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41.
Taube C Wei X Swasey CH Joetham A Zarini S Lively T Takeda K Loader J Miyahara N Kodama T Shultz LD Donaldson DD Hamelmann EH Dakhama A Gelfand EW 《Journal of immunology (Baltimore, Md. : 1950)》2004,172(10):6398-6406
In certain models of allergic airway disease, mast cells facilitate the development of inflammation and airway hyper-responsiveness (AHR). To define the role of the high affinity IgE receptor (FcepsilonRI) in the development of AHR, mice with a disruption of the alpha subunit of the high affinity IgE receptor (FcepsilonRI(-/-)) were exposed on 10 consecutive days to nebulized OVA. Forty-eight hours after the last nebulization, airway responsiveness was monitored by the contractile response of tracheal smooth muscle to electrical field stimulation (EFS). After the 10-day OVA challenge protocol, wild-type mice demonstrated increased responsiveness to EFS, whereas similarly challenged FcepsilonRI(-/-) mice showed a low response to EFS, similar to nonexposed animals. Further, allergen-challenged FcepsilonRI(-/-) mice showed less airway inflammation, goblet cell hyperplasia, and lower levels of IL-13 in lung homogenates compared with the controls. IL-13-deficient mice failed to develop an increased response to EFS or goblet cell hyperplasia after the 10-day OVA challenge. We transferred bone marrow-derived mast cells from wild-type mice to FcepsilonRI(-/-) mice 1 day before initiating the challenge protocol. After the 10-day OVA challenge, recipient FcepsilonRI(-/-) mice demonstrated EFS-induced responses similar to those of challenged wild-type mice. Transferred mast cells could be detected in tracheal preparations. These results show that FcepsilonRI is important for the development of AHR after an aerosolized allergen sensitization protocol and that this effect is mediated through FcepsilonRI on mast cells and production of IL-13 in the lung. 相似文献
42.
Summary Field experiments were conducted in order to determine the potential for desiccation and predation to mediate the effect of mussels (Brachidontes semilaevis) on barnacles (Chthamalus anisopoma) in the highly seasonal northern Gulf of California. We did this by removing both mussels and a common mussel predator (Morula ferruginosa: Gastropoda) and by spraying selected sites with sea water during summertime spring low tides. We also determined the effect of crowding on resistance to desiccation in barnacles, and the effect of barnacles on colonization by mussels. The mussel-barnacle community was not affected by keeping experimental quadrats damp during daytime low tides throughout the summer. Exposure to summertime low tides, however, did affect the survivorship of isolated, but not crowded, barnacles; and barnacle clumps enhanced the recruitment of mussels. Hence crowding in barnacles had a positive effect on both barnacle survivorship and mussel recruitment. Morula had a negative effect on mussel density, and mussels had a negative effect on barnacle density. The effect of Morula on barnacle density was positive, presumably due to its selective removal of mussels. These results suggest an indirect mutualism between barnacles and the gastropod predator, because barnacles attract settlement or enhance the survival of mussels, and the predator reduces the competitive effect of mussels on barnacles. 相似文献
43.
Tamjeed Siddiqui Starlee Lively Roger Ferreira Raymond Wong Lyanne C. Schlichter 《PloS one》2014,9(8)
Microglia rapidly respond to CNS injury and disease and can assume a spectrum of activation states. While changes in gene expression and production of inflammatory mediators have been extensively described after classical (LPS-induced) and alternative (IL4-induced) microglial activation, less is known about acquired de-activation in response to IL10. It is important to understand how microglial activation states affect their migration and invasion; crucial functions after injury and in the developing CNS. We reported that LPS-treated rat microglia migrate very poorly, while IL4-treated cells migrate and invade much better. Having discovered that the lamellum of migrating microglia contains a large ring of podosomes – microscopic structures that are thought to mediate adhesion, migration and invasion – we hypothesized that IL4 and IL10 would differentially affect podosome expression, gene induction, migration and invasion. Further, based on the enrichment of the KCa2.3/SK3 Ca2+-activated potassium channel in microglial podosomes, we predicted that it regulates migration and invasion. We found both similarities and differences in gene induction by IL4 and IL10 and, while both cytokines increased migration and invasion, only IL10 affected podosome expression. KCa2.3 currents were recorded in microglia under all three activation conditions and KCNN3 (KCa2.3) expression was similar. Surprisingly then, of three KCa2.3 inhibitors (apamin, tamapin, NS8593), only NS8593 abrogated the increased migration and invasion of IL4 and IL10-treated microglia (and invasion of unstimulated microglia). This discrepancy was explained by the observed block of TRPM7 currents in microglia by NS8593, which occurred under all three activation conditions. A similar inhibition of both migration and invasion was seen with a TRPM7 inhibitor (AA-861) that does not block KCa2.3 channels. Thus, we conclude that TRPM7 (not KCa2.3) contributes to the enhanced ability of microglia to migrate and invade when in anti-inflammatory states. This will be an important consideration in developing TRPM7 inhibitors for treating CNS injury. 相似文献
44.
45.
Enhanced pathological angiogenesis in mice lacking beta3 integrin or beta3 and beta5 integrins. 总被引:24,自引:0,他引:24
Louise E Reynolds Lorenza Wyder Julie C Lively Daniela Taverna Stephen D Robinson Xiaozhu Huang Dean Sheppard Richard O Hynes Kairbaan M Hodivala-Dilke 《Nature medicine》2002,8(1):27-34
Inhibition of alphavbeta3 or alphavbeta5 integrin function has been reported to suppress neovascularization and tumor growth, suggesting that these integrins are critical modulators of angiogenesis. Here we report that mice lacking beta3 integrins or both beta3 and beta5 integrins not only support tumorigenesis, but have enhanced tumor growth as well. Moreover, the tumors in these integrin-deficient mice display enhanced angiogenesis, strongly suggesting that neither beta3 nor beta5 integrins are essential for neovascularization. We also observed that angiogenic responses to hypoxia and vascular endothelial growth factor (VEGF) are augmented significantly in the absence of beta3 integrins. We found no evidence that the expression or functions of other integrins were altered as a consequence of the beta3 deficiency, but we did observe elevated levels of VEGF receptor-2 (also called Flk-1) in beta3-null endothelial cells. These data indicate that alphavbeta3 and alphavbeta5 integrins are not essential for vascular development or pathological angiogenesis and highlight the need for further evaluation of the mechanisms of action of alphav-integrin antagonists in anti-angiogenic therapeutics. 相似文献
46.
PARASITES AND THE EVOLUTION OF SELF-FERTILIZATION 总被引:4,自引:0,他引:4
Aneil F. Agrawal Curtis M. Lively 《Evolution; international journal of organic evolution》2001,55(5):869-879
Abstract.— Assuming all else is equal, an allele for selfing should spread when rare in an outcrossing population and rapidly reach fixation. Such an allele will not spread, however, if self‐fertilization results in inbreeding depression so severe that the fitness of selfed offspring is less that half that of outcrossed offspring. Here we consider an ecological force that may also counter the spread of a selfing allele: coevolution with parasites. Computer simulations were conducted for four different genetic models governing the details of infection. Within each of these models, we varied both the level of selfing in the parasite and the level of male‐gamete discounting in the host (i.e., the reduction in outcrossing fitness through male function due to the selfing allele). We then sought the equilibrium level of host selfing under the different conditions. The results show that, over a wide range of conditions, parasites can select for host reproductive strategies in which both selfed and outcrossed progeny are produced (mixed mating). In addition, mixed mating, where it exits, tends to be biased toward selfing. 相似文献
47.
T L Capson J A Peliska B F Kaboord M W Frey C Lively M Dahlberg S J Benkovic 《Biochemistry》1992,31(45):10984-10994
The DNA polymerase from the bacteriophage T4 is part of a multienzyme complex required for the synthesis of DNA. As a first step in understanding the contributions of individual proteins to the dynamic properties of the complex, e.g., turnover, processivity, and fidelity of replication, the minimal kinetic schemes for the polymerase and exonuclease activities of the gene 43 protein have been determined by pre-steady-state kinetic methods and fit by computer simulation. A DNA primer/template (13/20-mer) was used as substrate; duplexes that contained more single-strand DNA resulted in nonproductive binding of the polymerase. The reaction sequence features an ordered addition of 13/20-mer followed by dATP to the T4 enzyme (dissociation constants of 70 nM and 20 microM) followed by rapid conversion (400 s-1) of the T4.13/20-mer.dATP complex to the T4.14/20-mer.PPi product species. A slow step (2 s-1) following PPi release limits a single turnover, although this step is bypassed in multiple incorporations (13/20-mer-->17/20-mer) which occur at rates > 400 s-1. Competition between correct versus incorrect nucleotides relative to the template strand indicates that the dissociation constants for the incorrect nucleotides are at millimolar values, thus providing evidence that the T4 polymerase, like the T7 but unlike the Klenow fragment polymerases, discriminates by factors > 10(3) against misincorporation in the nucleotide binding step. The exonuclease activity of the T4 enzyme requires an activation step, i.e., T4.DNA-->T4.(DNA)*, whose rate constants reflect whether the 3'-terminus of the primer is matched or mismatched; for matched 13/20-mer the constant is 1 s-1, and for mismatched 13T/20-mer, 5 s-1. Evidence is presented from crossover experiments that this step may represent a melting of the terminus of the duplex, which is followed by rapid exonucleolytic cleavage (100s-1). In the presence of the correct dNTP, primer extension is the rate-limiting step rather than a step involving travel of the duplex between separated exonuclease and polymerase sites. Since the rate constant for 13/20-mer or 13T/20-mer dissociation from the enzyme is 6 or 8 s-1 and competes with that for activation, the exonucleolytic editing by the enzyme alone in a single pass is somewhat inefficient (5 s-1/(8 s-1+5 s-1)), ca. 40%. Consequently, a major role for the accessory proteins may be to slow the rate of enzyme.substrate dissociation, thereby increasing overall fidelity and processivity. 相似文献
48.
49.
Mark F. Dybdahl Curtis M. Lively 《Evolution; international journal of organic evolution》1996,50(6):2264-2275
Gene flow and the genetic structure of host and parasite populations are critical to the coevolutionary process, including the conditions under which antagonistic coevolution favors sexual reproduction. Here we compare the genetic structures of different populations of a freshwater New Zealand snail (Potamopyrgus antipodarum) with its trematode parasite (Microphallus sp.) using allozyme frequency data. Allozyme variation among snail populations was found to be highly structured among lakes; but for the parasite there was little allozyme structure among lake populations, suggesting much higher levels of parasite gene flow. The overall pattern of variation was confirmed with principal component analysis, which also showed that the organization of genetic differentiation for the snail (but not the parasite) was strongly related to the geographic arrangement of lakes. Some snail populations from different sides of the Alps near mountain passes were more similar to each other than to other snail populations on the same side of the Alps. Furthermore, genetic distances among parasite populations were correlated with the genetic distances among host populations, and genetic distances among both host and parasite populations were correlated with “stepping-stone” distances among lakes. Hence, the host snail and its trematode parasite seem to be dispersing to adjacent lakes in a stepping-stone fashion, although parasite dispersal among lakes is clearly greater. High parasite gene flow should help to continuously reintroduce genetic diversity within local populations where strong selection might otherwise isolate “host races.” Parasite gene flow can thereby facilitate the coevolutionary (Red Queen) dynamics that confer an advantage to sexual reproduction by restoring lost genetic variation. 相似文献
50.
Jennifer A. Fox Mark F. Dybdahl Jukka Jokela Curtis M. Lively 《Evolution; international journal of organic evolution》1996,50(4):1541-1548
We examined clonal diversity and the distribution of both clonal and sexual genotypes in a single population of freshwater snails (Potamopyrgus antipodarum) in which diploid sexual individuals and triploid parthenogens coexist. A genetic analysis of individuals from three habitat zones in Lake Alexandrina, New Zealand revealed extremely high clonal diversity: 165 genotypes among 605 clonal individuals. The frequency of triploid clonal individuals increased with increasing depth in the lake, and most of the individual clones were habitat specific, suggesting that differences among habitats are important in structuring the clonal subpopulation. There were also high levels of clonal diversity within habitats, suggesting frequent origins of habitat-specific clones. In contrast, diploid sexual individuals were proportionately more common in the shallow regions of the lake (where infection by trematode larvae is highest), and there was no significant spatial structure in the sexual subpopulation. We suggest that habitat specialization by clones, as well as parasite-mediated selection against common clones, are important factors affecting the structure of this mixed population of sexual and clonal snails. 相似文献