共查询到20条相似文献,搜索用时 15 毫秒
1.
MC Fleckenstein ML Reese S Könen-Waisman JC Boothroyd JC Howard T Steinfeldt 《PLoS biology》2012,10(7):e1001358
The ability of mice to resist infection with the protozoan parasite, Toxoplasma gondii, depends in large part on the function of members of a complex family of atypical large GTPases, the interferon-gamma-inducible immunity-related GTPases (IRG proteins). Nevertheless, some strains of T. gondii are highly virulent for mice because, as recently shown, they secrete a polymorphic protein kinase, ROP18, from the rhoptries into the host cell cytosol at the moment of cell invasion. Depending on the allele, ROP18 can act as a virulence factor for T. gondii by phosphorylating and thereby inactivating mouse IRG proteins. In this article we show that IRG proteins interact not only with ROP18, but also strongly with the products of another polymorphic locus, ROP5, already implicated as a major virulence factor from genetic crosses, but whose function has previously been a complete mystery. ROP5 proteins are members of the same protein family as ROP18 kinases but are pseudokinases by sequence, structure, and function. We show by a combination of genetic and biochemical approaches that ROP5 proteins act as essential co-factors for ROP18 and present evidence that they work by enforcing an inactive GDP-dependent conformation on the IRG target protein. By doing so they prevent GTP-dependent activation and simultaneously expose the target threonines on the switch I loop for phosphorylation by ROP18, resulting in permanent inactivation of the protein. This represents a novel mechanism in which a pseudokinase facilitates the phosphorylation of a target by a partner kinase by preparing the substrate for phosphorylation, rather than by upregulation of the activity of the kinase itself. 相似文献
2.
Regulatory interactions between IRG resistance GTPases in the cellular response to Toxoplasma gondii
Hunn JP Koenen-Waisman S Papic N Schroeder N Pawlowski N Lange R Kaiser F Zerrahn J Martens S Howard JC 《The EMBO journal》2008,27(19):2495-2509
Members of the immunity-related GTPase (IRG) family are interferon-inducible resistance factors against a broad spectrum of intracellular pathogens including Toxoplasma gondii. The molecular mechanisms governing the function and regulation of the IRG resistance system are largely unknown. We find that IRG proteins function in a system of direct, nucleotide-dependent regulatory interactions between family members. After interferon induction but before infection, the three members of the GMS subfamily of IRG proteins, Irgm1, Irgm2 and Irgm3, which possess an atypical nucleotide-binding site, regulate the intracellular positioning of the conventional GKS subfamily members, Irga6 and Irgb6. Following infection, the normal accumulation of Irga6 protein at the parasitophorous vacuole membrane (PVM) is nucleotide dependent and also depends on the presence of all three GMS proteins. We present evidence that an essential role of the GMS proteins in this response is control of the nucleotide-bound state of the GKS proteins, preventing their GTP-dependent activation before infection. Accumulation of IRG proteins at the PVM has previously been shown to be associated with a block in pathogen replication: our results relate for the first time the enzymatic properties of IRG proteins to their role in pathogen resistance. 相似文献
3.
Aliaksandr Khaminets Julia P. Hunn Stephanie Könen‐Waisman Yang O. Zhao Daniela Preukschat Jörn Coers Jon P. Boyle Yi‐Ching Ong John C. Boothroyd Gabriela Reichmann Jonathan C. Howard 《Cellular microbiology》2010,12(7):939-961
The immunity‐related GTPases (IRGs) constitute an interferon‐induced intracellular resistance mechanism in mice against Toxoplasma gondii. IRG proteins accumulate on the parasitophorous vacuole membrane (PVM), leading to its disruption and to death of the parasite. How IRGs target the PVM is unknown. We show that accumulation of IRGs on the PVM begins minutes after parasite invasion and increases for about 1 h. Targeting occurs independently of several signalling pathways and the microtubule network, suggesting that IRG transport is diffusion‐driven. The intensity of IRG accumulation on the PVM, however, is reduced in absence of the autophagy regulator, Atg5. In wild‐type cells IRG proteins accumulate cooperatively on PVMs in a definite order reflecting a temporal hierarchy, with Irgb6 and Irgb10 apparently acting as pioneers. Loading of IRG proteins onto the vacuoles of virulent Toxoplasma strains is attenuated and the two pioneer IRGs are the most affected. The polymorphic rhoptry kinases, ROP16, ROP18 and the catalytically inactive proteins, ROP5A–D, are not individually responsible for this effect. Thus IRG proteins protect mice against avirulent strains of Toxoplasma but fail against virulent strains. The complex cooperative behaviour of IRG proteins in resisting Toxoplasma may hint at undiscovered complexity also in virulence mechanisms. 相似文献
4.
Tachyzoites of the obligate intracellular protozoan Toxoplasma gondii are resistant to lysis in non-immune human serum. We have examined the mechanism of this serum resistance in RH and P strain organisms, which differ markedly in virulence, but are equally resistant to serum killing. Rapid, but limited, activation of the alternative complement pathway occurred in non-immune human serum, with deposition of equivalent amounts of C3 on the two strains. C component C3 bound covalently to parasite acceptor molecules via an ester linkage. The predominant form of C3 was iC3b which cannot participate in formation of a lytic C5b-9 complex. Multiple membrane constituents of the tachyzoite of T. gondii may serve as acceptors for the limited amount of C3 deposited during incubation in non-immune serum. When tachyzoites were presensitized with the lytic anti-p30 mAb 7B8, new amide-linked C3-acceptor complexes formed. Nearly equivalent C3 binding but a threefold enhancement of 125I-C9 binding occurred when mAb 7B8 pre-sensitized tachyzoites were compared to native organisms. These results indicate that tachyzoites of T. gondii are serum resistant because of failure to activate C efficiently. Presensitization with a lytic mAb alters the site of complement deposition and augments C5b-9 formation. 相似文献
5.
The effect of sublethal inocula of Toxoplasma gondii on the course of listeriosis and salmonellosis in mice was investigated. Intravenous injection of T. gondii 24 hr after inoculation of Listeria monocytogenes increased mortality from 16% (L. monocytogenes alone) to 68% (L. monocytogenes + T. gondii) (P less than 0.001). Multiplication of L. monocytogenes in spleens also was increased significantly in mice given T. gondii. By 3 days after infection, mice that had received T. gondii and L. monocytogenes had approximately 10 times the number of L. monocytogenes per spleen compared to mice receiving L. monocytogenes alone. Similarly, mortality and the number of bacteria in spleens were increased in mice injected with Salmonella typhimurium and then inoculated with T. gondii. An in vitro assay of macrophage listeriacidal activity was used to investigate the mechanism of this decreased resistance. Peritoneal macrophages from mice injected with T. gondii were less bactericidal than macrophages from uninfected mice. Delayed hypersensitivity responses to L. monocytogenes antigen were markedly suppressed in mice injected with T. gondii. T. gondii infection appears to suppress both macrophage and T-lymphocyte function and may result in decreased resistance to infections caused by intracellular bacteria. 相似文献
6.
Exposure to pharmacological concentrations of potent estrogenic compounds, including 17 beta-estradiol, diethylstilbestrol, and alpha-dienestrol, increased the susceptibility of mice to Toxoplasma gondii as measured by brain cyst formation. Compounds with weak estrogenic activity or other hormonal activity, including 5 alpha-dihydrotestosterone, progesterone, and zearalanol, did not alter host resistance to infection. The ability of estrogens to alter susceptibility was inhibited by the estrogen antagonist, tamoxifen. The restoration of ovariectomized mice with normal physiological concentrations of estrogen had no effect on subsequent infection with T. gondii. These results indicate that pharmacological, but not physiological, levels of estrogen selectively alter host resistance to T. gondii, possibly through hormonal events. 相似文献
7.
Sibley LD Mordue DG Su C Robben PM Howe DK 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2002,357(1417):81-88
Toxoplasma gondii is a common protozoan parasite that causes disease in immunocompromised humans. Equipped with a wide array of experimental tools, T. gondii has rapidly developed as a model parasite for genetic studies. The population structure of T. gondii is highly clonal, consisting of three distinct lineages that differ dramatically in virulence. Acute virulence is probably mediated by the genetic differences that distinguish strain types. We have utilized a combination of genetic approaches to investigate the acute virulence of toxoplasmosis using the mouse model. These studies reveal the surprising finding that pathogenicity is due to the over-stimulation of normally protective immune responses. Classical genetic linkage mapping studies indicate that genes that mediate acute virulence are linked to chromosome VII in the parasite. To increase the resolution of genetic mapping studies, single-nucleotide polymorphisms are being developed based on an extensive database of expressed sequence tags (ESTs) from T. gondii. Separately, DNA microarray studies are being used to examine the expression of parasite and host genes during infection. Collectively, these approaches should improve current understanding of virulence and pathogenicity in toxoplasmosis. 相似文献
8.
Virulence of the protozoan parasite Toxoplasma gondii is highly variable and dependent upon the genotype of the parasite. The application of forward and reverse genetic approaches for understanding the genetic basis of virulence has resulted in the identification of several members of the ROP family as key mediators of virulence. More recently, modern genomic techniques have been used to address strain differences in virulence and have also identified additional members of the ROP family as likely mediators. The development of forward and reverse genetic, as well as modern genomic techniques, and the path to the discovery of the ROP genes as virulence factors is reviewed here. 相似文献
9.
Primary infection with Toxoplasma gondii stimulates production of high levels of interleukin 12 (IL-12) and interferon γ (IFN-γ) by cells of the innate immune system. These two cytokines are central to resistance to T. gondii. Signaling through the Toll-like receptor (TLR) adaptor protein MyD88 is indispensible for activating early innate immune responses. Recent studies have established that TLR11 plays a dominant role in sensing T. gondii. At the same time, TLR11 is represented in humans only by a pseudogene, and the major question of how innate and adaptive immune responses occur in the absence of TLR11 remains unanswered. In this article, similarities and differences in sensors and effector molecules that determine host resistance to the parasite in humans and mice are discussed. 相似文献
10.
11.
Steinfeldt T Könen-Waisman S Tong L Pawlowski N Lamkemeyer T Sibley LD Hunn JP Howard JC 《PLoS biology》2010,8(12):e1000576
Virulence of complex pathogens in mammals is generally determined by multiple components of the pathogen interacting with the functional complexity and multiple layering of the mammalian immune system. It is most unusual for the resistance of a mammalian host to be overcome by the defeat of a single defence mechanism. In this study we uncover and analyse just such a case at the molecular level, involving the widespread intracellular protozoan pathogen Toxoplasma gondii and one of its most important natural hosts, the house mouse (Mus musculus). Natural polymorphism in virulence of Eurasian T. gondii strains for mice has been correlated in genetic screens with the expression of polymorphic rhoptry kinases (ROP kinases) secreted into the host cell during infection. We show that the molecular targets of the virulent allelic form of ROP18 kinase are members of a family of cellular GTPases, the interferon-inducible IRG (immunity-related GTPase) proteins, known from earlier work to be essential resistance factors in mice against avirulent strains of T. gondii. Virulent T. gondii strain ROP18 kinase phosphorylates several mouse IRG proteins. We show that the parasite kinase phosphorylates host Irga6 at two threonines in the nucleotide-binding domain, biochemically inactivating the GTPase and inhibiting its accumulation and action at the T. gondii parasitophorous vacuole membrane. Our analysis identifies the conformationally active switch I region of the GTP-binding site as an Achilles' heel of the IRG protein pathogen-resistance mechanism. The polymorphism of ROP18 in natural T. gondii populations indicates the existence of a dynamic, rapidly evolving ecological relationship between parasite virulence factors and host resistance factors. This system should be unusually fruitful for analysis at both ecological and molecular levels since both T. gondii and the mouse are widespread and abundant in the wild and are well-established model species with excellent analytical tools available. 相似文献
12.
13.
J Alexander T M Scharton-Kersten G Yap C W Roberts F Y Liew A Sher 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》1997,352(1359):1355-1359
The interaction of protozoan parasites with innate host defences is critical in determining the character of the subsequent infection. The initial steps in the encounter of Toxoplasma gondii with the vertebrate immune system provide a striking example of this important aspect of the host-parasite relationship. In immuno-competent individuals this intracellular protozoan produces an asymptomatic chronic infection as part of its strategy for transmission. Nevertheless, T. gondii is inherently a highly virulent pathogen. The rapid induction by the parasite of a potent cell-mediated immune response that both limits its growth and drives conversion to a dormant cyst stage explains this apparent paradox. Studies with gene-deficient mice have demonstrated the interleukin-12 (IL-12)-dependent production of interferon gamma (IFN-gamma) to be of paramount importance in controlling early parasite growth. However, this seems to be independent of nitric oxide production as mice deficient in inducible nitric oxide synthase (iNOS) and tumour necrosis factor receptor were able to control early growth of T. gondii, although, they later succumbed to infection. Nitric oxide does, however, seem to be important in controlling persistent infection; treating chronic infection with iNOS metabolic inhibitors results in disease reactivation. Preliminary evidence implicates neutrophils in effector pathways against this parasite distinct from that described for macrophages. Once initiated, IL-12-dependent IFN-gamma production in synergy with other proinflammatory cytokines can positively feed back on itself to induce ''cytokine shock''. Regulatory cytokines, particularly IL-10, are essential to down-regulate inflammation and limit host pathology. 相似文献
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15.
Emimycin was a potent and selective inhibitor of the growth and nucleic acid synthesis of Toxoplasma gondii in human fibroblasts. An emimycin-resistant mutant of T. gondii lost the pyrimidine salvage enzyme uracil phosphoribosyltransferase, the same enzyme absent in parasites resistant to fluorodeoxyuridine. The mutant resistant to emimycin was completely cross-resistant to fluorodeoxyuridine. Emimycin was as good a substrate as uracil for the uracil phosphoribosyltransferase of T. gondii. [3H]Emimycin supplied in the medium of cultures with actively growing intracellular parasites was converted to emimycin riboside-5'-phosphate in the soluble pool of T. gondii. All other emimycin analogs of uracil-containing nucleotides were also formed but little emimycin riboside diphosphate-N-acetylhexosamine was found. [3H]Emimycin was not converted to analogs of the cytidine nucleotides. When intracellular T. gondii were treated with a concentration of [3H]emimycin that partially inhibited parasite RNA synthesis, much less [3H]emimycin was incorporated into RNA than would be predicted by the amount of intracellular [3H]emimycin riboside triphosphate. 相似文献
16.
Seng S Nagasawa H Maki Y Yokoyama M Inoue N Xuan X Igarashi I Saito A Fujisaki K Mikami T Suzuki N Toyoda Y 《International journal for parasitology》1999,29(9):1433-1436
SAG-1, one of the major surface proteins of Toxoplasma gondii, has been reported to play an important role in immune and pathogenic mechanisms of the parasites but its exact function is still unclear. We investigated the time courses of T. gondii infection in B6C3F1 transgenic mice carrying the SAG-1 gene. SAG-1 transgenic mice were infected intraperitoneally with a high virulent RH strain or a low virulent Beverley strain of T. gondii. When infected with RH strain tachyzoites, no significant differences in time courses of survivals between SAG-1 transgenic and wild-type mice were observed. Both groups succumbed to an acute infection within 8 days after infection. However, a lower survival rate (20%) was observed in SAG-1 transgenic mice than in wild-type (80%), when infected with Beverley strain cysts. This result indicates that SAG-1 transgenic mice are more susceptible to T. gondii infection as compared with their wild-type counterpart. ELISA using recombinant SAG-1 protein indicates that SAG-1 transgenic mice do not produce antibodies to the SAG-1 molecule. These findings may provide a critical tool for analysing the molecular mechanisms of pathogenesis and host immune responses during toxoplasmosis. 相似文献
17.
目的 观察大蒜提取物体外抗弓形虫的作用效果及其机制.方法 将弓形虫RH株速殖子与兔肾细胞共同培养,加入不同浓度的大蒜素(实验组)和磺胺嘧啶(阳性对照组),培养不同时间后取出细胞,固定染色后观察细胞感染率及每个纳虫泡中弓形虫速殖子的数量;采用MTT比色法观察大蒜素对弓形虫速殖子侵袭细胞及其正常细胞增殖的影响;采用台盼兰着色法观察大蒜素对弓形虫速殖子活性的影响;采用TUNEL末端标记法检测弓形虫速殖子凋亡率,对药物的效应和机制进行探讨.结果 (1)10~80 μg/ml的大蒜素能抗弓形虫的感染,呈现剂量依赖性,与时间无明显的相关性.(2)40 μg/ml、80 μg/ml的大蒜素不能抑制细胞的增殖,对细胞无明显的毒副作用;160 μg/ml的大蒜素对细胞有明显的毒副作用.(3)大蒜素80 μg/ml时,台盼兰着色率最高,弓形虫的活力最低.(4)大蒜素80 μg/ml的浓度时,弓形虫速殖子凋亡率最高.结论 大蒜素可以抑制弓形虫速殖子的活力、对宿主细胞的感染力、在细胞内的增殖,无明显的毒副作用,最适宜浓度为80 μg/ml.大蒜素是一种良好的抗弓形虫药物,诱导弓形虫速殖子凋亡是其抗弓形虫机制之一. 相似文献
18.
A role for inducible costimulator protein in the CD28- independent mechanism of resistance to Toxoplasma gondii 总被引:4,自引:0,他引:4
Villegas EN Lieberman LA Mason N Blass SL Zediak VP Peach R Horan T Yoshinaga S Hunter CA 《Journal of immunology (Baltimore, Md. : 1950)》2002,169(2):937-943
Long-term resistance to Toxoplasma gondii is dependent on the development of parasite-specific T cells that produce IFN-gamma. CD28 is a costimulatory molecule important for optimal activation of T cells, but CD28(-/-) mice are resistant to T. gondii, demonstrating that CD28-independent mechanisms regulate T cell responses during toxoplasmosis. The identification of the B7-related protein 1/inducible costimulator protein (ICOS) pathway and its ability to regulate the production of IFN-gamma suggested that this pathway may be involved in the CD28-independent activation of T cells required for resistance to T. gondii. In support of this hypothesis, infection of wild-type or CD28(-/-) mice with T. gondii resulted in the increased expression of ICOS by activated CD4(+) and CD8(+) T cells. In addition, both costimulatory pathways contributed to the in vitro production of IFN-gamma by parasite-specific T cells and when both pathways were blocked, there was an additive effect that resulted in almost complete inhibition of IFN-gamma production. Although in vivo blockade of the ICOS costimulatory pathway did not result in the early mortality of wild-type mice infected with T. gondii, it did lead to increased susceptibility of CD28(-/-) mice to T. gondi associated with reduced serum levels of IFN-gamma, increased parasite burden, and increased mortality compared with the control group. Together, these results identify a critical role for ICOS in the protective Th1-type response required for resistance to T. gondii and suggest that ICOS and CD28 are parallel costimulatory pathways, either of which is sufficient to mediate resistance to this intracellular pathogen. 相似文献
19.
Whitmarsh RJ Gray CM Gregg B Christian DA May MJ Murray PJ Hunter CA 《Cell host & microbe》2011,10(3):224-236
The innate and adaptive immune responses that confer resistance to the intracellular pathogen Toxoplasma gondii critically depend on IL-12 production, which drives interferon-γ (IFN-γ) expression. Certain cytokines can activate STAT3 and limit IL-12 production to prevent infection-associated immune pathology, but T.?gondii also directly activates STAT3 to evade host immunity. We show that suppressor of cytokine signaling molecule 3 (SOCS3), a target of STAT3 that limits signaling by the pleiotropic cytokine IL-6, is upregulated in response to?infection but is dispensable for the immune-inhibitory effects of T.?gondii. Unexpectedly, mice with targeted deletion of SOCS3 in macrophages and neutrophils have reduced IL-12 responses and succumb to toxoplasmosis. Anti-IL-6 administration or IL-12 treatment blocked disease susceptibility, suggesting that in the absence of SOCS3, macrophages are hypersensitive to the anti-inflammatory properties of IL-6. Thus, SOCS3 has a critical role in suppressing IL-6 signals and promoting immune responses to control T.?gondii infection. 相似文献