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71.
The insulin-like growth factors (IGFs) are capable of blocking apoptosis in many cell lines in vitro, potentially via activation of the IGF-I receptor (IGF-IR). We have previously shown that lower doses of the sphingolipid analogue C2-ceramide are required to induce apoptosis in IGF-IR-minus vs -positive murine fibroblasts, indicating a protective feedback loop in the latter and corroborating evidence that the IGF-IR functions as a survival receptor [1, 2]. Since, unexpectedly, C2-ceramide was capable of activating MAP kinase, phosphorylating the IGF-I receptor, and promoting entry into the G2 phase of the cell cycle, we wished to further determine the mechanisms involved. Using IGF-IR-positive fibroblasts we demonstrate here for the first time that ceramide is capable of activating a tyrosine kinase which acts at the level of the IGF-IR to increase cell death. We also demonstrate that in the presence of sodium orthovanadate, ceramide-induced death is increased, and the phosphorylation of a 75-kDa protein which associates with the IGF-I receptor is enhanced. Although the identity of this protein is not known, we speculate that it may link into the Raf kinase signaling pathway; indeed, inhibitors of MEKK reduce ceramide-induced apoptosis, thus substantiating this theory [1, 2]. Although calcium mobilization did cause apoptosis in these cells, it was not required as a mediator of ceramide-induced apoptosis. Finally, the potential hydrolysis of ceramide to sphingosine-1-phosphate was not the cause of increased MAP kinase activation, substantiating the role of an IGF-IR interacting tyrosine kinase, which may be involved in apoptosis. 相似文献
72.
Lisa Rizzetto Daniela C. Ifrim Silvia Moretti Noemi Tocci Shih-Chin Cheng Jessica Quintin Giorgia Renga Vasilis Oikonomou Carlotta De Filippo Tobias Weil Bastiaan A. Blok Marcello S. Lenucci Manuel A. S. Santos Luigina Romani Mihai G. Netea Duccio Cavalieri 《The Journal of biological chemistry》2016,291(15):7961-7972
The immune system is essential to maintain the mutualistic homeostatic interaction between the host and its micro- and mycobiota. Living as a commensal, Saccharomyces cerevisiae could potentially shape the immune response in a significant way. We observed that S. cerevisiae cells induce trained immunity in monocytes in a strain-dependent manner through enhanced TNFα and IL-6 production upon secondary stimulation with TLR ligands, as well as bacterial and fungal commensals. Differential chitin content accounts for the differences in training properties observed among strains, driving induction of trained immunity by increasing cytokine production and direct antimicrobial activity both in vitro and in vivo. These chitin-induced protective properties are intimately associated with its internalization, identifying a critical role of phagosome acidification to facilitate microbial digestion. This study reveals how commensal and passenger microorganisms could be important in promoting health and preventing mucosal diseases by modulating host defense toward pathogens and thus influencing the host microbiota-immune system interactions. 相似文献
73.
Priya A. Debisarun Katharina L. Gssling Ozlem Bulut Gizem Kilic Martijn Zoodsma Zhaoli Liu Marina Oldenburg Nadine Rüchel Bowen Zhang Cheng-Jian Xu Patrick Struycken Valerie A. C. M. Koeken Jorge Domínguez-Andrs Simone J. C. F. M. Moorlag Esther Taks Philipp N. Ostermann Lisa Müller Heiner Schaal Ortwin Adams Arndt Borkhardt Jaap ten Oever Reinout van Crevel Yang Li Mihai G. Netea 《PLoS pathogens》2021,17(10)
74.
Elevated ozone alters soybean-virus interaction 总被引:1,自引:0,他引:1
Bilgin DD Aldea M O'Neill BF Benitez M Li M Clough SJ DeLucia EH 《Molecular plant-microbe interactions : MPMI》2008,21(10):1297-1308
75.
Huberman AD Manu M Koch SM Susman MW Lutz AB Ullian EM Baccus SA Barres BA 《Neuron》2008,59(3):425-438
Our understanding of how mammalian sensory circuits are organized and develop has long been hindered by the lack of genetic markers of neurons with discrete functions. Here, we report a transgenic mouse selectively expressing GFP in a complete mosaic of transient OFF-alpha retinal ganglion cells (tOFF-alphaRGCs). This enabled us to relate the mosaic spacing, dendritic anatomy, and electrophysiology of these RGCs to their complete map of projections in the brain. We find that tOFF-alphaRGCs project exclusively to the superior colliculus (SC) and dorsal lateral geniculate nucleus and are restricted to a specific laminar depth within each of these targets. The axons of tOFF-alphaRGC are also organized into columns in the SC. Both laminar and columnar specificity develop through axon refinement. Disruption of cholinergic retinal waves prevents the emergence of columnar- but not laminar-specific tOFF-alphaRGC connections. Our findings reveal that in a genetically identified sensory map, spontaneous activity promotes synaptic specificity by segregating axons arising from RGCs of the same subtype. 相似文献
76.
Corina Văcăroiu Mădălin Enache Măriuca Gartner Gabriela Popescu Mihai Anastasescu Aurelia Brezeanu N. Todorova Tatiana Giannakopoulou Christos Trapalis Lucia Dumitru 《World journal of microbiology & biotechnology》2009,25(1):27-31
This work focuses on the photocatalytic performances and antibacterial activity of nitrogen doped TiO2 nanosystems with three and five layers obtained by a sol-gel route, followed by thermal treatment in oxygen or ammonia atmosphere
at temperatures between 400 and 1000°C. Subsequently, the antibacterial activity of the obtained nanosystems on the Escherichia coli cells are determined and discussed. The obtained results show a significant dependence of the functional performances on
the system’s composition. In particular, the antimicrobial activity of nitrogen-doped TiO2 films is correlated with the temperature of thermal treatment and illumination time with visible artificial light. 相似文献
77.
78.
Joachim Müller Carmen Limban Britta Stadelmann Alexandru Vasile Missir Ileana Cornelia Chirita Mariana Carmen Chifiriuc George Mihai Nitulescu Andrew Hemphill 《Parasitology international》2009,58(2):128-135
Fifty members of a novel class of antimicrobial compounds, 2-(4-R-phenoxymethyl)benzoic acid thioureides, were synthesized and characterized with respect to their activities against three parasites of human relevance, namely the protozoa Giardia lamblia and Toxoplasma gondii, and the larval (metacestode) stage of the tapeworm Echinococcus multilocularis. To determine the selective toxicity of these compounds, the human colon cancer cell line Caco2 and primary cultures of human foreskin fibroblasts (HFF) were also investigated. The new thioureides were obtained in a three-step-reaction process and subsequently characterized by their physical constants (melting point, solubility). The chemical structures were elucidated by 1H NMR, 13C NMR, IR spectral methods and elemental analysis. The analyses confirmed the final and intermediate compound structures and the synthesis. The compounds were then tested on the parasites in vitro. All thioureides, except two compounds with a nitro group, were totally ineffective against Giardia lamblia. 23 compounds inhibited the proliferation of T. gondii, three of them with an IC50 of approximately 1 μM. The structural integrity of E. multilocularis metacestodes was affected by 22 compounds. In contrast, HFF were not susceptible to any of these thioureides, while Caco2 cells were affected by 17 compounds, two of them inhibiting proliferation with an IC50 in the micromolar range. Thioureides may thus present a promising class of anti-infective agents. 相似文献
79.
Jennifer L. Baltz David J. Filman Mihai Ciustea Janice Elaine Y. Silverman Catherine L. Lautenschlager Donald M. Coen Robert P. Ricciardi James M. Hogle 《Journal of virology》2009,83(23):12215-12228
Kaposi''s sarcoma-associated herpesvirus is an emerging pathogen whose mechanism of replication is poorly understood. PF-8, the presumed processivity factor of Kaposi''s sarcoma-associated herpesvirus DNA polymerase, acts in combination with the catalytic subunit, Pol-8, to synthesize viral DNA. We have solved the crystal structure of residues 1 to 304 of PF-8 at a resolution of 2.8 Å. This structure reveals that each monomer of PF-8 shares a fold common to processivity factors. Like human cytomegalovirus UL44, PF-8 forms a head-to-head dimer in the form of a C clamp, with its concave face containing a number of basic residues that are predicted to be important for DNA binding. However, there are several differences with related proteins, especially in loops that extend from each monomer into the center of the C clamp and in the loops that connect the two subdomains of each protein, which may be important for determining PF-8''s mode of binding to DNA and to Pol-8. Using the crystal structures of PF-8, the herpes simplex virus catalytic subunit, and RB69 bacteriophage DNA polymerase in complex with DNA and initial experiments testing the effects of inhibition of PF-8-stimulated DNA synthesis by peptides derived from Pol-8, we suggest a model for how PF-8 might form a ternary complex with Pol-8 and DNA. The structure and the model suggest interesting similarities and differences in how PF-8 functions relative to structurally similar proteins.Most if not all organisms with DNA genomes have mechanisms to ensure processive DNA synthesis. In bacteria, archaea, and eukaryotes, DNA polymerase subunits include a catalytic subunit and a processivity factor, often referred to as a “sliding clamp.” In these organisms, a clamp loader protein is required to assemble the processivity factor onto the DNA (27, 37). The bacterial sliding (beta) clamp is made up of homodimers of a subunit that comprises three structurally similar subdomains (26), whereas archaeal and eukaryotic proliferating cell nuclear antigen (PCNA) is composed of homotrimers that comprise two structurally similar subdomains (27, 37). For both of these clamps, the monomers assemble head-to-tail to form a closed homodimeric or homotrimeric ring, respectively, around the DNA. In these organisms, a clamp loader protein is required to efficiently load the clamp onto DNA, using an ATP-dependent process. Once loaded on DNA, the processivity factor is capable of binding directly to the DNA polymerase, conferring extended strand synthesis without falling off of the template (50).Herpesviruses encode their own DNA polymerases. However, unlike bacteria, archaea, and eukaryotes, herpesviruses do not encode clamp loaders to assemble their processivity factors onto the DNA. Yet, the accessory subunits of the herpesvirus DNA polymerases still associate with DNA with nanomolar affinity to enable long-chain DNA synthesis (9, 16, 23, 25, 29, 35, 44, 46, 53, 56). Human herpesviruses are divided into three classes, namely, the alpha-, beta-, and gammaherpesviruses, based on homologies found in their genomic organization as well as in protein sequences and function (45). Crystal structures have been determined for the processivity factor UL42 from the alphaherpesvirus herpes simplex virus type 1 (HSV-1) and for UL44 from the betaherpesvirus human cytomegalovirus (HCMV) (2, 3, 58). Despite having little if any sequence homology with processivity factors outside of their herpesvirus subfamily, these structures all share the “processivity fold” originally seen in the structure of the bacterial beta clamp (26). Interestingly, some of these processivity factors have a different quaternary structure. PCNA forms a head-to-tail trimeric ring (18, 27), HSV-1 UL42 is a monomer (10, 14, 16, 46, 58) equivalent to one-third of the PCNA complex, and HCMV UL44 is a head-to-head dimer in the form of a C-shaped clamp (2, 3, 9).Both HSV-1 UL42 and HCMV UL44 have a basic face that has been shown to be important for interacting with DNA (25, 35). In the case of dimeric HCMV UL44, the basic surface of each monomer faces inward, toward the center of the C clamp, and includes a basic loop, called the “gap loop,” that is thought to wrap around DNA (24). Recently the crystal structure of the bacterial beta clamp was determined in complex with DNA (15). In that structure, DNA was found to be located in the central pore of the clamp. Amino acid residues that interacted with DNA were in positions structurally homologous to those found on the positively charged faces of UL42 and UL44.UL42 and UL44 each also has a surface, facing away from the DNA binding face, that is important for interacting with the catalytic subunit of the viral DNA polymerase. Indeed, both of these proteins have been crystallized in complex with C-terminal peptides from their respective catalytic subunits, HSV-1 UL30 and HCMV UL54 (2, 58). Together with biochemical and mutational analyses, these crystal structures indicated that, although the details of the interaction are different, the catalytic subunit of the polymerase binds to a region including and in close proximity to a long loop that connects the N- and C-terminal subdomains, called the interdomain connector loop (32-34). The corresponding region of PCNA is also important for polymerase attachment and mediates the interactions of PCNA with many other cellular proteins (40). Both UL54 and UL30 were shown to attach to their respective subunits, UL44 and UL42, by way of their extreme C termini. The C-terminal residues responsible for this interaction correspond to amino acids that are not detectably conserved, either by sequence or by structure, among herpesvirus catalytic subunits. The HSV-1 UL30-UL42 interaction involves a groove to one side of the UL42 connector loop, with hydrophilic interactions being critical (58). The HCMV UL54-UL44 interaction involves a crevice near the UL44 connector loop, and hydrophobic interactions are crucial (2, 32, 33). Moreover, the HCMV UL44 crevice is on the opposite side of the connector loop with respect to the HSV-1 UL42 groove.Kaposi''s sarcoma-associated herpesvirus (KSHV), a gammaherpesvirus, encodes a viral DNA polymerase catalytic subunit, Pol-8, and an accessory subunit, PF-8 (4, 7, 8, 29, 48, 57). PF-8 can bind to Pol-8 directly and specifically (8, 29) and is required for long-chain DNA synthesis in vitro (29). Similarly to UL44, PF-8 forms dimers in solution and when bound to DNA (9). Although it is likely that UL44 and PF-8 are the processivity factors for HCMV and KSHV, respectively, rigorous experiments demonstrating this have not been performed. However, for the sake of brevity and clarity, we will refer to these proteins as processivity factors.Here we present the crystal structure of PF-8 and show that PF-8 forms a head-to-head homodimer akin to UL44 but lacking the long gap loops which are thought to wrap around DNA. This suggests that PF-8 binds DNA differently than does UL44 or UL42. Because Pol-8 appears to lack a long, flexible C-terminal tail with a length comparable to those of other herpesvirus Pols, we expect the mode of binding of the catalytic subunit to be different as well. Based on structural data, information from homologs, and initial biochemical results, we were able to identify possible sites for interactions with DNA and Pol-8 and to propose a model for the simultaneous interaction of all three components of the complex. Further, the availability of crystal structures for all three herpesvirus classes provides new insights into comparative structure, function, and evolution. 相似文献
80.
Ben Langmead Michael C Schatz Jimmy Lin Mihai Pop Steven L Salzberg 《Genome biology》2009,10(11):R134-10
As DNA sequencing outpaces improvements in computer speed, there is a critical need to accelerate tasks like alignment and
SNP calling. Crossbow is a cloud-computing software tool that combines the aligner Bowtie and the SNP caller SOAPsnp. Executing
in parallel using Hadoop, Crossbow analyzes data comprising 38-fold coverage of the human genome in three hours using a 320-CPU
cluster rented from a cloud computing service for about $85. Crossbow is available from . 相似文献