(s) that interact with the acyl chains of PLs. Data on precipitated GII did not show remarkable modification of secondary structure, suggesting that hydrophobic stretches of the enzyme may also be involved in the protein-protein association (precipitation) at high GII concentration. The alterations in the GII structure and the noncompetitive inhibition exerted by acidic PLs are strictly related. 相似文献
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Lazzari C Peggion C Stella R Massimino ML Lim D Bertoli A Sorgato MC 《Journal of neurochemistry》2011,116(5):881-890
The cellular prion protein (PrP(C)) is a cell-surface glycoprotein mainly expressed in the CNS. The structural conversion of PrP(C) generates the prion, the infectious agent causing transmissible spongiform encephalopathies, which are rare and fatal diseases affecting animals and humans. Despite decades of intensive research, the mechanism of prion-associated neurodegeneration and the physiologic role of PrP(C) are still obscure. Recent evidence, however, supports the hypothesis that PrP(C) may be involved in the control of Ca(2+) homeostasis. Given the universal significance of Ca(2+) as an intracellular messenger for both the life and death of cells, this possibility may help explain the complex, often controversial, dataset accumulated on PrP(C) physiology, and the events leading to prion-associated neuronal demise. In this study, we have compared local Ca(2+) movements in cerebellar granule neurons (CGN) derived from wild-type (WT), or PrP-knockout (KO), mice, by means of the Ca(2+)-sensitive photo-probe, aequorin, genetically targeted to specific intracellular domains and delivered to CGN by lentiviral vectors. The use of an aequorin that localizes to the cytosolic domains proximal to the plasma membrane has allowed us to demonstrate that there was a dramatic increase of store-operated Ca(2+) entry in PrP-KO CGN compared to WT neurons. Notably, this phenotype was rescued upon restoring PrP(C) expression. The Ca(2+)-phenotype of PrP-KO neurons can in part be explained by the lower expression of two major Ca(2+)-extruding proteins, namely the plasma membrane and the sarco-endoplasmic reticulum Ca(2+)-ATPases. The lower sarco-endoplasmic reticulum Ca(2+)-ATPase content may also contribute to explain why PrP-KO CGN accumulated less Ca(2+) in the endoplasmic reticulum than the WT counterpart. 相似文献