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21.
Metallothionein-3 (MT-3) is a brain-specific MT, which is downregulated in Alzheimer's disease. The N-terminal region of CdMT-3 is highly dynamic and has escaped structural characterization by nuclear magnetic resonance. We have used electrospray ionization mass spectrometry to probe conformational states of cadmium- and zinc-substituted metalloforms of MT-3 and can demonstrate that the N-terminal beta-domain of MT-3 filled with Cd(2+) has a more open conformation than that filled with Zn(2+). The results suggest that the larger Cd(2+) ions cannot isostructurally replace zinc in the beta-domain of MT-3 whereas in the case of MT-1 and MT-2 the replacement is isostructural. Specific metal binding properties of the beta-domain of MT-3 may be essential for fulfilling the specific role of MT-3 in the brain. 相似文献
22.
A novel insulin-releasing substance, phanoside, from the plant Gynostemma pentaphyllum 总被引:4,自引:0,他引:4
Norberg A Hoa NK Liepinsh E Van Phan D Thuan ND Jörnvall H Sillard R Ostenson CG 《The Journal of biological chemistry》2004,279(40):41361-41367
Extracts from Gynostemma pentaphyllum Makino (Cucurbitaceae), a Southeast Asian herb, has been reported to affect numerous activities resulting in antitumor, cholesterol-lowering, immunopotentiating, antioxidant, and hypoglycemic effects. We have isolated one active compound by ethanol extraction, distribution in n-butyl alcohol/water, solid phase extraction/separation, and several rounds of reverse phase high pressure liquid chromatography. We have shown by NMR and mass spectrometry that this active compound is a novel saponin, a gypenoside, which we have named phanoside (21-,23-epoxy-,3beta-,20-,21-trihydroxydammar-24-ene-3-O-([alpha-d-rhamnopyranosyl(1-->2)]-[beta-d-glycopyranosyl(1-->3)]-beta-d-lyxopyranoside)), with a molecular mass of 914.5 Da. Phanoside is a dammarane-type saponin, and four stereoisomers differing in configurations at positions 21 and 23 were identified, each of which were found to stimulate insulin release from isolated rat pancreatic islets. We have also found that the stereoisomers are interconvertible. Dose-dependent insulin-releasing activities at 3.3 and 16.7 mM glucose levels were determined for the racemic mixture containing all four stereoisomers. Phanoside at 500 microM stimulates insulin release in vitro 10-fold at 3.3 mM glucose and potentiates the release almost 4-fold at 16.7 mM glucose. At these glucose levels, 2 microm glibenclamide stimulates insulin release only 2-fold. Interestingly, beta-cell sensitivity to phanoside is higher at 16.7 mM than at 3.3 mM glucose, although insulin responses were significantly increased by phanoside below 125 microM only at high glucose levels. Also when given orally to rats, phanoside (40 and 80 mg/ml) improved glucose tolerance and enhanced plasma insulin levels at hyperglycemia. 相似文献
23.
Ulla E. Sollenberg Johan Runesson Rannar Sillard Ülo Langel 《International journal of peptide research and therapeutics》2010,16(1):17-22
The neuropeptide galanin is ascribed to a variety of biological effects, but selective compounds to examine the specific roles
of the three receptor subtypes are currently lacking. The recently introduced chimeric peptide ligands M617 and M871 target
the galanin receptors GalR1 and GalR2, respectively. These peptides have been used to examine receptor function in vitro and
in vivo, but their affinity to GalR3 has not been tested. Here, we report the binding affinity of these peptides at human
GalR3 and demonstrate that M617 binds GalR3 and stimulates this receptor in an agonistic manner, whereas M871 shows very low
affinity towards GalR3 (K
i 49.2 ± 9.4 nM and >10 μM, respectively). An l-alanine scan of M617 revealed the importance of the ligand C-terminus in GalR3 binding, which stands in contrast to the structural
requirements for binding to GalR1 and GalR2. These data provide insights into galanin receptor ligand binding that should
be considered when using these compounds in functional studies. 相似文献
24.
Palumaa P Tammiste I Kruusel K Kangur L Jörnvall H Sillard R 《Biochimica et biophysica acta》2005,1747(2):205-211
Mammalian metallothioneins (MTs) are involved in cellular metabolism of zinc and copper and in cytoprotection against toxic metals and reactive oxygen species. MT-3 plays a specific role in the brain and is down-regulated in Alzheimer's disease. To evaluate differences in metal binding, we conducted direct metal competition experiments with MT-3 and MT-2 using electrospray ionization mass spectroscopy (ESI-MS). Results demonstrate that MT-3 binds Zn2+ and Cd2+ ions more weakly than MT-2 but exposes higher metal-binding capacity and plasticity. Titration with Cd2+ ions demonstrates that metal-binding affinities of individual clusters of MT-2 and MT-3 are decreasing in the following order: four-metal cluster of MT-2>three-metal cluster of MT-2 approximately four-metal cluster of MT-3>three-metal cluster of MT-3>extra metal-binding sites of MT-3. To evaluate the reasons for weaker metal-binding affinity of MT-3 and the enhanced resistance of MT-3 towards proteolysis under zinc-depleted cellular conditions, we studied the secondary structures of apo-MT-3 and apo-MT-2 by CD spectroscopy. Results showed that apo-MT-3 and apo-MT-2 have almost equal helical content (approximately 10%) in aqueous buffer, but that MT-3 had slightly higher tendency to form alpha-helical secondary structure in TFE-water mixtures. Secondary structure predictions also indicated some differences between MT-3 and MT-2, by predicting random coil for common MTs, but 22% alpha-helical structure for MT-3. Combined, all results highlight further differences between MT-3 and common MTs, which may be related with their functional specificities. 相似文献
25.
Valentina Bonetto Ann-Charlotte Bergman Hans Jörnvall Rannar Sillard 《Journal of Protein Chemistry》1997,16(5):371-374
Peptides, cleaved by a mixture of carboxypeptidases CPP and CPY, can be detected by MALDI MS and the amino acid sequence thereby determined by calculation of the differences between consecutive peaks. In the present study we have used derivatizations of Lys and Cys to facilitate identification of these residues. Since the mass values do not readily distinguish Lys from Gln, we have converted Lys to homoarginine by guanidination, allowing simple detection of Lys. To identify the Cys positions in peptides that contain cystine, cysteic acid, or carboxymethylcysteine is not possible using CPY and CPP because of the lack of proteolytic cleavage. Instead we find that identification of Cys residues within the sequence can be achieved after conversion to a basic derivative, 4-thialaminine (Thi), by trimethylaminoethylation. 相似文献