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991.
Kopp M Irschik H Gemperlein K Buntin K Meiser P Weissman KJ Bode HB Müller R 《Molecular bioSystems》2011,7(5):1549-1563
The anti-fungal leupyrrins are secondary metabolites produced by several strains of the myxobacterium Sorangium cellulosum. These intriguing compounds incorporate an atypically substituted γ-butyrolactone ring, as well as pyrrole and oxazolinone functionalities, which are located within an unusual asymmetrical macrodiolide. Previous feeding studies revealed that this novel structure arises from the homologation of four distinct structural units, nonribosomally-derived peptide, polyketide, isoprenoid and a dicarboxylic acid, coupled with modification of the various building blocks. Here we have attempted to reconcile the biosynthetic pathway proposed on the basis of the feeding studies with the underlying enzymatic machinery in the S. cellulosum strain So ce690. Gene products can be assigned to many of the suggested steps, but inspection of the gene set provokes the reconsideration of several key transformations. We support our analysis by the reconstitution in vitro of the biosynthesis of the pyrrole carboxylic starter unit along with gene inactivation. In addition, this study reveals that a significant proportion of the genes for leupyrrin biosynthesis are located outside the core cluster, a 'split' organization which is increasingly characteristic of the myxobacteria. Finally, we report the generation of four novel deshydroxy leupyrrin analogues by genetic engineering of the pathway. 相似文献
992.
993.
Puk O Möller G Geerlof A Krowiorz K Ahmad N Wagner S Adamski J de Angelis MH Graw J 《PloS one》2011,6(8):e23678
Fibroblast growth factor (Fgf) signalling plays a crucial role in many developmental processes. Among the Fgf pathway ligands, Fgf9 (UniProt: P54130) has been demonstrated to participate in maturation of various organs and tissues including skeleton, testes, lung, heart, and eye. Here we establish a novel Fgf9 allele, discovered in a dominant N-ethyl-N-nitrosourea (ENU) screen for eye-size abnormalities using the optical low coherence interferometry technique. The underlying mouse mutant line Aca12 was originally identified because of its significantly reduced lens thickness. Linkage studies located Aca12 to chromosome 14 within a 3.6 Mb spanning interval containing the positional candidate genes Fgf9 (MGI: 104723), Gja3 (MGI: 95714), and Ift88 (MGI: 98715). While no sequence differences were found in Gja3 and Ift88, we identified an A→G missense mutation at cDNA position 770 of the Fgf9 gene leading to an Y162C amino acid exchange. In contrast to previously described Fgf9 mutants, Fgf9(Y162C) carriers were fully viable and did not reveal reduced body-size, male-to-female sexual reversal or skeletal malformations. The histological analysis of the retina as well as its basic functional characterization by electroretinography (ERG) did not show any abnormality. However, the analysis of head-tracking response of the Fgf9(Y162C) mutants in a virtual drum indicated a gene-dosage dependent vision loss of almost 50%. The smaller lenses in Fgf9(Y162C) suggested a role of Fgf9 during lens development. Histological investigations showed that lens growth retardation starts during embryogenesis and continues after birth. Young Fgf9(Y162C) lenses remained transparent but developed age-related cataracts. Taken together, Fgf9(Y162C) is a novel neomorphic allele that initiates microphakia and reduced vision without effects on organs and tissues outside the eye. Our data point to a role of Fgf9 signalling in primary and secondary lens fiber cell growth. The results underline the importance of allelic series to fully understand multiple functions of a gene. 相似文献
994.
Haidet-Phillips AM Hester ME Miranda CJ Meyer K Braun L Frakes A Song S Likhite S Murtha MJ Foust KD Rao M Eagle A Kammesheidt A Christensen A Mendell JR Burghes AH Kaspar BK 《Nature biotechnology》2011,29(9):824-828
Amyotrophic lateral sclerosis (ALS) is a fatal motor neuron disease, with astrocytes implicated as contributing substantially to motor neuron death in familial (F)ALS. However, the proposed role of astrocytes in the pathology of ALS derives in part from rodent models of FALS based upon dominant mutations within the superoxide dismutase 1 (SOD1) gene, which account for <2% of all ALS cases. Their role in sporadic (S)ALS, which affects >90% of ALS patients, remains to be established. Using astrocytes generated from postmortem tissue from both FALS and SALS patients, we show that astrocytes derived from both patient groups are similarly toxic to motor neurons. We also demonstrate that SOD1 is a viable target for SALS, as its knockdown significantly attenuates astrocyte-mediated toxicity toward motor neurons. Our data highlight astrocytes as a non-cell autonomous component in SALS and provide an in vitro model system to investigate common disease mechanisms and evaluate potential therapies for SALS and FALS. 相似文献
995.
Linge A Meleady P Henry M Clynes M Kasper M Barth K 《The international journal of biochemistry & cell biology》2011,43(1):98-105
Bleomycin treatment of A549 cells induces senescence rather than apoptosis, a more usual response of cancer cells to cytotoxic drugs. We have previously shown that upregulation of caveolin-1, the main structural component of caveolae, plays a key role in this process. In order to gain a better understanding of the molecular basis of this phenomenon, caveolin-1-enriched microdomains of untreated and bleomycin-treated growth-arrested A549 cells were analysed for differential protein expression using 2-D DIGE followed by LC-MS/MS. One of these differentially expressed proteins was found to be the multidrug resistance-associated protein (MGr1-Ag). We show that MGr1-Ag becomes partly localised in lipid rafts following bleomycin treatment, and that MGr1-Ag and caveolin-1 occur in a common protein complex in vivo using co-immunoprecipitation studies. GST pull-down assays demonstrated an increased interaction between MGr1-Ag and caveolin-1 following bleomycin treatment in vitro. Our results reveal MGr1-Ag as a novel lipid raft protein; its increased association with caveolin-1 in bleomycin-induced cell cycle arrest and subsequent cellular senescence might contribute to the success of chemotherapy. 相似文献
996.
997.
Diez-Roux G Banfi S Sultan M Geffers L Anand S Rozado D Magen A Canidio E Pagani M Peluso I Lin-Marq N Koch M Bilio M Cantiello I Verde R De Masi C Bianchi SA Cicchini J Perroud E Mehmeti S Dagand E Schrinner S Nürnberger A Schmidt K Metz K Zwingmann C Brieske N Springer C Hernandez AM Herzog S Grabbe F Sieverding C Fischer B Schrader K Brockmeyer M Dettmer S Helbig C Alunni V Battaini MA Mura C Henrichsen CN Garcia-Lopez R Echevarria D Puelles E Garcia-Calero E Kruse S Uhr M Kauck C Feng G 《PLoS biology》2011,9(1):e1000582
998.
Zhou Z Subramanian P Sevilmis G Globke B Soehnlein O Karshovska E Megens R Heyll K Chun J Saulnier-Blache JS Reinholz M van Zandvoort M Weber C Schober A 《Cell metabolism》2011,13(5):592-600
Oxidatively modified low-density lipoprotein (oxLDL) plays a key role in the initiation of atherosclerosis by increasing monocyte adhesion. The mechanism that is responsible for the oxLDL-induced atherogenic monocyte recruitment in vivo, however, still remains unknown. Oxidation of LDL generates lysophosphatidylcholine, which is the main substrate for the lysophosphatidic acid (LPA) generating enzyme autotaxin. We show that oxLDL requires endothelial LPA receptors and autotaxin to elicit CXCL1-dependent arterial monocyte adhesion. Unsaturated LPA releases endothelial CXCL1, which is subsequently immobilized on the cell surface and mediates LPA-induced monocyte adhesion. Local and systemic application of LPA accelerates the progression of atherosclerosis in mice. Blocking the LPA receptors LPA(1) and LPA(3) reduced hyperlipidemia-induced arterial leukocyte arrest and atherosclerosis in the presence of functional CXCL1. Thus, atherogenic monocyte recruitment mediated by hyperlipidemia and modified LDL crucially depends on LPA, which triggers endothelial deposition of CXCL1, revealing LPA signaling as a target for cardiovascular disease treatments. 相似文献
999.
Lisa K. McNeil Robert J. Zagursky Shuo L. Lin Ellen Murphy Gary W. Zlotnick Susan K. Hoiseth Kathrin U. Jansen Annaliesa S. Anderson 《Microbiology and molecular biology reviews》2013,77(2):234-252
SUMMARY
Neisseria meningitidis is a Gram-negative microorganism that exists exclusively in humans and can cause devastating invasive disease. Although capsular polysaccharide-based vaccines against serogroups A, C, Y, and W135 are widely available, the pathway to a broadly protective vaccine against serogroup B has been more complex. The last 11 years has seen the discovery and development of the N. meningitidis serogroup B (MnB) outer membrane protein factor H binding protein (fHBP) as a vaccine component. Since the initial discovery of fHBP, a tremendous amount of work has accumulated on the diversity, structure, and regulation of this important protein. fHBP has proved to be a virulence factor for N. meningitidis and a target for functional bactericidal antibodies. fHBP is critical for survival of meningococci in the human host, as it is responsible for the primary interaction with human factor H (fH). Binding of hfH by the meningococcus serves to downregulate the host alternative complement pathway and helps the organism evade host innate immunity. Preclinical studies have shown that an fHBP-based vaccine can elicit serum bactericidal antibodies capable of killing MnB, and the vaccine has shown very encouraging results in human clinical trials. This report reviews our current knowledge of fHBP. In particular, we discuss the recent advances in our understanding of fHBP, its importance to N. meningitidis, and its potential role as a vaccine for preventing MnB disease. 相似文献1000.
Gudrun Hager Wolfgang Holnthoner Susanne Wolbank Anna-Maria Husa Kathrin Godthardt Heinz Redl Christian Gabriel 《Cytotherapy》2013,15(11):1426-1435
Background aimsHuman endothelial progenitor cells (EPC) play an important role in regenerative medicine and contribute to neovascularization on vessel injury. They are usually enriched from peripheral blood, cord blood and bone marrow. In human fat tissue, EPC are rare and their isolation remains a challenge.MethodsFat tissue was prepared by collagenase digestion, and the expression of specific marker proteins was evaluated by flow cytometry in the stromal vascular fraction (SVF). For enrichment, magnetic cell sorting was performed with the use of CD133 microbeads and EPC were cultured until colonies appeared. A second purification was performed with CD34; additional isolation steps were performed with the use of a combination of CD34 and CD31 microbeads. Enriched cells were investigated by flow cytometry for the expression of endothelial specific markers, by Matrigel assay and by the uptake of acetylated low-density lipoprotein.ResultsThe expression pattern confirmed the heterogeneous nature of the SVF, with rare numbers of CD133+ detectable. EPC gained from the SVF by magnetic enrichment showed cobblestone morphology of outgrowth endothelial cells and expressed the specific markers CD31, CD144, vascular endothelial growth factor (VEGF)R2, CD146, CD73 and CD105. Functional integrity was confirmed by uptake of acetylated low-density lipoprotein and the formation of tube-like structures on Matrigel.ConclusionsRare EPC can be enriched from human fat tissue by magnetic cell sorting with the use of a combination of microbeads directed against CD133, an early EPC marker, CD34, a stem cell marker, and CD31, a typical marker for endothelial cells. In culture, they differentiate into EC and hence could have the potential to contribute to neovascularization in regenerative medicine. 相似文献