共查询到20条相似文献,搜索用时 312 毫秒
1.
Sugareva V Härtl A Brock M Hübner K Rohde M Heinekamp T Brakhage AA 《Archives of microbiology》2006,186(5):345-355
Aspergillus fumigatus is an important pathogen of the immunocompromised host. Previously, it was shown that the polyketide synthase encoded by the pksP (alb1) gene represents a virulence determinant. pksP is part of a gene cluster involved in dihydroxynaphthalene (DHN)-like melanin biosynthesis. Because a putative laccase-encoding gene (abr2) is also part of the cluster and a laccase was found to represent a virulence factor in Cryptococcus neoformans, here, the Abr2 laccase was characterised. Deletion of the abr2 gene changed the gray-green conidial pigment to a brown color and the ornamentation of conidia was reduced compared with wild-type conidia. In contrast to the white pksP mutant, the susceptibility of the Δabr2 mutant against reactive oxygen species (ROS) was not increased, suggesting that the intermediate of DHN-like melanin produced up to the step catalysed by Abr2 already possesses ROS scavenging activity. In an intranasal mouse infection model, the Δabr2 mutant strain showed no reduction in virulence compared with the wild type. In the Δabr2 mutant, overall laccase activity was reduced only during sporulation, but not during vegetative growth. An abr2p-lacZ gene fusion was expressed during sporulation, but not during vegetative growth confirming the pattern of laccase activity due to Abr2. 相似文献
2.
3.
Aspergillus fumigatus produces heavily melanized infectious conidia. The conidial melanin is associated with fungal virulence and resistance to various environmental stresses. This 1,8-dihydroxynaphthalene (DHN) melanin is synthesized by enzymes encoded in a gene cluster in A. fumigatus, including two laccases, Abr1 and Abr2. Although this gene cluster is not conserved in all aspergilli, laccases are critical for melanization in all species examined. Here we show that the expression of A. fumigatus laccases Abr1/2 is upregulated upon hyphal competency and drastically increased during conidiation. The Abr1 protein is localized at the surface of stalks and conidiophores, but not in young hyphae, consistent with the gene expression pattern and its predicted role. The induction of Abr1/2 upon hyphal competency is controlled by BrlA, the master regulator of conidiophore development, and is responsive to the copper level in the medium. We identified a developmentally regulated putative copper transporter, CtpA, and found that CtpA is critical for conidial melanization under copper-limiting conditions. Accordingly, disruption of CtpA enhanced the induction of abr1 and abr2, a response similar to that induced by copper starvation. Furthermore, nonpigmented ctpAΔ conidia elicited much stronger immune responses from the infected invertebrate host Galleria mellonella than the pigmented ctpAΔ or wild-type conidia. Such enhancement in eliciting Galleria immune responses was independent of the ctpAΔ conidial viability, as previously observed for the DHN melanin mutants. Taken together, our findings indicate that both copper homeostasis and developmental regulators control melanin biosynthesis, which affects conidial surface properties that shape the interaction between this pathogen and its host. 相似文献
4.
5.
The fungal‐specific transcription factor Vdpf influences conidia production,melanized microsclerotia formation and pathogenicity in Verticillium dahliae 下载免费PDF全文
Xiumei Luo Hongqiang Mao Yunming Wei Jie Cai Chengjian Xie Anping Sui Xingyong Yang Jinyan Dong 《Molecular Plant Pathology》2016,17(9):1364-1381
6.
7.
Understanding which fungal factors allow colonization and infection of a human host is critical to lowering the incidence
of human mycoses and related mortalities. In the pathogen Aspergillus fumigatus, secondary metabolites, small bioactive molecules produced by many opportunistic fungal pathogens, have important roles in
suppressing and providing protection from host defenses. Deletion of LaeA, a global regulator of secondary metabolism in fungi,
significantly decreases A. fumigatus virulence, in part owing to loss of gliotoxin and hydrophobin production. In addition to gliotoxin, dihydroxynaphthalene
(DHN) melanin and siderophores are other A. fumigatus virulence factors; all three metabolites are derived from hallmark secondary metabolite gene clusters. Many of the gene clusters
producing toxin metabolites have yet to be deciphered, and the study of secondary metabolites and their role in the virulence
of human pathogens is a nascent field. 相似文献
8.
Protein Kinase A Regulates Growth, Sporulation, and Pigment Formation in Aspergillus fumigatus 总被引:2,自引:0,他引:2 下载免费PDF全文
Christina Grosse Thorsten Heinekamp Olaf Kniemeyer Alexander Gehrke Axel A. Brakhage 《Applied microbiology》2008,74(15):4923-4933
Aspergillus fumigatus is an opportunistic human pathogenic fungus causing severe infections in immunocompromised patients. Cyclic AMP (cAMP) signal transduction plays an important role in virulence. A central component of this signaling cascade is protein kinase A (PKA), which regulates cellular processes by phosphorylation of specific target proteins. Here we describe the generation and analysis of A. fumigatus mutants expressing the gene encoding the catalytic subunit of PKA, pkaC1, under control of an inducible promoter. Strains overexpressing pkaC1 showed high PKA activity, reduced growth, sporulation deficiency, and formation of a dark pigment in the mycelium. These data indicate that cAMP-PKA signaling is involved in the regulation of important processes, such as growth, asexual reproduction, and biosynthesis of secondary metabolites. Furthermore, elevated PKA activity led to increased expression of the pksP gene. The polyketide synthase PksP is an essential enzyme for production of dihydroxynaphthalene-melanin in A. fumigatus and contributes to virulence. Our results suggest that increased pksP expression is responsible for pigment formation in the mycelium. Comparative proteome analysis of the pkaC1-overexpressing strain and the wild-type strain led to the identification of proteins regulated by the cAMP-PKA signal transduction pathway. We showed that elevated PKA activity resulted in activation of stress-associated proteins and of enzymes involved in protein biosynthesis and glucose catabolism. In contrast, proteins which were involved in nucleotide and amino acid biosynthesis were downregulated, as were enzymes involved in catabolism of carbon sources other than glucose. 相似文献
9.
10.
11.
12.
The greater wax moth Galleria mellonella has been widely used as
a heterologous host for a number of fungal pathogens including Candida
albicans and Cryptococcus neoformans. A positive
correlation in pathogenicity of these yeasts in this insect model and animal
models has been observed. However, very few studies have evaluated the
possibility of applying this heterologous insect model to investigate virulence
traits of the filamentous fungal pathogen Aspergillus
fumigatus, the leading cause of invasive aspergillosis. Here, we have
examined the impact of mutations in genes involved in melanin biosynthesis on
the pathogenicity of A. fumigatus in the G.
mellonella model. Melanization in A. fumigatus confers
bluish-grey color to conidia and is a known virulence factor in mammal models.
Surprisingly, conidial color mutants in B5233 background that have deletions in
the defined six-gene cluster required for DHN-melanin biosynthesis caused
enhanced insect mortality compared to the parent strain. To further examine and
confirm the relationship between melanization defects and enhanced virulence in
the wax moth model, we performed random insertional mutagenesis in the Af293
genetic background to isolate mutants producing altered conidia colors. Strains
producing conidia of previously identified colors and of novel colors were
isolated. Interestingly, these color mutants displayed a higher level of
pathogenicity in the insect model compared to the wild type. Although some of
the more virulent color mutants showed increased resistance to hydrogen
peroxide, overall phenotypic characterizations including secondary metabolite
production, metalloproteinase activity, and germination rate did not reveal a
general mechanism accountable for the enhanced virulence of these color mutants
observed in the insect model. Our observations indicate instead, that
exacerbated immune response of the wax moth induced by increased exposure of
PAMPs (pathogen-associated molecular patterns) may cause self-damage that
results in increased mortality of larvae infected with the color mutants. The
current study underscores the limitations of using this insect model for
inferring the pathogenic potential of A. fumigatus strains in
mammals, but also points to the importance of understanding the innate immunity
of the insect host in providing insights into the pathogenicity level of
different fungal strains in this model. Additionally, our observations that
melanization defective color mutants demonstrate increased virulence in the
insect wax moth, suggest the potential of using melanization defective mutants
of native insect fungal pathogens in the biological control of insect
populations. 相似文献
13.
14.
15.
Diterpenoid phytoalexin factor,a bHLH transcription factor,plays a central role in the biosynthesis of diterpenoid phytoalexins in rice 下载免费PDF全文
Chihiro Yamamura Emi Mizutani Kazunori Okada Hitoshi Nakagawa Setsuko Fukushima Atsunori Tanaka Satoru Maeda Takashi Kamakura Hisakazu Yamane Hiroshi Takatsuji Masaki Mori 《The Plant journal : for cell and molecular biology》2015,84(6):1100-1113
16.
Georgios Chamilos Tonia Akoumianaki Irene Kyrmizi Axel Brakhage Anne Beauvais Jean-Paul Latge 《Autophagy》2016,12(5):888-889
Intracellular swelling of conidia of the major human airborne fungal pathogen Aspergillus fumigatus results in surface exposure of immunostimulatory pathogen-associated molecular patterns (PAMPs) and triggers activation of a specialized autophagy pathway called LC3-associated phagocytosis (LAP) to promote fungal killing. We have recently discovered that, apart from PAMPs exposure, cell wall melanin removal during germination of A. fumigatus is a prerequisite for activation of LAP. Importantly, melanin promotes fungal pathogenicity via targeting LAP, as a melanin-deficient A. fumigatus mutant restores its virulence upon conditional inactivation of Atg5 in hematopoietic cells of mice. Mechanistically, fungal cell wall melanin selectively excludes the CYBA/p22phox subunit of NADPH oxidase from the phagosome to inhibit LAP, without interfering with signaling regulating cytokine responses. Notably, inhibition of LAP is a general property of melanin pigments, a finding with broad physiological implications. 相似文献
17.
18.