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Understanding the binding mode of agonists to adrenergic receptors is crucial to enabling improved rational design of new therapeutic agents. However, so far the high conformational flexibility of G protein-coupled receptors has been an obstacle to obtaining structural information on agonist binding at atomic resolution. In this study, we report microsecond classical molecular dynamics simulations of β(1) and β(2) adrenergic receptors bound to the full agonist isoprenaline and in their unliganded form. These simulations show a novel agonist binding mode that differs from the one found for antagonists in the crystal structures and from the docking poses reported by in silico docking studies performed on rigid receptors. Internal water molecules contribute to the stabilization of novel interactions between ligand and receptor, both at the interface of helices V and VI with the catechol group of isoprenaline as well as at the interface of helices III and VII with the ethanolamine moiety of the ligand. Despite the fact that the characteristic N-C-C-OH motif is identical in the co-crystallized ligands and in the full agonist isoprenaline, the interaction network between this group and the anchor site formed by Asp(3.32) and Asn(7.39) is substantially different between agonists and inverse agonists/antagonists due to two water molecules that enter the cavity and contribute to the stabilization of a novel network of interactions. These new binding poses, together with observed conformational changes in the extracellular loops, suggest possible determinants of receptor specificity. 相似文献
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Pasqualina Liana Scognamiglio Concetta Di Natale Marilisa Leone Mattia Poletto Luigi Vitagliano Gianluca Tell Daniela Marasco 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Nucleophosmin (NPM1, B23) is a multifunctional protein that is involved in a variety of fundamental biological processes. NPM1/B23 deregulation is implicated in the pathogenesis of several human malignancies. This protein exerts its functions through the interaction with a multiplicity of biological partners. Very recently it is has been shown that NPM1/B23 specifically recognizes DNA G-quadruplexes through its C-terminal region.Methods
Through a rational dissection approach of protein here we show that the intrinsically unfolded regions of NPM1/B23 significantly contribute to the binding of c-MYC G-quadruplex motif. Interestingly, the analysis of the ability of distinct NPM1/B23 fragments to bind this quadruplex led to the identifications of distinct NPM1/B23-based peptides that individually present a high affinity for this motif.Results
These results suggest that the tight binding of NPM1/B23 to the G-quadruplex is achieved through the cooperation of both folded and unfolded regions that are individually able to bind it. The dissection of NPM1/B23 also unveils that its H1 helix is intrinsically endowed with an unusual thermal stability.Conclusions
These findings have implications for the unfolding mechanism of NPM1/B23, for the G-quadruplex affinity of the different NPM1/B23 isoforms and for the design of peptide-based molecules able to interact with this DNA motif.General observation
This study sheds new light in the molecular mechanism of the complex NPM1/G-quadruplex involved in acute myeloid leukemia (AML) disease. 相似文献25.
Background
Sterile alpha motif (Sam) domains are small protein modules that can be involved in homotypic or heterotypic associations and exhibit different functions. Previous studies have demonstrated that the Sam domain of the lipid phosphatase Ship2 can hetero-dimerize with the Sam domain of the PI3K effector protein Arap3. 相似文献26.
Full-length zebrafish cDNAs encoding two aspartic proteinases were cloned and sequenced. One of the two cDNAs was a 1708 bp product with an open reading frame of 398 amino acid residues corresponding to a cathepsin D. The other was a 1383 bp product encoding a polypeptide chain of 416 amino acids homologous to nothepsin, an aspartic proteinase first identified by us in the liver of Antarctic Notothenioidei. Gene expression assessed by RT–PCR and northern blot hybridization of RNA from different tissues showed that the expression was tissue- and sex-specific. Whereas the cathepsin D gene was expressed in all the tissues examined independently of the sex, the nothepsin gene was expressed exclusively in female livers. 相似文献
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Susan Costantini Raffaele Raucci Giovanni Colonna Flavia Anna Mercurio Anna Maria Trotta Ringhieri Paola Marilisa Leone Filomena Rossi Carmela Pellegrino Giuseppe Castello Stefania Scala 《Journal of peptide science》2014,20(4):270-278
CXCR4 is a G‐protein‐coupled receptor involved in a number of physiological processes in the hematopoietic and immune systems. CXCL12/CXCR4 axis plays a central role in diseases, such as HIV, cancer, WHIM syndrome, rheumatoid arthritis, pulmonary fibrosis, and lupus and, hence, indicated as putative therapeutic target. Although multiple CXCR4 antagonists have been developed, there is only one marketed drug, plerixafor, indicated for stem cell mobilization in poor mobilizer patients. In this work, we have designed and synthesized two peptides, six and seven residues long, using as template the N‐terminal region of CXCL12; analyzed their conformations by CD, NMR, and molecular dynamics simulations; simulated their complexes with CXCR4 by docking methods; and validated these data by in vitro studies. The results showed that the two peptides are rather flexible in aqueous solution lacking ordered secondary structure elements and present a promising affinity for CXCR4. This affinity is not revealed for CXCR7, indicating a specificity for CXCR4. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd. 相似文献
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Endothelin-1 induces proliferation of human lung fibroblasts and IL-11 secretion through an ET(A) receptor-dependent activation of MAP kinases 总被引:4,自引:0,他引:4
Gallelli L Pelaia G D'Agostino B Cuda G Vatrella A Fratto D Gioffrè V Galderisi U De Nardo M Mastruzzo C Salinaro ET Maniscalco M Sofia M Crimi N Rossi F Caputi M Costanzo FS Maselli R Marsico SA Vancheri C 《Journal of cellular biochemistry》2005,96(4):858-868
Endothelin-1 (ET-1) is implicated in the fibrotic responses characterizing interstitial lung diseases, as well as in the airway remodeling process occurring in asthma. Within such a context, the aim of our study was to investigate, in primary cultures of normal human lung fibroblasts (NHLFs), the ET-1 receptor subtypes, and the intracellular signal transduction pathways involved in the proliferative effects of this peptide. Therefore, cells were exposed to ET-1 in the presence or absence of an overnight pre-treatment with either ET(A) or ET(B) selective receptor antagonists. After cell lysis, immunoblotting was performed using monoclonal antibodies against the phosphorylated, active forms of mitogen-activated protein kinases (MAPK). ET-1 induced a significant increase in MAPK phosphorylation pattern, and also stimulated fibroblast proliferation and IL-6/IL-11 release into cell culture supernatants. All these effects were inhibited by the selective ET(A) antagonist BQ-123, but not by the specific ET(B) antagonist BQ-788. The stimulatory influence of ET-1 on IL-11, but not on IL-6 secretion, was prevented by MAPK inhibitors. Therefore, such results suggest that in human lung fibroblasts ET-1 exerts a profibrogenic action via an ET(A) receptor-dependent, MAPK-mediated induction of IL-11 release and cell proliferation. 相似文献
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Leone M Crowell KJ Chen J Jung D Chiang GG Sareth S Abraham RT Pellecchia M 《Biochemistry》2006,45(34):10294-10302
The mammalian target of rapamycin (mTOR) is a protein that is intricately involved in signaling pathways controlling cell growth. Rapamycin is a natural product that binds and inhibits mTOR function by interacting with its FKBP-rapamycin-binding (FRB) domain. Here we report on the NMR solution structure of FRB and on further studies aimed at the identification and characterization of novel ligands that target the rapamycin binding pocket. The biological activity of the ligands, and that of rapamycin in the absence of FKBP12, was investigated by assaying the kinase activity of mTOR. While we found that rapamycin binds the FRB domain and inhibits the kinase activity of mTOR even in the absence of FKBP12 (in the low micromolar range), our most potent ligands bind to FRB with similar binding affinity but inhibit the kinase activity of mTOR at much higher concentrations. However, we have also identified one low-affinity compound that is also capable of inhibiting mTOR. Hence, we have identified compounds that can directly mimic rapamycin or can dissociate the FRB binding from the inhibition of the catalytic activity of mTOR. As such, these ligands could be useful in deciphering the complex regulation of mTOR in the cell and in validating the FRB domain as a possible target for the development of novel therapeutic compounds. 相似文献
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Stebbins JL Jung D Leone M Zhang XK Pellecchia M 《The Journal of biological chemistry》2006,281(24):16643-16648
In this paper we describe a structure-based approach designed to identify novel ligands for retinoid X receptor-alpha (RXRalpha). By using a virtual approach based on a modified scoring function, we have selected 200 potential candidates on the basis of their predicted ability of docking into the ligand-binding site of the target. Subsequent experimental verification of the compounds in in vitro and cell-based assays led to the identification of a number of novel high affinity ligands for RXRalpha. The compounds are capable of displacing 9-cis-retinoic acid with IC(50) values in the 10 nm and 5 mum range and exhibit marked antagonistic activity in cellular assays. The inhibitory scaffolds discovered with this method form the basis for the development of novel RXRalpha ligands with potential therapeutic properties. 相似文献