Na~(+)、Ca~(2+)、Cu~(2+)和Zn~(2+)与HSA相互作用的~(23)(Na)-NMR研究

 本文应用~23Na-NMR波谱技术,研究了Na~(+)、Ca~(2+)、Cu~(2+)和Zn~(2+)与人体血清白蛋白(HSA)的相互作用。在实验基础上,通过引入两位快交换模型,拟合计算获得了Na~(+)与HSA相互作用的结合常数和处于结合状态Na~(+)的相关时间;实验表明Ca~(2+)能与Na~(+)竞争同HSA结合,拟合计算获得了两者与HSA相互作用结合常数的比值,棕榈酸钠能增强Ca~(2+)同Na~(+)竞争与HSA结合的能力;从实验上未能观察到Cu~(2+)、Zn~(2+)能同Na~(+)竞争与HSA相互作用的证据。     

Ca2+ -dependent interaction of S100A1 with the sarcoplasmic reticulum Ca2+ -ATPase2a and phospholamban in the human heart

The Ca(2+)-binding S100A1 protein displays a specific and high expression level in the human myocardium and is considered to be an important regulator of heart contractility. Diminished protein levels detected in dilated cardiomyopathy possibly contribute to impaired Ca(2+) handling and contractility in heart failure. To elucidate the S100A1 signaling pathway in the human heart, we searched for S100A1 target proteins by applying S100A1-specific affinity chromatography and immunoprecipitation techniques. We detected the formation of a Ca(2+)-dependent complex of S100A1 with SERCA2a and PLB in the human myocardium. Using confocal laser scanning microscopy, we showed that all three proteins co-localize at the level of the SR in primary mouse cardiomyocytes and confirmed these results by immunoelectron microscopy in human biopsies. Our results support a regulatory role of S100A1 in the contraction-relaxation cycle in the human heart.     

[3H]SCH 23390 Binding to Human Putamen D-1 Dopamine Receptors: Stereochemical and Structure-Affinity Relationships Among l-Phenyl-1H-3-Benzazepine Derivatives as a Guide to D-l Receptor Topography

Abstract: A series of l-phenyl-1 H -3-benzazepine analogues were assessed for enantiomeric and structure-affinity relationships at human putamen D-1 dopamine receptors labelled with [³H]SCH 23390. Substitution at the 7-position of both 3-H and 3-methyl benzazepine molecules critically affected affinity for these receptors over a 500-fold range. The general rank order of potency of 7-substituents was Cl = Br ≫ CH₃ > OH ≥ H. 3-Methyl substituents increased the affinity of 7-H and 7-OH compounds two- to fivefold compared to desmethyl counterparts. The displacement of [³H]SCH 23390 binding showed substantial enantioselec-tivity; the R-enantiomer of SKF 83566 was 500-fold more potent that its S-antipode. However, the displacement of [³H]spiperone binding from D-2 sites in the same tissue showed negligible enantioselectivity. Through such structure-affinity relationships, these studies may help to define the topography of the human brain D-1 dopamine receptor and guide the design of more selecive agents for functional studies.     

Human CDC25B and CDC25C differ by their ability to restore a functional checkpoint response after gene replacement in fission yeast

In fission yeast, inactivation of the Cdc25 phosphatase by checkpoint kinases participates in the signaling cascade that temporarily stops cell cycle progression after DNA damage. In human, CDC25B and C are also known to be targeted by a similar checkpoint machinery. We have examined by homologous recombination, whether CDC25B and CDC25C were able to substitute for the function of fission yeast Cdc25. We demonstrate that (i) CDC25B and C efficiently replace Cdc25 for vegetative growth, (ii) CDC25C is able to restore a functional checkpoint in response to ionizing radiation in both a Chk1- and Cds1-dependent manner, (iii) CDC25B and C are equally efficient in the response to UV irradiation, CDC25B being only dependent on Chk1, while CDC25C depends on both Chk1 and Cds1, and (iv) CDC25C is able to restore a functional DNA replication checkpoint induced by hydroxyurea in a Cds1-dependent manner. The consequences of these findings on our current view of the checkpoint cascade are discussed.     

Regulation of G Protein-Coupled Receptor Kinase 2 in Brains of Opiate-Treated Rats and Human Opiate Addicts

Abstract: The effects of opiate drugs (heroin, morphine, and methadone) on the levels of G protein-coupled receptor kinase 2 (GRK2) were studied in rat and human brain frontal cortices. The density of brain GRK2 was measured by immunoblot assays in acute and chronic opiate-treated rats as well as in opiate-dependent rats after spontaneous or naloxone-precipitated withdrawal and in human opiate addicts who had died of an opiate overdose. In postmortem brains from human addicts, total GRK2 immunoreactivity was not changed significantly, but the level of the membrane-associated kinase was modestly but significantly increased (12%) compared with matched controls. In rats treated chronically with morphine or methadone modest increases of the enzyme levels (only significant after methadone) were observed. Acute treatments with morphine and methadone induced dose- and time-dependent increases (8–22%) in total GRK2 concentrations [higher increases were observed for the membrane-associated enzyme (46%)]. Spontaneous and naloxone-precipitated withdrawal after chronic morphine or methadone induced a marked up-regulation in the levels of total GRK2 in the rat frontal cortex (18–25%). These results suggest that GRK2 is involved in the short-term regulation of μ-opioid receptors in vivo and that the activity of this regulatory kinase in brain could have a relevant role in opiate tolerance, dependence, and withdrawal.     

Synthesis of 2-,4,-6-, and/or 7-substituted quinoline derivatives as human dihydroorotate dehydrogenase (hDHODH) inhibitors and anticancer agents: 3D QSAR-assisted design

Following our research for human dihydroorotate dehydrogenase (hDHODH) inhibitors as anticancer agents, herein we describe 3D QSAR-based design, synthesis and in vitro screening of 2-,4,-6-, and/or 7-substituted quinoline derivatives as hDHODH inhibitors and anticancer agents. We have designed 2-,4,-6-, and/or 7-substituted quinoline derivatives and predicted their hDHODH inhibitory activity based on 3D QSAR study on 45 substituted quinoline derivatives as hDHODH inhibitors, and also predicted toxicity. Designed compounds were docked into the binding site of hDHODH. Designed compounds which showed good predictive activity, no toxicity, and good docking score were selected for the synthesis, and in vitro screening as hDHODH inhibitors in an enzyme inhibition assay, and anticancer agents in MTT assay against cancer cell lines (HT-29 and MDA-MB-231). Synthesized compounds 7 and 14 demonstrated IC₅₀ value of 1.56?µM and 1.22?µM, against hDHODH, respectively, and these are our lead compounds for the development of new hDHODH inhibitors and anticancer agents.     

Characterization by high-resolution crystal structure analysis of a triple-helix region of human collagen type III with potent cell adhesion activity

Collagen is one of the most abundant and important proteins in the human body. Human collagen type III (hCOL3A1) belongs to the fibril-forming collagens and is widely distributed in extensible connective tissue like skin, internal organs, or the vascular system. It plays key roles in wound healing, collagen fibrillogenesis, and normal cardiovascular development in human. The charged residues are considered to be an important characteristic of hCOL3A1, especially for collagen binding and recognition. Here we found that a triple helix fragment of hCOL3A1, Gly489-Gly510, contained multiple charged residues, as well as representative Glu-Lys-Gly and Glu-Arg-Gly charged triplets. We solved the crystal structure of this new fragment to a high-resolution of 1.50?Å and identified some important conformations of this new triple-helix region, including strong hydrogen bonds in interchain and interhelical interactions in addition to obvious flexible bending for the triple helix. We also found that the synthetic collagen peptides around this region exhibited potent activities through integrin-mediated peptide-membrane interaction. We then developed a method to produce a recombinant protein consisting of 16 tandem repeats of the triple-helix fragment of hCOL3A1 with strong activity without cytotoxicity. These results provide a strong base for further functional studies of human collagen type III and the method developed in this study can be applied to produce hCOL3A1-derived proteins or other tandem-repeat proteins with membrane adhesion activity.     

Wealth, status, and fitness: a historical study of Norwegians in variable environments

Wealth and status covary with lifetime reproductive success in preindustrial human populations. Local ecology is likely to modify this association, but details of this presumed relationship are not yet known. We sought to determine whether local ecology modifies the relationship between status and fitness (number of grandchildren). Our approach to the problem was to measure variation in fitness relative to status (landless or with land) and to local ecology (inland versus coastal communities). We also analyzed life history traits that might explain observed variations in fitness. Our results confirm previous findings that both status (landless=9.9 vs. with land=16.5) and ecology (inland=12.3 vs. coast=14.1) affect the number of grandchildren produced by a female in pre-industrial society. We also found that the differences in number of children between the status groups were less pronounced on the coast (landless=12.0 vs. with land=16.1) than inland (landless=7.8 vs. with land=16.8). Our findings are novel because they suggest that the fitness consequences of human status may depend on details of local ecology. We discuss four different mechanisms that could account for these fitness differences: (1) differential reproductive rate of mothers, (2) differential marriage rate of children (3) differential survival rate of children, and (4) different social practices (breastfeeding, inheritance of property and diet).