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Reinhard Told Stefan Palkovits Helmuth Haslacher Sophie Frantal Doreen Schmidl Agnes Boltz Michael Lasta Semira Kaya René M. Werkmeister Gerhard Garh?fer Leopold Schmetterer 《PloS one》2013,8(4)
A common polymorphism in the complement factor H gene (rs1061170, Y402H) is associated with a high risk of age-related macular degeneration (AMD). In the present study we hypothesized that healthy young subjects homozygous for the high-risk haplotype (CC) show abnormal choroidal blood flow (ChBF) regulation decades before potentially developing the disease. A total of 100 healthy young subjects were included in the present study, of which 4 subjects were excluded due to problems with genotyping or blood flow measurements. ChBF was measured continuously using laser Doppler flowmetry while the subjects performed isometric exercise (squatting) for 6 minutes. The increase in ChBF was less pronounced than the response in ocular perfusion pressure (OPP), indicating for some degree of choroidal blood flow regulation. Eighteen subjects were homozygous for C, 47 subjects were homozygous for T and 31 subjects were heterozygous (CT). The increase in OPP during isometric exercise was not different between groups. By contrast the increase in ChBF was more pronounced in subjects homozygous for the high risk C allele (p = 0.041). This was also evident from the pressure/flow relationship, where the increase in ChBF in homozygous C carriers started at lower OPPs as compared to the other groups. Our data indicate that the regulation of ChBF is abnormal in rs1061170 CC carriers. So far this polymorphism has been linked to age related macular degeneration (AMD) mainly via inflammatory pathways associated with the complement system dysfunction. Our results indicate that it could also be related to vascular factors that have been implicated in AMD pathogenesis. 相似文献
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FK-506 and cyclosporin A inhibit highly similar signal transduction pathways in human T lymphocytes. 总被引:7,自引:0,他引:7
This report compares the ability of cyclosporin A and FK-506 to inhibit human T cell activation triggered via cell surface molecules that utilize different intracellular processes. We stimulated highly purified peripheral blood T lymphocytes with mitogens (Con A and PHA), ionomycin + PMA, or monoclonal antibodies specific for cell surface antigens involved in activation (CD2, CD3, CD28) either in combination with each other or in conjunction with PMA. Using measurements of the proliferative response, IL-2 production, and changes in intracellular Ca2+ ([Ca2+]i), we demonstrate that FK-506 exerts its inhibitory effect on early events of T-cell activation in a manner indistinguishable from that of CsA. An important finding in this study is the strict correlation between those activation pathways that are inhibited by FK-506 and CsA and the requirement that the sensitive pathways induce a measurable rise in [Ca2+]i. This correlation held even for the CD28/CD2 pathway which was previously shown to be calcium-independent; however by employing FACS analysis of [Ca2+]i within individual cells, a subset of cells activated via CD28/CD2 was found to respond with a measurable rise in [Ca2+]i. We also noted that the proliferative response induced by certain stimuli, such as ionomycin + PMA and PHA + PMA, was partially resistant to FK-506 and CsA, while IL-2 production was completely suppressed. The partial FK-506/CsA-resistance of these responses was shown to be determined by the amount of PMA added to the cultures. We conclude from our investigations that FK-506 and CsA inhibit highly similar signal transduction pathways in human T lymphocytes. 相似文献
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Susu Duan David A. Boltz Patrick Seiler Jiang Li Karoline Bragstad Lars P. Nielsen Richard J. Webby Robert G. Webster Elena A. Govorkova 《PLoS pathogens》2010,6(7)
The neuraminidase (NA) inhibitor oseltamivir offers an important immediate option for the control of influenza, and its clinical use has increased substantially during the recent H1N1 pandemic. In view of the high prevalence of oseltamivir-resistant seasonal H1N1 influenza viruses in 2007–2008, there is an urgent need to characterize the transmissibility and fitness of oseltamivir-resistant H1N1/2009 viruses, although resistant variants have been isolated at a low rate. Here we studied the transmissibility of a closely matched pair of pandemic H1N1/2009 clinical isolates, one oseltamivir-sensitive and one resistant, in the ferret model. The resistant H275Y mutant was derived from a patient on oseltamivir prophylaxis and was the first oseltamivir-resistant isolate of the pandemic virus. Full genome sequencing revealed that the pair of viruses differed only at NA amino acid position 275. We found that the oseltamivir-resistant H1N1/2009 virus was not transmitted efficiently in ferrets via respiratory droplets (0/2), while it retained efficient transmission via direct contact (2/2). The sensitive H1N1/2009 virus was efficiently transmitted via both routes (2/2 and 1/2, respectively). The wild-type H1N1/2009 and the resistant mutant appeared to cause a similar disease course in ferrets without apparent attenuation of clinical signs. We compared viral fitness within the host by co-infecting a ferret with oseltamivir-sensitive and -resistant H1N1/2009 viruses and found that the resistant virus showed less growth capability (fitness). The NA of the resistant virus showed reduced substrate-binding affinity and catalytic activity in vitro and delayed initial growth in MDCK and MDCK-SIAT1 cells. These findings may in part explain its less efficient transmission. The fact that the oseltamivir-resistant H1N1/2009 virus retained efficient transmission through direct contact underlines the necessity of continuous monitoring of drug resistance and characterization of possible evolving viral proteins during the pandemic. 相似文献
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Suppression of viremia and evolution of human immunodeficiency virus type 1 drug resistance in a macaque model for antiretroviral therapy
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In Escherichia coli F(1)F(o) ATP synthase, gammaT273 mutants that eliminate the ability to form a hydrogen bond to betaV265 were incapable of ATP synthase-dependent growth and ATPase-dependent proton pumping, had very low rates of ATPase activity catalyzed by purified F(1), and had significantly decreased sensitivity to inhibition by Mg(2+)-ADP-AlF(n) species, while gammaT273D and gammaT273N mutants which maintained or increased the hydrogen bond strength maintained or increased catalytic activity. The betaP262G mutation that increases the potential flexibility of the rigid sleeve that surrounds the gamma subunit C-terminus also virtually eliminated ATPase activity and susceptibility to Mg(2+)-ADP-AlF(n) inhibition. The gammaE275 mutants that retained the ability to form the betaV265 hydrogen bond had higher ATPase activity than those that eliminated the hydrogen bond. These results provide evidence that the ability to form hydrogen bonds between betaV265 and the gamma subunit C-terminus contributes significantly to the rate-limiting step of catalysis and to the ability of the F(1)F(o) ATP synthase to use a proton gradient to drive ATP synthesis. The loss of activity observed with betaP262G may result from increased flexibility conferred by glycine that decreases the efficiency of communication between the gamma subunit-betaV265 hydrogen bonds and the Walker B aspartate at the catalytic site. The partial loss of coupling observed with gammaT273 mutants that eliminate the betaV265 hydrogen bond is consistent with participation of this hydrogen bond in the escapement mechanism for ATP synthesis in which interactions between the gamma subunit and (alphabeta)(3) ring prevent rotation until the empty catalytic site binds substrate. 相似文献
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Ambrose Z Boltz V Palmer S Coffin JM Hughes SH Kewalramani VN 《Journal of virology》2004,78(24):13553-13561
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F(1)-ATPase mutations in Escherichia coli that changed the strength of hydrogen bonds between the alpha and beta subunits in a location that links the catalytic site to the interface between the beta catch loop and the gamma subunit were examined. Loss of the ability to form the hydrogen bonds involving alphaS337, betaD301, and alphaD335 lowered the k(cat) of ATPase and decreased its susceptibility to Mg(2+)-ADP-AlF(n) inhibition, while mutations that maintain or strengthen these bonds increased the susceptibility to Mg(2+)-ADP-AlF(n) inhibition and lowered the k(cat) of ATPase. These data suggest that hydrogen bonds connecting alphaS337 to betaD301 and betaR323 and connecting alphaD335 to alphaS337 are important to transition state stabilization and catalytic function that may result from the proper alignment of catalytic site residues betaR182 and alphaR376 through the VISIT sequence (alpha344-348). Mutations betaD301E, betaR323K, and alphaR282Q changed the rate-limiting step of the reaction as determined by an isokinetic plot. Hydrophobic mutations of betaR323 decreased the susceptibility to Mg(2+)-ADP-AlF(n)() inhibition and lowered the number of interactions required in the rate-limiting step yet did not affect the k(cat) of ATPase, suggesting that betaR323 is important to transition state formation. The decreased rate of ATP synthase-dependent growth and decreased level of lactate-dependent quenching observed with alphaD335, betaD301, and alphaE283 mutations suggest that these residues may be important to the formation of an alternative set of hydrogen bonds at the interface of the alpha and beta subunits that permits the release of intersubunit bonds upon the binding of ATP, allowing gamma rotation in the escapement mechanism. 相似文献
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