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71.
Friendly fire against neutrophils: proteolytic enzymes confuse the recognition of apoptotic cells by macrophages 总被引:1,自引:0,他引:1
Physiologically the only acceptable fate for almost all damaged or unwanted cells is their apoptotic death, followed by engulfment of the corpses by healthy neighbors or professional phagocytes. Efficient clearance of cells that have succumbed to apoptosis is crucial for normal tissue homeostasis, and for the modulation of immune responses. The disposal of apoptotic cells is finely regulated by a highly redundant system of receptors, bridging molecules and 'eat me' signals. The complexity of the system is reflected by the term: 'engulfment synapse', used to describe the interaction between a phagocytic cell and its target. In healthy humans, dying neutrophils are the most abundant and important targets for such recognition and engulfment. In inflammation the scope and importance of this complicated task is further increased. Paradoxically, despite growing evidence highlighting the priority of neutrophils clearance, the recognition of these cells by phagocytes is not as well understood as the recognition of other apoptotic cell types. New findings indicate that the interaction of phosphatidylserine (PS) on apoptotic neutrophils with its receptor on macrophages is not as critical for the specific clearance of neutrophil corpses it was previously believed. In this review we focus on recent findings regarding alternative, PS-independent "eat me" signals expressed on neutrophils during cell death and activation. Based on our own research, we emphasize the clearance of dying neutrophils, especially at the focus of bacterial infection; and the associated inflammatory reaction, which occurs in a highly proteolytic milieu containing both host and bacteria-derived proteinases. In these environments, eat-me signals expressed by neutrophils are drastically modified; arguing against the phospholipid-based detection of apoptotic cells, but supporting the importance of proteinaceous ligand(s) for the recognition of neutrophils by macrophages. In this context we discuss the effect of the gingipain R (Rgp) proteinases from Porphyromonas gingivalis on neutrophils interactions with macrophages. Since the recognition of apoptotic neutrophils is an important fundamental process, serving multiple functions in the regulation of immunity and homeostasis, we hypothesize that many pathogenic bacteria may have developed similar strategies to confuse macrophage-neutrophil interaction as a common pathogenic strategy. 相似文献
72.
Kiwoong Nam Carina Mugal Benoit Nabholz Holger Schielzeth Jochen BW Wolf Niclas Backström Axel Künstner Christopher N Balakrishnan Andreas Heger Chris P Ponting David F Clayton Hans Ellegren 《Genome biology》2010,11(6):1-17
Background
Obtaining a draft genome sequence of the zebra finch (Taeniopygia guttata), the second bird genome to be sequenced, provides the necessary resource for whole-genome comparative analysis of gene sequence evolution in a non-mammalian vertebrate lineage. To analyze basic molecular evolutionary processes during avian evolution, and to contrast these with the situation in mammals, we aligned the protein-coding sequences of 8,384 1:1 orthologs of chicken, zebra finch, a lizard and three mammalian species.Results
We found clear differences in the substitution rate at fourfold degenerate sites, being lowest in the ancestral bird lineage, intermediate in the chicken lineage and highest in the zebra finch lineage, possibly reflecting differences in generation time. We identified positively selected and/or rapidly evolving genes in avian lineages and found an over-representation of several functional classes, including anion transporter activity, calcium ion binding, cell adhesion and microtubule cytoskeleton.Conclusions
Focusing specifically on genes of neurological interest and genes differentially expressed in the unique vocal control nuclei of the songbird brain, we find a number of positively selected genes, including synaptic receptors. We found no evidence that selection for beneficial alleles is more efficient in regions of high recombination; in fact, there was a weak yet significant negative correlation between ω and recombination rate, which is in the direction predicted by the Hill-Robertson effect if slightly deleterious mutations contribute to protein evolution. These findings set the stage for studies of functional genetics of avian genes. 相似文献73.
Asberom T Bara TA Clader JW Greenlee WJ Guzik HS Josien HB Li W Parker EM Pissarnitski DA Song L Zhang L Zhao Z 《Bioorganic & medicinal chemistry letters》2007,17(1):205-207
The development of a novel series of tetrahydroquinoline-derived gamma-secretase inhibitors for the potential treatment of Alzheimer's disease is described. 相似文献
74.
Lovey RG Saksena AK Girijavallabhan VM Blundell P Guzik H Loebenberg D Parmegiani RM Cacciapuoti A 《Bioorganic & medicinal chemistry letters》2002,12(13):1739-1742
The four 2,2,5-regioisomer counterparts of SCH 51048 were synthesized and evaluated. As with the parent series, only the two cis isomers possessed any in vitro activity, and only the activity of the isomer with the R-configuration at the tetrahydrofuran 2-carbon was significant. The activity data suggests that oxygen at only one of the two possible ring positions benzylic to the difluorobenzene participates usefully in active site binding. 相似文献
75.
Mieke van der Heyde Nicole E. White Paul Nevill Andrew D. Austin Nicholas Stevens Matt Jones Michelle T. Guzik 《Molecular ecology resources》2023,23(6):1257-1274
Stygofauna are aquatic fauna that have evolved to live underground. The impacts of anthropogenic climate change, extraction and pollution on groundwater pose major threats to groundwater health, prompting the need for efficient and reliable means to detect and monitor stygofaunal communities. Conventional survey techniques for these species rely on morphological identification and can be biased, labour-intensive and often indeterminate to lower taxonomic levels. By contrast, environmental DNA (eDNA)-based methods have the potential to dramatically improve on existing stygofaunal survey methods in a large range of habitats and for all life stages, reducing the need for the destructive manual collection of often critically endangered species or for specialized taxonomic expertise. We compared eDNA and haul-net samples collected in 2020 and 2021 from 19 groundwater bores and a cave on Barrow Island, northwest Western Australia, and assessed how sampling factors influenced the quality of eDNA detection of stygofauna. The two detection methods were complementary; eDNA metabarcoding was able to detect soft-bodied taxa and fish often missed by nets, but only detected seven of the nine stygofaunal crustacean orders identified from haul-net specimens. Our results also indicated that eDNA metabarcoding could detect 54%–100% of stygofauna from shallow-water samples and 82%–90% from sediment samples. However, there was significant variation in stygofaunal diversity between sample years and sampling types. The findings of this study demonstrate that haul-net sampling has a tendency to underestimate stygofaunal diversity and that eDNA metabarcoding of groundwater can substantially improve the efficiency of stygofaunal surveys. 相似文献
76.
DNA fingerprints from hypervariable mitochondrial genotypes 总被引:4,自引:0,他引:4
Conventional surveys of restriction-fragment polymorphisms in mitochondrial
DNA of menhaden fish (Brevoortia tyrannus/patronus complex) and chuckwalla
lizards (Sauromalus obesus) revealed exceptionally high levels of genetic
variation, attributable to differences in mtDNA size as well as in
restriction sites. The observed probabilities that any two randomly drawn
individuals differed detectably in mtDNA genotype were 0.998 and 0.983 in
the two species, respectively. Thus, the variable gel profiles provided
unique mtDNA "fingerprints" for most conspecific animals assayed. mtDNA
fingerprints differ from nuclear DNA fingerprints in several empirical
respects and should find special application in the genetic assessment of
maternity.
相似文献
77.
Phylogenetic evidence for role-reversals of gender-associated mitochondrial DNA in Mytilus (Bivalvia: Mytilidae) 总被引:1,自引:0,他引:1
Hoeh WR; Stewart DT; Saavedra C; Sutherland BW; Zouros E 《Molecular biology and evolution》1997,14(9):959-967
Distinct gender-associated mitochondrial DNA (mtDNA) lineages (i.e.,
lineages which are transmitted either through males or through females)
have been demonstrated in two families of bivalves, the Mytilidae (marine
mussels) and the Unionidae (freshwater mussels), which have been separated
for more than 400 Myr. The mode of transmission of these M (for
male-transmitted) and F (for female-transmitted) molecules has been
referred to as doubly uniparental inheritance (DUI), in contrast to
standard maternal inheritance (SMI), which is the norm in animals. A
previous study suggested that at least three origins of DUI are required to
explain the phylogenetic pattern of M and F lineages in freshwater and
marine mussels. Here we present phylogenetic evidence based on partial
sequences of the cytochrome c oxidase subunit I gene and the 16S RNA gene
that indicates the DUI is a dynamic phenomenon. Specifically, we
demonstrate that F lineages in three species of Mytilus mussels, M. edulis,
M. trossulus, and M. californianus, have spawned separate lineages which
are now associated only with males. This process is referred to as
"masculinization" of F mtDNA. By extension, we propose that DUI may be a
primitive bivalve character and that periodic masculinization events
combined with extinction of previously existing M types effectively reset
the time of divergence between conspecific gender-associated mtDNA
lineages.
相似文献
78.
Ca‐ion batteries (CIBs) show promise to achieve the high energy density required by emerging applications like electric vehicles because of their potentially improved capacities and high operating voltages. The development of CIBs is hindered by the failure of traditional graphite and calcium metal anodes due to the intercalation difficulty and the lack of efficient electrolytes. Recently, a high voltage (4.45 V) CIB cell using Sn as the anode has been reported to achieve a remarkable cyclability (>300 cycles). The calciation of Sn is observed to end at Ca7Sn6, which is surprising, since higher Ca‐content compounds are known (e.g., Ca2Sn). Here, the Sn electrochemical calciation reaction process is investigated computationally and the reaction driving force as a function of Ca content is explored using density functional theory (DFT) calculations. This exploration allows the identification of threshold voltages which govern the limits of the calciation process. This information is then used to design a four‐step screening strategy and high‐throughput DFT is utilized to search for anode materials with higher properties. Many metalloids (Si, Sb, Ge), (post‐)transition metals (Al, Pb, Cu, Cd, CdCu2) are predicted to be promising inexpensive anode candidates and warrant further experimental investigations. 相似文献
79.
Hannah Pope-Varsalona Fu-Jun Liu Lynda Guzik Patricia L. Opresko 《Nucleic acids research》2014,42(21):13096-13109
Telomeres at chromosome ends are normally masked from proteins that signal and repair DNA double strand breaks (DSBs). Bulky DNA lesions can cause DSBs if they block DNA replication, unless they are bypassed by translesion (TLS) DNA polymerases. Here, we investigated roles for TLS polymerase η, (polη) in preserving telomeres following acute physical UVC exposure and chronic chemical Cr(VI) exposure, which both induce blocking lesions. We report that polη protects against cytotoxicity and replication stress caused by Cr(VI), similar to results with ultraviolet C light (UVC). Both exposures induce ataxia telangiectasia and Rad3-related (ATR) kinase and polη accumulation into nuclear foci and localization to individual telomeres, consistent with replication fork stalling at DNA lesions. Polη-deficient cells exhibited greater numbers of telomeres that co-localized with DSB response proteins after exposures. Furthermore, the genotoxic exposures induced telomere aberrations associated with failures in telomere replication that were suppressed by polη. We propose that polη''s ability to bypass bulky DNA lesions at telomeres is critical for proper telomere replication following genotoxic exposures. 相似文献
80.
Nitric oxide and superoxide in inflammation and immune regulation. 总被引:32,自引:0,他引:32