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61.
Chemoattraction of macrophages, T lymphocytes, and mast cells is evolutionarily conserved within the human alpha-defensin family 总被引:4,自引:0,他引:4
Grigat J Soruri A Forssmann U Riggert J Zwirner J 《Journal of immunology (Baltimore, Md. : 1950)》2007,179(6):3958-3965
Human defensins are natural peptide antibiotics. On the basis of the position and bonding of six conserved cysteine residues, they are divided into two families, designated alpha- and beta-defensins. Human alpha-defensins are expressed predominantly in neutrophils (human neutrophil peptides (HNP) 1-4) or intestinal Paneth cells (human defensins (HD) 5 and 6). Although alpha-defensins have been implicated in the pathogenesis of inflammatory bowel disease, their immunomodulatory functions are poorly understood. In the present study, HNP-1, HNP-3, and HD5 were found to be potent chemotaxins for macrophages but not dendritic cells using Galphai proteins and MAPK as signal transducers. Alpha-defensins were also chemoattractive for the human mast cell line HMC-1 but lacked, in contrast to beta-defensins, the ability to induce intracellular calcium fluxes. Furthermore, HNP-1, HNP-3, and HD5 comparably mobilized naive as well as memory T lymphocytes. Using the protein kinase C (PKC) inhibitors GF109 and G?6976, we observed a PKC-independent functional desensitization to occur between human alpha-defensins, which suggests a common receptor for HNP-1, HNP-3, and HD5 on immune cells. This alpha-defensin receptor was subject to heterologous desensitization by the PKC activator PMA and to PKC-dependent cross-desensitization by human beta-defensins. Conversely, alpha-defensins desensitized beta-defensin-mediated migration of immune cells in a PKC-dependent manner, suggesting unique receptors for both defensin families. Taken together, our observations indicate that chemoattraction of macrophages, T lymphocytes, and mast cells represents an immunomodulatory function which is evolutionarily conserved within the human alpha-defensin family and tightly regulated by beta-defensins. 相似文献
62.
The pattern (space versus time) and scale (relative to the lifetime of individuals) of environmental variation is thought to play a central role in governing the evolution of the ecological niche and the maintenance of genetic variance in fitness. To evaluate this idea, we serially propagated an initially genetically uniform population of the bacterium Pseudomonas fluorescens for a few hundred generations in environments that differed in both the pattern and scale at which two highly contrasted carbon substrates were experienced. We found that, contrary to expectations, populations often evolved into a single niche specialist adapted to the less-productive substrate in variable environments and that the genetic variance in fitness across different components of the environment was not generally higher in variable environments when compared with constant environments. We provide evidence to suggest that our results reflect a novel constraint on niche evolution imposed by the supply of beneficial mutations available to selection in variable environments. 相似文献
63.
Jasmin Awad Henrik U. Stotz Agnes Fekete Markus Krischke Cornelia Engert Michel Havaux Susanne Berger Martin J. Mueller 《Plant physiology》2015,167(4):1592-1603
Different peroxidases, including 2-cysteine (2-Cys) peroxiredoxins (PRXs) and thylakoid ascorbate peroxidase (tAPX), have been proposed to be involved in the water-water cycle (WWC) and hydrogen peroxide (H2O2)-mediated signaling in plastids. We generated an Arabidopsis (Arabidopsis thaliana) double-mutant line deficient in the two plastid 2-Cys PRXs (2-Cys PRX A and B, 2cpa 2cpb) and a triple mutant deficient in 2-Cys PRXs and tAPX (2cpa 2cpb tapx). In contrast to wild-type and tapx single-knockout plants, 2cpa 2cpb double-knockout plants showed an impairment of photosynthetic efficiency and became photobleached under high light (HL) growth conditions. In addition, double-mutant plants also generated elevated levels of superoxide anion radicals, H2O2, and carbonylated proteins but lacked anthocyanin accumulation under HL stress conditions. Under HL conditions, 2-Cys PRXs seem to be essential in maintaining the WWC, whereas tAPX is dispensable. By comparison, this HL-sensitive phenotype was more severe in 2cpa 2cpb tapx triple-mutant plants, indicating that tAPX partially compensates for the loss of functional 2-Cys PRXs by mutation or inactivation by overoxidation. In response to HL, H2O2- and photooxidative stress-responsive marker genes were found to be dramatically up-regulated in 2cpa 2cpb tapx but not 2cpa 2cpb mutant plants, suggesting that HL-induced plastid to nucleus retrograde photooxidative stress signaling takes place after loss or inactivation of the WWC enzymes 2-Cys PRX A, 2-Cys PRX B, and tAPX.Plants are frequently exposed to different abiotic stresses, including high light (HL), UV irradiation, heat, cold, and drought. A component common to these stresses is the rapid formation of reactive oxygen species (ROS) as the result of metabolic dysbalances. A major ROS produced under moderate light (ML) and, in particular, HL photooxidative stress conditions was shown to be singlet oxygen, 1O2, that is produced in illuminated chloroplasts predominantly at the PSII (Triantaphylidès et al., 2008). Most of the singlet oxygen is quenched by carotenoids and tocopherols or reacts with galactolipids in thylakoid membranes, yielding galactolipid hydroperoxides (Zoeller et al., 2012; Farmer and Mueller, 2013). In addition, superoxide radicals, O2·−, are produced predominantly at the PSI and rapidly dismutate to hydrogen peroxide (H2O2) either spontaneously or because of being catalyzed by superoxide dismutase. Hence, lipid peroxides and H2O2 are produced close to the photosystems and may damage thylakoid proteins. In this context, 2-Cys peroxiredoxin (PRX) enzymes have been implicated in the reductive detoxification of lipid peroxides and H2O2 (König et al., 2002).During photosynthesis, light energy absorbed by PSII is used to split water molecules, and the electrons are channeled from PSII through PSI to ferredoxin (Fd). As a result, electrons flow from water to Fd. The main electron sink reaction is the Fd NADP oxidoreductase-catalyzed production of NADPH that functions as an electron donor to reduce carbon dioxide to sugars. Under HL conditions, excessive excitation energy is dissipated into heat, which was indicated by nonphotochemical quenching of chlorophyll fluorescence. In addition, excessive photosynthetic electrons can be donated from PSI to O2, yielding O2·− (Miyake, 2010). This process, the Mehler reaction, creates an alternative electron sink and electron flow. Superoxide anion radicals, O2·−, can be dismutated to O2 and H2O2 by a thylakoid-attached copper/zinc superoxide dismutase (Cu/ZnSOD; Rizhsky et al., 2003). H2O2 can then be reduced to water by peroxidases. As a result, O2 molecules originating from the water-splitting process at PSII are reduced to water by electrons originating from PSI. This process is termed the water-water cycle (WWC) that is thought to protect the photosynthetic apparatus from excessive light and alleviate photoinhibition.In the classical WWC, the Mehler-ascorbate peroxidase (MAP) pathway, ascorbate peroxidases (APXs) have been considered as key enzymes in the reductive detoxification of H2O2 in chloroplasts (Kangasjärvi et al., 2008). APXs reduce H2O2 to water and oxidize ascorbate to monodehydroascorbate radicals. NADPH functions as an electron donor to regenerate ascorbate by monodehydroascorbate radical reductase. There are two functional APX homologs in plastids: a 33-kD stromal ascorbate peroxidase (sAPX) and a 38-kD thylakoid ascorbate peroxidase (tAPX). The latter tAPX is thought to reside close to the site of H2O2 generation at PSI. Surprisingly, knockout-tAPX mutants as well as double mutants lacking both the tAPX and the sAPX exhibited no visible symptoms of stress after long-term (1–14 d) HL (1.000 µmol photons m−2 s−1) exposure (Giacomelli et al., 2007; Kangasjärvi et al., 2008; Maruta et al., 2010). Moreover, the photosynthetic efficiency of PSII (as judged by the maximum photochemical efficiency of PSII in the dark-adapted state [Fv/Fm]), H2O2 production, antioxidant levels (ascorbate, glutathione, and tocopherols), protein oxidation, and anthocyanin accumulation were similar between light-stressed mutant and wild-type plants. Hence, other H2O2 detoxification mechanisms can efficiently compensate for the lack of the sAPX and tAPX detoxification system.In addition to APX, glutathione peroxidases and PRXs may reduce H2O2 to water. It has been postulated that, in the chloroplast, two highly homologous thylakoid-associated 2-Cys peroxiredoxins (2CPs), 2CPA and 2CPB, can create an alternative ascorbate-independent WWC (Dietz et al., 2006). In support of this concept, HL stress-acclimated tapx sapx double-mutant plants showed increased levels of 2-Cys PRX compared with wild-type plants (Kangasjärvi et al., 2008). Because the two plastidial 2CPA and 2CPB dynamically interact with the stromal side of thylakoid membranes and are capable of reducing peroxides, 2-Cys PRX enzymes may be involved in both H2O2 detoxification and reduction of lipid peroxides in thylakoids (König et al., 2002).The reaction mechanism of 2-Cys PRX is highly conserved and involves a Cys residue, which becomes transiently oxidized to sulphenic acid (termed the peroxidatic Cys residue), thereby reducing H2O2 to water. The sulphenic acid is subsequently attacked by a second Cys residue, termed resolving Cys residue, yielding an intermolecular disulfide bridge and water (Dietz, 2011).At high peroxide concentrations, the peroxidase function of 2-Cys PRX becomes inactivated through overoxidation, and excess H2O2 may function as a redox signal (Puerto-Galán et al., 2013). It has been postulated that 2-Cys PRXs function as a floodgate that allows H2O2 signaling only under oxidative stress conditions (Wood et al., 2003; Dietz, 2011; Puerto-Galán et al., 2013). In addition to its function as peroxidase, 2-Cys PRX may also serve as proximity-based thiol oxidases and chaperones (König et al., 2013).The genome of Arabidopsis (Arabidopsis thaliana) contains two 2CP genes. To study 2-Cys PRX function, transgenic plants with reduced 2-Cys PRX levels were generated by antisense suppression (Baier et al., 2000) as well as crossing of transfer DNA (T-DNA) insertion mutants (Pulido et al., 2010). The T-DNA insertion double mutant was shown to contain less than 5% of the wild-type content of 2CPA and no 2CPB. Hence, full knockout lines lacking both 2-Cys PRXs have not yet been established. Under standard growth conditions, 2-Cys PRX double mutants (similar to plastid APX-deficient plants) also did not show a photooxidative stress phenotype that might be because of compensation by alternative H2O2 reduction systems (Pulido et al., 2010). Because of the lack of a clear phenotype of the 2-Cys PRX double-knockdown mutant under ML conditions, the physiological functions of 2CPA and 2CPB remain to be elucidated.The main aim of this study was to identify the physiological function of 2CPA and 2CPB under HL stress conditions, when the WWC is of particular importance in protecting the photosynthetic apparatus from photooxidative damage. We investigated mutants completely deficient in 2-Cys PRX (2cpa 2cpb) or tAPX (tapx) and in addition, 2cpa 2cpb tapx triple knockout plants to study the extent of the functional overlap between these enzymes. Results suggest that 2-Cys PRXs are involved in a 2-Cys PRX-dependent WWC that seems to be more important in protecting the photosynthetic apparatus than the tAPX-dependent WWC, the MAP cycle. 相似文献
64.
Mala Isrie Martin Breuss Guoling Tian Andi?Harley Hansen Francesca Cristofoli Jasmin Morandell Zachari?A. Kupchinsky Alejandro Sifrim Celia?Maria Rodriguez-Rodriguez Elena?Porta Dapena Kurston Doonanco Norma Leonard Faten Tinsa Stéphanie Moortgat Hakan Ulucan Erkan Koparir Ender Karaca Nicholas Katsanis Valeria Marton Joris?Robert Vermeesch Erica?E. Davis Nicholas?J. Cowan David?Anthony Keays Hilde Van?Esch 《American journal of human genetics》2015,97(6):790-800
Circumferential skin creases Kunze type (CSC-KT) is a specific congenital entity with an unknown genetic cause. The disease phenotype comprises characteristic circumferential skin creases accompanied by intellectual disability, a cleft palate, short stature, and dysmorphic features. Here, we report that mutations in either MAPRE2 or TUBB underlie the genetic origin of this syndrome. MAPRE2 encodes a member of the microtubule end-binding family of proteins that bind to the guanosine triphosphate cap at growing microtubule plus ends, and TUBB encodes a β-tubulin isotype that is expressed abundantly in the developing brain. Functional analyses of the TUBB mutants show multiple defects in the chaperone-dependent tubulin heterodimer folding and assembly pathway that leads to a compromised yield of native heterodimers. The TUBB mutations also have an impact on microtubule dynamics. For MAPRE2, we show that the mutations result in enhanced MAPRE2 binding to microtubules, implying an increased dwell time at microtubule plus ends. Further, in vivo analysis of MAPRE2 mutations in a zebrafish model of craniofacial development shows that the variants most likely perturb the patterning of branchial arches, either through excessive activity (under a recessive paradigm) or through haploinsufficiency (dominant de novo paradigm). Taken together, our data add CSC-KT to the growing list of tubulinopathies and highlight how multiple inheritance paradigms can affect dosage-sensitive biological systems so as to result in the same clinical defect. 相似文献
65.
A molecular mechanism for the origin of a key evolutionary innovation,the bird beak and palate,revealed by an integrative approach to major transitions in vertebrate history 下载免费PDF全文
Bhart‐Anjan S. Bhullar Zachary S. Morris Elizabeth M. Sefton Atalay Tok Masayoshi Tokita Bumjin Namkoong Jasmin Camacho David A. Burnham Arhat Abzhanov 《Evolution; international journal of organic evolution》2015,69(7):1665-1677
The avian beak is a key evolutionary innovation whose flexibility has permitted birds to diversify into a range of disparate ecological niches. We approached the problem of the mechanism behind this innovation using an approach bridging paleontology, comparative anatomy, and experimental developmental biology. First, we used fossil and extant data to show the beak is distinctive in consisting of fused premaxillae that are geometrically distinct from those of ancestral archosaurs. To elucidate underlying developmental mechanisms, we examined candidate gene expression domains in the embryonic face: the earlier frontonasal ectodermal zone (FEZ) and the later midfacial WNT‐responsive region, in birds and several reptiles. This permitted the identification of an autapomorphic median gene expression region in Aves. To test the mechanism, we used inhibitors of both pathways to replicate in chicken the ancestral amniote expression. Altering the FEZ altered later WNT responsiveness to the ancestral pattern. Skeletal phenotypes from both types of experiments had premaxillae that clustered geometrically with ancestral fossil forms instead of beaked birds. The palatal region was also altered to a more ancestral phenotype. This is consistent with the fossil record and with the tight functional association of avian premaxillae and palate in forming a kinetic beak. 相似文献
66.
67.
Anna Bauereiss Oliver Welzel Jasmin Jung Simon Grosse‐Holz Natalia Lelental Piotr Lewczuk Eva M. Wenzel Johannes Kornhuber Teja W. Groemer 《Traffic (Copenhagen, Denmark)》2015,16(6):655-675
Amyloid‐β (Aβ)‐peptide, the major constituent of the plaques that develop during Alzheimer's disease, is generated via the cleavage of Aβ precursor protein (APP) by β‐site APP‐cleaving enzyme (BACE). Using live‐cell imaging of APP and BACE labeled with pH‐sensitive proteins, we could detect the release events of APP and BACE and their distinct kinetics. We provide kinetic evidence for the cleavage of APP by α‐secretase on the cellular surface after exocytosis. Furthermore, simultaneous dual‐color evanescent field illumination revealed that the two proteins are trafficked to the surface in separate compartments. Perturbing the membrane lipid composition resulted in a reduced frequency of exocytosis and affected BACE more strongly than APP. We propose that surface fusion frequency is a key factor regulating the aggregation of APP and BACE in the same membrane compartment and that this process can be modulated via pharmacological intervention. 相似文献
68.
Hoffmann TJ Kvale MN Hesselson SE Zhan Y Aquino C Cao Y Cawley S Chung E Connell S Eshragh J Ewing M Gollub J Henderson M Hubbell E Iribarren C Kaufman J Lao RZ Lu Y Ludwig D Mathauda GK McGuire W Mei G Miles S Purdy MM Quesenberry C Ranatunga D Rowell S Sadler M Shapero MH Shen L Shenoy TR Smethurst D Van den Eeden SK Walter L Wan E Wearley R Webster T Wen CC Weng L Whitmer RA Williams A Wong SC Zau C Finn A Schaefer C Kwok PY Risch N 《Genomics》2011,98(2):79-89
The success of genome-wide association studies has paralleled the development of efficient genotyping technologies. We describe the development of a next-generation microarray based on the new highly-efficient Affymetrix Axiom genotyping technology that we are using to genotype individuals of European ancestry from the Kaiser Permanente Research Program on Genes, Environment and Health (RPGEH). The array contains 674,517 SNPs, and provides excellent genome-wide as well as gene-based and candidate-SNP coverage. Coverage was calculated using an approach based on imputation and cross validation. Preliminary results for the first 80,301 saliva-derived DNA samples from the RPGEH demonstrate very high quality genotypes, with sample success rates above 94% and over 98% of successful samples having SNP call rates exceeding 98%. At steady state, we have produced 462 million genotypes per week for each Axiom system. The new array provides a valuable addition to the repertoire of tools for large scale genome-wide association studies. 相似文献
69.
Kuemmerle-Deschner JB Lohse P Koetter I Dannecker GE Reess F Ummenhofer K Koch S Tzaribachev N Bialkowski A Benseler SM 《Arthritis research & therapy》2011,13(6):R196