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91.
O'Donovan A Pantell MS Puterman E Dhabhar FS Blackburn EH Yaffe K Cawthon RM Opresko PL Hsueh WC Satterfield S Newman AB Ayonayon HN Rubin SM Harris TB Epel ES;Health Aging Body Composition Study 《PloS one》2011,6(5):e19687
Background
Leukocyte telomere length (LTL) is an emerging marker of biological age. Chronic inflammatory activity is commonly proposed as a promoter of biological aging in general, and of leukocyte telomere shortening in particular. In addition, senescent cells with critically short telomeres produce pro-inflammatory factors. However, in spite of the proposed causal links between inflammatory activity and LTL, there is little clinical evidence in support of their covariation and interaction.Methodology/Principal Findings
To address this issue, we examined if individuals with high levels of the systemic inflammatory markers interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α) and C-reactive protein (CRP) had increased odds for short LTL. Our sample included 1,962 high-functioning adults who participated in the Health, Aging and Body Composition Study (age range: 70–79 years). Logistic regression analyses indicated that individuals with high levels of either IL-6 or TNF-α had significantly higher odds for short LTL. Furthermore, individuals with high levels of both IL-6 and TNF-α had significantly higher odds for short LTL compared with those who had neither high (OR = 0.52, CI = 0.37–0.72), only IL-6 high (OR = 0.57, CI = 0.39–0.83) or only TNF-α high (OR = 0.67, CI = 0.46–0.99), adjusting for a wide variety of established risk factors and potential confounds. In contrast, CRP was not associated with LTL.Conclusions/Significance
Results suggest that cumulative inflammatory load, as indexed by the combination of high levels of IL-6 and TNF-α, is associated with increased odds for short LTL. In contrast, high levels of CRP were not accompanied by short LTL in this cohort of older adults. These data provide the first large-scale demonstration of links between inflammatory markers and LTL in an older population. 相似文献92.
Gelman DB Gerling D Blackburn MB Hu JS 《Archives of insect biochemistry and physiology》2005,60(4):209-222
There is relatively little information available concerning the physiological and biochemical interactions between whiteflies and their parasitoids. In this report, we describe interactions between aphelinid parasitoids and their aleyrodid hosts that we have observed in four host-parasite systems: Bemisia tabaci/Encarsia formosa, Trialeurodes vaporariorum/E. formosa, B. tabaci/Eretmocerus mundus, and T. lauri/Encarsia scapeata. In the absence of reported polydnavirus and teratocytes, these parasitoids probably inject and/or produce compounds that interfere with the host immune response and also manipulate host development to suit their own needs. In addition, parasitoids must coordinate their own development with that of their host. Although eggs are deposited under all four instars of B. tabaci, Eretmocerus larvae only penetrate 4th instar B. tabaci nymphs. A pre-penetrating E. mundus first instar was capable of inducing permanent developmental arrest in its host, and upon penetration stimulated its host to produce a capsule (epidermal in origin) in which the parasitoid larva developed. T. vaporariorum and B. tabaci parasitized by E. formosa initiated adult development, and, on occasion, produced abnormal adult wings and eyes. In these systems, the site of parasitoid oviposition depended on the host species, occurring within or pressing into the ventral ganglion in T. vaporariorum and at various locations in B. tabaci. E. formosa's final larval molt is cued by the initiation of adult development in its host. In the T. lauri-E. scapeata system, both the host whitefly and the female parasitoid diapause during most of the year, i.e., from June until the middle of February (T. lauri) or from May until the end of December (E. scapeata). It appears that the growth and development of the insects are directed by the appearance of new, young foliage on Arbutus andrachne, the host tree. When adult female parasitoids emerged in the spring, they laid unfertilized male-producing eggs in whiteflies containing a female parasitoid [autoparasitism (development of male larvae utilizing female parasitoid immatures for nutrition)]. Upon hatching, these male larvae did not diapause, but initiated development, and the adult males that emerged several weeks later mated with available females to produce the next generation of parasitoid females. Thus, the interactions that exist between whiteflies and their parasitoids are complex and can be quite diverse in the various host-parasitoid systems. 相似文献
93.
Jawahar?G.?PatilEmail author Rasanthi?M.?Gunasekera Bruce?E.?Deagle Nicholas?J.?Bax Susan?I.?Blackburn 《Biological invasions》2005,7(6):983-994
Gymnodinium catenatum is a bloom forming dinoflagellate that has been known to cause paralytic shellfish poisoning (PSP) in humans. It is being
reported with increased frequency around the world, with ballast water transport implicated as a primary vector that may have
contributed to its global spread. Major limitations to monitoring and management of its spread are the inability for early,
rapid, and accurate detection of G. catenatum in plankton samples. This study explored the feasibility of developing a PCR-based method for specific detection of G. catenatumin cultures and heterogeneous ballast water and environmental samples. Sequence comparison of the large sub unit (LSU) ribosomal
DNA locus of several strains and species of dinoflagellates allowed the design of G. catenatum specific PCR primers that are flanked by conserved regions. Assay specificity was validated through screening a range of
dinoflagellate cultures, including the morphologically similar and taxonomically closely related species G. nolleri. Amplification of the diagnostic PCR product from all the strains of G. catenatum but not from other species of dinoflagellates tested imply the species specificity of the assay. Sensitivity of the assay
to detect cysts in ballast water samples was established by simulated spiked experiments. The assay could detect G. catenatum in all ‘blank’ plankton samples that were spiked with five or more cysts. The assay was used to test environmental samples
collected from the Derwent river estuary, Tasmania. Based on the results we conclude that the assay may be utilized in large
scale screening of environmental and ballast water samples. 相似文献
94.
Patients with systemic autoimmune diseases usually produce high levels of antibodies to self-antigens (autoantigens). The
repertoire of common autoantigens is remarkably limited, yet no readily understandable shared thread links these apparently
diverse proteins. Using computer prediction algorithms, we have found that most nuclear systemic autoantigens are predicted
to contain long regions of extreme structural disorder. Such disordered regions would generally make poor B cell epitopes
and are predicted to be under-represented as potential T cell epitopes. Consideration of the potential role of protein disorder
may give novel insights into the possible role of molecular mimicry in the pathogenesis of autoimmunity. The recognition of
extreme autoantigen protein disorder has led us to an explicit model of epitope spreading that explains many of the paradoxical
aspects of autoimmunity – in particular, the difficulty in identifying autoantigen-specific helper T cells that might collaborate
with the B cells activated in systemic autoimmunity. The model also explains the experimentally observed breakdown of major
histocompatibility complex (MHC) class specificity in peptides associated with the MHC II proteins of activated autoimmune
B cells, and sheds light on the selection of particular T cell epitopes in autoimmunity. Finally, the model helps to rationalize
the relative rarity of clinically significant autoimmunity despite the prevalence of low specificity/low avidity autoantibodies
in normal individuals. 相似文献
95.
Cellular and gene expression responses involved in the rapid growth inhibition of human cancer cells by RNA interference-mediated depletion of telomerase RNA 总被引:10,自引:0,他引:10
Inhibition of the up-regulated telomerase activity in cancer cells has previously been shown to slow cell growth but only after prior telomere shortening. Previously, we have reported that, unexpectedly, a hairpin short interfering RNA specifically targeting human telomerase RNA rapidly inhibits the growth of human cancer cells independently of p53 or telomere length and without bulk telomere shortening (Li, S., Rosenberg, J. E., Donjacour, A. A., Botchkina, I. L., Hom, Y. K., Cunha, G. R., and Blackburn, E. H. (2004) Cancer Res. 64, 4833-4840). Here we have demonstrated that such telomerase RNA knockdown in cancer cells does not cause telomere uncapping but rather induces changes in the global gene expression profile indicative of a novel response pathway, which includes suppression of specific genes implicated in angiogenesis and metastasis, and is distinct from the expression profile changes induced by telomere-uncapping mutant template telomerase RNAs. These cellular responses to depleting telomerase in human cancer cells together suggest that cancer cells are "telomerase-addicted" and uncover functions of telomerase in tumor growth and progression in addition to telomere maintenance. 相似文献
96.
Blackburn EH 《FEBS letters》2005,579(4):859-862
The molecular features of telomeres and telomerase are conserved among most eukaryotes. How telomerase and telomeres function and how they interact to promote the chromosome-stabilizing properties of telomeres are discussed here. 相似文献
97.
Cysteine-to-serine mutants of a maltose binding protein fusion with the human copper chaperone for superoxide dismutase (hCCS) were studied with respect to (i) their ability to transfer Cu to E,Zn superoxide dismutase (SOD) and (ii) their Zn and Cu binding and X-ray absorption spectroscopic (XAS) properties. Previous work has established that Cu(I) binds to four cysteine residues, two of which, C22 and C25, reside within an Atox1-like N-terminal domain (DI) and two of which, C244 and C246, reside in a short unstructured polypeptide chain at the C-terminus (DIII). The wild-type (WT) protein shows an extended X-ray absorption fine structure (EXAFS) spectrum characteristic of cluster formation, but it is not known how such a cluster is formed. Cys to Ser mutagenesis was used to investigate the Cu binding in more detail. Single Cys to Ser mutations, as represented by C22S and C244S, did little to affect the metal binding ratios of hCCS. Both mutants still showed approximately 2 Cu(I) ions and 1 Zn ion per protein. The double mutants C22/24S and C244/246S, on the other hand, showed Cu binding stoichiometries close to 1:1. The Zn-EXAFS of WT CCS showed a 3-4 histidine ligand environment that is consistent with Zn binding in the SOD-like domain II of CCS. The Zn environment remained unchanged between wild type and all of the mutant CCS proteins. Single Cys to Ser mutations displayed lower activity than WT protein, although close to full activity could be rescued by increasing the CCS:SOD ratios to 8:1 in the assay mixture. The structure of the Cu centers of the single mutants as revealed by EXAFS was also similar to that of WT protein, with clear indications of a Cu cluster. On the other hand, the double mutants showed a greater degree of perturbation. The DI C22/25S mutant was 70% active and formed a cluster with a more intense Cu-Cu interaction. The DIII C244/246S mutant retained only a fraction (16%) of activity and did not form a cluster. The results suggest the formation of a DIII-DIII cluster within a dimeric or tetrameric protein and further suggest that this cluster may be an important element of the copper transfer machinery. 相似文献
98.
99.
Orme CD Davies RG Olson VA Thomas GH Ding TS Rasmussen PC Ridgely RS Stattersfield AJ Bennett PM Owens IP Blackburn TM Gaston KJ 《PLoS biology》2006,4(7):e208
Large-scale patterns of spatial variation in species geographic range size are central to many fundamental questions in macroecology and conservation biology. However, the global nature of these patterns has remained contentious, since previous studies have been geographically restricted and/or based on small taxonomic groups. Here, using a database on the breeding distributions of birds, we report the first (to our knowledge) global maps of variation in species range sizes for an entire taxonomic class. We show that range area does not follow a simple latitudinal pattern. Instead, the smallest range areas are attained on islands, in mountainous areas, and largely in the southern hemisphere. In contrast, bird species richness peaks around the equator, and towards higher latitudes. Despite these profoundly different latitudinal patterns, spatially explicit models reveal a weak tendency for areas with high species richness to house species with significantly smaller median range area. Taken together, these results show that for birds many spatial patterns in range size described in geographically restricted analyses do not reflect global rules. It remains to be discovered whether global patterns in geographic range size are best interpreted in terms of geographical variation in species assemblage packing, or in the rates of speciation, extinction, and dispersal that ultimately underlie biodiversity. 相似文献
100.
Shawn D. Blackburn Alison Crawford Haina Shin Antonio Polley Gordon J. Freeman E. John Wherry 《Journal of virology》2010,84(4):2078-2089
The PD-1/PD-L pathway plays a major role in regulating T-cell exhaustion during chronic viral infections in animal models, as well as in humans, and blockade of this pathway can revive exhausted CD8+ T cells. We examined the expression of PD-1 and its ligands, PD-L1 and PD-L2, in multiple tissues during the course of chronic viral infection and determined how the amount of PD-1 expressed, as well as the anatomical location, influenced the function of exhausted CD8 T cells. The amount of PD-1 on exhausted CD8 T cells from different anatomical locations did not always correlate with infectious virus but did reflect viral antigen in some tissues. Moreover, lower expression of PD-L1 in some locations, such as the bone marrow, favored the survival of PD-1Hi exhausted CD8 T cells, suggesting that some anatomical sites might provide a survival niche for subpopulations of exhausted CD8 T cells. Tissue-specific differences in the function of exhausted CD8 T cells were also observed. However, while cytokine production did not strictly correlate with the amount of PD-1 expressed by exhausted CD8 T cells from different tissues, the ability to degranulate and kill were tightly linked to PD-1 expression regardless of the anatomical location. These observations have implications for human chronic infections and for therapeutic interventions based on blockade of the PD-1 pathway.Chronic viral infections are often associated with CD8+ T-cell dysfunction (30). This dysfunction, termed exhaustion, includes defects in the ability to produce antiviral cytokines, poor cytotoxicity, a loss of antigen-independent self-renewal, and the inability to vigorously re-expand following antigen exposure (30). These functional deficiencies contrast with the highly functional memory CD8+ T cells that are generated after acute infection and maintained via interleukin-7 (IL-7)- and IL-15-mediated homeostatic proliferation (30). During chronic viral infections, T-cell exhaustion often correlates with poor control of viral replication (3, 8, 38, 39). Thus, there is considerable interest in developing strategies to reverse exhaustion and restore function in virus-specific CD8+ T cells during chronic infections.Recent studies have revealed an important role for the negative regulatory molecule PD-1 in CD8 T-cell exhaustion during chronic viral infections (29). PD-1, a member of the CD28/CTLA-4 family of costimulatory/coinhibitory receptors, contains both ITIM and ITSM motifs in the intracellular tail and can deliver negative signals, at least partly via recruitment of the phosphatase Shp-2 (29). A role for PD-1 in regulating T-cell responses to chronic viral infections was first observed using lymphocytic choriomeningitis virus (LCMV) infection of mice, where PD-1 was found to be highly expressed on exhausted CD8+ T cells from chronically infected animals but not on functional memory CD8+ T cells from mice that had cleared an acute strain of the virus (3). In vivo blockade of the PD-1 pathway led to a dramatic increase in the number of virus-specific CD8+ T cells, improved functionality of these cells, and enhanced control of viral replication (3). These observations were extended to human chronic viral infections, and a series of studies have demonstrated that human immunodeficiency virus (HIV)-, hepatitis C virus (HCV)-, and HBV-specific CD8+ T cells upregulate PD-1 in humans compared to CD8+ T cells specific for nonpersisting viruses such as influenza virus or vaccinia virus (6-8, 24, 26, 32, 33, 42). Increasing PD-1 expression also correlates with disease status during HIV infection (8, 42). In vitro blockade of PD-1-PD-L interactions can reinvigorate exhausted virus-specific T-cell responses in humans and appears to have a prominent impact on proliferative expansion and/or prevention of apoptosis in these cases (9, 24, 32). Finally, recent results from in vivo blockade in the macaque simian immunodeficiency virus (SIV) infection model demonstrated the effectiveness of blocking PD-1 in primates during chronic viral infection (36). In these studies, PD-1 blockade enhanced virus-specific T and B-cell responses, lowered viral load, and improved the survival of chronically infected animals. Thus, PD-1 has emerged as not only a major regulator of T-cell exhaustion and viral control during chronic infection but also as an important potential therapeutic target.Despite these important studies and the clear impact of PD-1 blockade on the reversal of T-cell exhaustion, important questions remain. For example, previous work has demonstrated that PD-1 expression is not uniform on subsets of exhausted CD8 T cells (4). However, the expression of PD-1 on exhausted CD8 T cells in multiple tissues, and the relationship between PD-1 expression in these tissues to viral load, the PD-1 ligands and function has not been examined. Given the nonlymphoid accumulation of virus-specific CD8 T cells during chronic viral infections (11, 39) and the predilection of many important chronic infections for replicating in anatomically restricted locations (e.g., HCV and the liver, HIV and mucosal tissues, etc.), the dynamics of PD-1 expression by exhausted CD8 T cells outside the blood and spleen could have important therapeutic implications.In the present study we examined these issues using the mouse model of LCMV infection. Our results demonstrate that exhausted CD8 T cells have a wide range of PD-1 expression in different tissues of chronically infected mice. Virus-specific CD8 T cells in some anatomical locations such as the liver, brain, and bone marrow (BM) expressed high PD-1 for substantially longer than virus-specific CD8+ T cells from the spleens or blood of the same mice. Although PD-1 expression in the spleen correlated well with reduced gamma interferon (IFN-γ) and tumor necrosis factor (TNF) production, the PD-1Hi virus-specific CD8+ T cells from the BM remained capable of producing antiviral cytokines ex vivo. In contrast, a strong negative correlation between PD-1 expression and cytotoxicity existed for exhausted CD8 T cells from all tissues tested. PD-L1 expression was high in the spleen, whereas in the BM antigen-presenting cell (APC) populations expressed lower amounts of PD-L1. Survival of PD-1Hi CD8+ T cells from the BM was decreased in the presence of splenic APCs, suggesting that different tissue microenvironments in vivo could selectively support the persistence of PD-1Hi exhausted CD8 T cells. Since PD-1 expression differs by anatomical location, these observations suggest that PD-1 blockade in vivo will have varying impacts on exhausted CD8 T cells from different tissues or anatomical locations. These observations have implications for human chronic infections such as HBV, HCV, and HIV. 相似文献