http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Reviews : Functional and Mechanistic Integration of Infection and the Metabolic Syndrome
( Peter Sommer ),( Gary Sweeney ) 대한당뇨병학회 2010 Diabetes and Metabolism Journal Vol.34 No.2
The metabolic syndrome refers to a well defined group of risk factors, including central obesity and inflammation, for the development of diabetes and cardiovascular disease. Interestingly, many studies have recently led to the emergence of somewhat unexpected relationships between several infectious diseases and various aspects of the metabolic syndrome. Our understanding of the mechanisms underlying these interactions is also rapidly developing and some of these are summarized in this article. We will focus first on bacterial infection, and most notably the role of gut microbiota in regulaton of both obesity and inflammation. In particular, we focus on the role of inflammasomes and propose that understanding the role of Toll-like receptors and Nod-like receptors in the pathogenesis of inflammatory disorders with or without infection may provide novel targets for prevention and/or treatment of associated diseases. Secondly, chronic bacterial or viral infection and emerging links with metabolism will be reviewed. Finally, consideratons of biomarkers for metabolic syndrome, in particular lipocalin-2, and their link with infection will be discussed.
Functional and Mechanistic Integration of Infection and the Metabolic Syndrome
Sommer, Peter,Sweeney, Gary Korean Diabetes Association 2010 Korean diabetes journal Vol.34 No.2
<P>The metabolic syndrome refers to a well defined group of risk factors, including central obesity and inflammation, for the development of diabetes and cardiovascular disease. Interestingly, many studies have recently led to the emergence of somewhat unexpected relationships between several infectious diseases and various aspects of the metabolic syndrome. Our understanding of the mechanisms underlying these interactions is also rapidly developing and some of these are summarized in this article. We will focus first on bacterial infection, and most notably the role of gut microbiota in regulaton of both obesity and inflammation. In particular, we focus on the role of inflammasomes and propose that understanding the role of Toll-like receptors and Nod-like receptors in the pathogenesis of inflammatory disorders with or without infection may provide novel targets for prevention and/or treatment of associated diseases. Secondly, chronic bacterial or viral infection and emerging links with metabolism will be reviewed. Finally, consideratons of biomarkers for metabolic syndrome, in particular lipocalin-2, and their link with infection will be discussed.</P>
Boese, Annette,Sommer, Peter,Holzer, Daniela,Maier, Reinhard,Nehrbass, Ulf Microbiology Society 2009 The Journal of general virology Vol.90 No.10
<P>Integrase interactor 1 (Ini1/hSNF5/BAF47/SMARCB1), the core subunit of the ATP-dependent chromatin-remodelling complex SWI/SNF, is a cellular interaction partner of the human immunodeficiency virus type 1 (HIV-1) integrase. Ini1/hSNF5 is recruited to HIV-1 pre-integration complexes before nuclear migration, suggesting a function in the integration process itself or a contribution to the preferential selection of transcriptionally active genes as integration sites of HIV-1. More recent evidence indicates, however, that, whilst Ini1/hSNF5 is dispensable for HIV-1 transduction per se, it may have an inhibitory effect on the early steps of HIV-1 replication but facilitates proviral transcription by enhancing Tat function. These partially contradictory observations prompted an investigation of the immediate and long-term effects of Ini1/hSNF5 depletion on the basal transcriptional potential of the virus promoter. Using small interfering RNAs, it was shown that Ini1/hSNF5-containing SWI/SNF complexes mediate transcriptional repression of the basal activity of the integrated HIV-1 long terminal repeat. Transient depletion of Ini1/hSNF5 during integration was accompanied by an early boost of HIV-1 replication. After the reappearance of Ini1/hSNF5, expression levels decreased and this was associated with increased levels of histone methylation at the virus promoter in the long term, indicative of epigenetic gene silencing. These results demonstrate the opposing effects of Ini1/hSNF5-containing SWI/SNF complexes on basal and Tat-dependent transcriptional activity of the HIV-1 promoter. It is proposed that Ini1/hSNF5 may be recruited to the HIV-1 pre-integration complex to initiate, immediately after integration, one of two mutually exclusive transcription programmes, namely post-integration latency or high-level, Tat-dependent gene expression.</P>
Crystal structure of pre-activated arrestin p44
Kim, Yong Ju,Hofmann, Klaus Peter,Ernst, Oliver P.,Scheerer, Patrick,Choe, Hui-Woog,Sommer, Martha E. Nature Publishing Group, a division of Macmillan P 2013 Nature Vol.497 No.7447
Arrestins interact with G-protein-coupled receptors (GPCRs) to block interaction with G proteins and initiate G-protein-independent signalling. Arrestins have a bi-lobed structure that is stabilized by a long carboxy-terminal tail (C-tail), and displacement of the C-tail by receptor-attached phosphates activates arrestins for binding active GPCRs. Structures of the inactive state of arrestin are available, but it is not known how C-tail displacement activates arrestin for receptor coupling. Here we present a 3.0 Å crystal structure of the bovine arrestin-1 splice variant p44, in which the activation step is mimicked by C-tail truncation. The structure of this pre-activated arrestin is profoundly different from the basal state and gives insight into the activation mechanism. p44 displays breakage of the central polar core and other interlobe hydrogen-bond networks, leading to a ∼21° rotation of the two lobes as compared to basal arrestin-1. Rearrangements in key receptor-binding loops in the central crest region include the finger loop, loop 139 (refs 8, 10, 11) and the sequence Asp 296–Asn 305 (or gate loop), here identified as controlling the polar core. We verified the role of these conformational alterations in arrestin activation and receptor binding by site-directed fluorescence spectroscopy. The data indicate a mechanism for arrestin activation in which C-tail displacement releases critical central-crest loops from restricted to extended receptor-interacting conformations. In parallel, increased flexibility between the two lobes facilitates a proper fitting of arrestin to the active receptor surface. Our results provide a snapshot of an arrestin ready to bind the active receptor, and give an insight into the role of naturally occurring truncated arrestins in the visual system.
Choi, Youngseon,Lee, Junghan,Kim, Keumhyun,Kim, Heeyeon,Sommer, Peter,Song, Rita The Royal Society of Chemistry 2010 Chemical communications Vol.46 No.48
<p>A novel QD-peptide complex for detecting HIV-1 protease activity was prepared from simple one step electrostatic interaction. Fluorescence recovery of the pre-quenched QD through fluorescence resonance energy transfer allowed for <I>in vitro</I> assay and live cell imaging of the protease activity in HIV-1 transfected cells, proving the potential for cell-based protease inhibitor screening.</p> <P>Graphic Abstract</P><P>An acid-stable quantum dot–peptide electrostatic complex was prepared for fluorogenic assay and live cell imaging of HIV-1 protease activity. <img src='http://pubs.rsc.org/ej/CC/2010/c0cc02702b/c0cc02702b-ga.gif'> </P>