Chen Ding scite author profile

Summary Copper (Cu) is an essential metal that is toxic at high concentrations. Thus, pathogens often rely on host Cu for growth, but host cells can hyper-accumulate Cu to exert anti-microbial effects. The human fungal pathogen Cryptococcus neoformans encodes various Cu-responsive genes but their role in infection is unclear. We determine that pulmonary C. neoformans infection results in Cu-specific induction of genes encoding the Cu-detoxifying metallothionein (Cmt) proteins. Mutant strains lacking CMTs or expressing Cmt variants defective in Cu-coordination exhibit severely attenuated virulence and reduced pulmonary colonization. Consistent with the up-regulation of Cmt proteins, C. neoformans pulmonary infection results in increased serum Cu concentrations and respectively increases and decreases alveolar macrophage expression of the Cu importer, Ctr1, and ATP7A, a transporter implicated in phagosomal Cu compartmentalization. These studies indicate that the host mobilizes Cu as an innate anti-fungal defense but that C. neoformans senses and neutralizes toxic Cu to promote infection.

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Copper in Microbial Pathogenesis: Meddling with the Metal

Samanovic

Ding

Thiele

et al. 2012

Cell Host & Microbe

238

190

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Transition metals such as iron, zinc, copper and manganese are essential for the growth and development of organisms ranging from bacteria to mammals. Numerous studies have focused on the impact of iron availability during bacterial and fungal infections, and increasing evidence suggests that copper is also involved in microbial pathogenesis. Not only is copper an essential co-factor for specific microbial enzymes, but several recent studies also strongly suggest that copper is used to restrict pathogen growth in vivo. Here, we review evidence that animals use copper as an anti-microbial weapon and, in turn, microbes have developed mechanisms to counteract the toxic effects of copper.

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The copper regulon of the human fungal pathogen Cryptococcus neoformans H99

Ding

Yin

Tovar

et al. 2011

Molecular Microbiology

100

184

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Summary Cryptococcus neoformans is a human fungal pathogen that is the causative agent of cryptococcosis and fatal meningitis in immuno-compromised hosts. Recent studies suggest that copper (Cu) acquisition plays an important role in C. neoformans virulence, as mutants that lack Cuf1, which activates the Ctr4 high affinity Cu importer, are hypo-virulent in mouse models. To understand the constellation of Cu-responsive genes in C. neoformans and how their expression might contribute to virulence, we determined the transcript profile of C. neoformans in response to elevated Cu or Cu deficiency. We identified two metallothionein genes (CMT1 and CMT2), encoding cysteine-rich Cu binding and detoxifying proteins, whose expression is dramatically elevated in response to excess Cu. We identified a new C. neoformans Cu transporter, CnCtr1, that is induced by Cu deficiency and is distinct from CnCtr4 and which shows significant phylogenetic relationship to Ctr1 from other fungi. Surprisingly, in contrast to other fungal, we found that induction of CnCTR1 and CnCTR4 expression under Cu limitation, and CMT1 and CMT2 in response to Cu excess, are dependent on the CnCuf1 Cu metalloregulatory transcription factor. These studies set the stage for the evaluation of the specific Cuf1 target genes required for virulence in C. neoformans.

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Development of a Gene Knockout System in Candida parapsilosis Reveals a Conserved Role for BCR1 in Biofilm Formation

2007

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Candida parapsilosis is an important cause of candidiasis, yet few molecular tools are available. We adapted a recyclable nourseothricin resistance marker gene (SAT1) originally developed for use with C. albicans in order to generate gene knockouts from C. parapsilosis. We first replaced the promoters driving expression of the FLP recombinase and the SAT1 genes with the equivalent sequences from C. parapsilosis. We then used the cassette to generate a homozygous knockout of C. parapsilosis URA3. The ura3 knockouts have altered colony morphologies. We also knocked out both alleles of an ortholog of BCR1, a gene encoding a transcription factor known to be required for biofilm development in C. albicans. We show that C. parapsilosis BCR1 is necessary for biofilm development in C. parapsilosis and for expression of the cell wall protein encoded by RBT1. Our results suggest that there are significant similarities in the regulation of biofilms between the two species, despite the fact that C. parapsilosis does not generate true hyphae and that BCR1 regulates the expression of many hypha-specific adhesins in C. albicans.

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Reciprocal functions of Cryptococcus neoformans copper homeostasis machinery during pulmonary infection and meningoencephalitis

et al. 2014

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Chen Ding

Cryptococcus neoformans Copper Detoxification Machinery Is Critical for Fungal Virulence

Copper in Microbial Pathogenesis: Meddling with the Metal

The copper regulon of the human fungal pathogen Cryptococcus neoformans H99

Development of a Gene Knockout System in Candida parapsilosis Reveals a Conserved Role for BCR1 in Biofilm Formation

Reciprocal functions of Cryptococcus neoformans copper homeostasis machinery during pulmonary infection and meningoencephalitis

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