Conflicting Interests in the Pathogen–Host Tug of War: Fungal Micronutrient Scavenging Versus Mammalian Nutritional Immunity
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Vyšlo v časopise:
Conflicting Interests in the Pathogen–Host Tug of War: Fungal Micronutrient Scavenging Versus Mammalian Nutritional Immunity. PLoS Pathog 10(3): e32767. doi:10.1371/journal.ppat.1003910
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https://doi.org/10.1371/journal.ppat.1003910
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Zdroje
1. WangL, CherayilBJ (2009) Ironing out the wrinkles in the host defence: interactions between iron homeostasis and innate immunity. J Innate Immun 1: 455–464.
2. SchrettlM, BeckmannN, VargaJ, HeinekampT, JacobsenID, et al. (2010) HapX-mediated adaptation to iron starvation is crucial for virulence of Aspergillus fumigatus. PLOS Pathog 6: e1001124 doi:10.1371/journal.ppat.1001124
3. Schneider RdeO, Fogaça NdeS, KmetzschL, SchrankA, VainsteinMH, et al. (2012) Zap1 regulates zinc homeostasis and modulates virulence in Cryptococcus gattii. PLOS ONE 7: e43773 doi:10.1371/journal.pone.0043773
4. KronstadJW, HuG, JungWH (2013) An encapsulation of iron homeostasis and virulence in Cryptococcus neoformans. Trends Microbiol 21: 457–465.
5. WaldronKJ, RutherfordJC, FordD, RobinsonNJ (2009) Metalloproteins and metal sensing. Nature 460: 823–830.
6. EhrensbergerKM, BirdAJ (2011) Hammering out details: regulating metal levels in eukaryotes. Trends Biochem Sci 36: 524–531.
7. BleackleyMR, MacgillivrayRT (2011) Transition metal homeostasis: from yeast to human disease. Biometals 24: 785–809.
8. SamanovicMI, DingC, ThieleDJ, DarwinKH (2012) Copper in microbial pathogenesis: meddling with the metal. Cell Host Microbe 11: 106–115.
9. IbrahimAS (2011) Host cell invasion in mucormycosis: role of iron. Curr Opin Microbiol 14: 406–411.
10. Iglesias-OsmaC, Gonzalez-VillaronL, San MiguelJF, CaballeroMD, VazquezL, et al. (1995) Iron metabolism and fungal infections in patients with haematological malignancies. J Clin Pathol 48: 223–225.
11. JungWH, KronstadJW (2008) Iron and fungal pathogenesis: a case study with Cryptococcus neoformans. Cell Microbiol 10: 277–284.
12. BarluzziR, SaleppicoS, NocentiniA, BoelaertJR, NegliaR, et al. (2002) Iron overload exacerbates experimental meningoencephalitis by Cryptococcus neoformans. J Neuroimmunol 132: 140–146.
13. RamananN, WangY (2000) A high-affinity iron permease essential for Candida albicans virulence. Science 288: 1062–1064.
14. SchrettlM, BignellE, KraglC, SabihaY, LossO, et al. (2007) Distinct roles for intra- and extracellular siderophores during Aspergillus fumigatus infection. PLOS Pathog 3: e128 doi:10.1371/journal.ppat.0030128
15. HiltyJ, George SmulianA, NewmanSL (2011) Histoplasma capsulatum utilizes siderophores for intracellular iron acquisition in macrophages. Med Mycol 49: 633–642.
16. DingC, FestaRA, ChenYL, EspartA, PalaciosÒ, et al. (2013) Cryptococcus neoformans copper detoxification machinery is critical for fungal virulence. Cell Host Microbe 13: 265–276.
17. RaymondKN, DertzEA, KimSS (2003) Enterobactin: an archetype for microbial iron transport. Proc Natl Acad Sci U S A 100: 3584–3588.
18. RaeTD, SchmidtPJ, PufahlRA, CulottaVC, O'HalloranTV (1999) Undetectable intracellular free copper: the requirement of a copper chaperone for superoxide dismutase. Science 284: 805–808.
19. DrakesmithH, PrenticeAM (2012) Hepcidin and the iron-infection axis. Science 338: 768–772.
20. ArmitageAE, EddowesLA, GileadiU, ColeS, SpottiswoodeN, et al. (2011) Hepcidin regulation by innate immune and infectious stimuli. Blood 118: 4129–4139.
21. SilvaMG, SchrankA, BailãoEF, BailãoAM, BorgesCL, et al. (2011) The homeostasis of iron, copper, and zinc in Paracoccidioides brasiliensis, Cryptococcus neoformans var. Grubii, and Cryptococcus gattii: a comparative analysis. Front Microbiol 2: 49 doi:10.3389/fmicb.2011.00049
22. PotrykusJ, SteadD, MacCallumDM, UrgastDS, RaabA, et al. (2013) Fungal Iron Availability during Deep Seated Candidiasis Is Defined by a Complex Interplay Involving Systemic and Local Events. PLOS Pathog 9: e1003676 doi:10.1371/journal.ppat.1003676
23. WintersMS, ChanQ, CarusoJA, DeepeGSJr (2010) Metallomic analysis of macrophages infected with Histoplasma capsulatum reveals a fundamental role for zinc in host defenses. J Infect Dis 202: 1136–1145.
24. UrbanCF, ErmertD, SchmidM, Abu-AbedU, GoosmannC, et al. (2009) Neutrophil extracellular traps contain calprotectin, a cytosolic protein complex involved in host defense against Candida albicans. PLOS Pathog 5: e1000639 doi:10.1371/journal.ppat.1000639
25. ZaremberKA, SuguiJA, ChangYC, Kwon-ChungKJ, GallinJI (2007) Human polymorphonuclear leukocytes inhibit Aspergillus fumigatus conidial growth by lactoferrin-mediated iron depletion. J Immunol 178: 6367–6373.
26. CanessaP, LarrondoLF (2012) Environmental responses and the control of iron homeostasis in fungal systems. Appl Microbiol Biotechnol 97: 939–955.
27. CitiuloF, JacobsenID, MiramónP, SchildL, BrunkeS, et al. (2012) Candida albicans scavenges host zinc via Pra1 during endothelial invasion. PLOS Pathog 8: e1002777 doi:10.1371/journal.ppat.1002777
28. WatermanSR, ParkYD, RajaM, QiuJ, HammoudDA, et al. (2012) Role of CTR4 in the virulence of Cryptococcus neoformans. MBio 3: e00285–12 doi:10.1128/mBio.00285-12
29. HissenAH, WanAN, WarwasML, PintoLJ, MooreMM (2005) The Aspergillus fumigatus siderophore biosynthetic gene SIDA, encoding 1-ornithine N5- oxygenase, is required for virulence. Infect Immun 73: 5493–5503.
30. AlmeidaRS, WilsonD, HubeB (2009) Candida albicans iron acquisition within the host. FEMS Yeast Res 9: 1000–1012.
31. CadieuxB, LianT, HuG, WangJ, BiondoC, et al. (2013) The mannoprotein Cig1 supports iron acquisition from heme and virulence in the pathogenic fungus Cryptococcus neoformans. J Infect Dis 207: 1339–1347.
32. IbrahimAS, GebremariamT, LinL, LuoG, HusseinyMI, et al. (2010) The high affinity iron permease is a key virulence factor required for Rhizopus oryzae pathogenesis. Mol Microbiol 77: 587–604.
33. SeifertM, NairzM, SchrollA, SchrettlM, HaasH, et al. (2008) Effects of the Aspergillus fumigatus siderophore systems on the regulation of macrophage immune effector pathways and iron homeostasis. Immunobiology 213: 767–778.
34. HwangLH, MayfieldJA, RineJ, SilA (2008) Histoplasma requires SID1, a member of an iron-regulated siderophore gene cluster, for host colonization. PLOS Pathog 4: e1000044 doi:10.1371/journal.ppat.1000044
35. CobinePA, PierrelF, BestwickML, WingeDR (2006) Mitochondrial matrix copper complex used in metallation of cytochrome oxidase and superoxide dismutase. J Biol Chem 281: 36552–36559.
36. BalasubramanianR, RosenzweigAC (2008) Copper methanobactin: a molecule whose time has come. Curr Opin Chem Biol 12: 245–249.
37. RajaMR, WatermanSR, QiuJ, BleherR, WilliamsonPR, et al. (2013) A copper hyperaccumulation phenotype correlates with pathogenesis in Cryptococcus neoformans. Metallomics 5: 363–371.
38. NobileCJ, NettJE, HerndayAD, HomannOR, DeneaultJS, et al. (2009) Biofilm matrix regulation by Candida albicans Zap1. PLOS Biol 7: e1000133 doi:10.1371/journal.pbio.1000133
39. RichieDL, FullerKK, FortwendelJ, MileyMD, McCarthyJW, et al. (2007) Unexpected link between metal ion deficiency and autophagy in Aspergillus fumigatus. Eukaryot Cell 6: 2437–2447.
40. CrestaniJ, CarvalhoPC, HanX, SeixasA, BroettoL, et al. (2012) Proteomic profiling of the influence of iron availability on Cryptococcus gattii. J Proteome Res 11: 189–205.
Štítky
Hygiena a epidemiológia Infekčné lekárstvo LaboratóriumČlánok vyšiel v časopise
PLOS Pathogens
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