Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance. Genome comparison of CBS7779 black and white strains vs standard strain H99

Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance.

Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance.

Project description:This SuperSeries is composed of the following subset Series: GSE29627: Chromosome copy number variation in Cryptococcus neoformans influences virulence and occurs in isolates from AIDS patients: CBS7779 black and white strains GSE29671: Chromosome copy number variation in Cryptococcus neoformans influences virulence and occurs in isolates from AIDS patients: clinal and environmental strains Refer to individual Series

Project description:Cryptococcus neoformans is a human fungal pathogen responsible for fatal infections, especially in patients with a depressed immune system. Overexposure to antifungal drugs due to prolonged treatment regimens and structure-similar applications in agriculture have weakened the efficacy of current antifungals in the clinic. The rapid evolution of antifungal resistance urges the discovery of new compounds that inhibit fungal virulence factors, rather than directly killing the pathogen as alternative strategies to overcome disease and reduce selective pressure towards resistance. Recent studies, including our own, have highlighted the antimicrobial properties of natural sources, such as invertebrates, against human fungal pathogens, including C. neoformans, through virulence factor impairment. Here, we evaluated the efficacy of freshwater mussel extracts (crude and clarified) against virulence factor production (i.e., thermotolerance, melanin, capsule, and biofilm) in C. neoformans. Similarly, we demonstrated the critical potential of these extracts to increase the susceptibility of the pathogen to fluconazole across resistant strains, overcoming a globally devastating problem. Additionally, we measured the inhibitory activity of the extracts against peptidases related to fungal virulence and drug resistance. Furthermore, we integrated these phenotypic findings with quantitative proteomics profiling to define distinct signatures of each treatment and validated a new mechanism of anti-virulence action for a selected extract. By understanding the mechanisms driving the antifungal activity of mussels, we may develop innovative treatments for fungal infections lacking susceptibility to conventional drugs.

Project description:The “Amoeboid Predator-Fungal Animal Virulence Hypothesis” posits that interactions with environmental phagocytes shape the evolution of virulence traits in fungal pathogens. In this hypothesis, selection to avoid predation by amoeba inadvertently selects for traits that contribute to fungal escape from phagocytic immune cells. Here, we investigate this hypothesis in the human fungalpathogens Cryptococcus neoformans and Cryptococcus deneoformans. Applying quantitative trait locus (QTL) mapping and comparative genomics, we discovered a cross-species QTL region that is responsible for variation in resistance to amoeba predation. In C. neoformans, this same QTL was found to have pleiotropic effects on melanization, an established virulence factor. Through fine mapping and population genomic comparisons, we identified the gene encoding the transcription factor BZP4 that underlies this pleiotropic QTL and we show that decreased expression of this gene reduces melanization and increases susceptibility to amoeba predation. Despite the joint effects of BZP4 on amoeba resistance and melanin production, we find no relationship between BZP4 genotype and escape from macrophages or virulence in murine models of disease. Our findings provide new perspectives on how microbial ecology shapes the genetic architecture of fungal virulence, and suggests the need for more nuanced models for the evolution of pathogenesis that account for the complexities of both microbe-microbe and microbe-host interactions.

Project description:Influence of copy number changes at several chromosomes to melanin production and virulence of Cryptococcus neoformans Black(B4) and white(W2) strains were compared to each other. Black variant from white strain (W2BA1) is also compared to the black strain(B4).

Project description:A family of APSES transcription factor is known to be fungal-specific transcriptional regulators and play important roles in governing growth, differentiation, and virulence of diverse fungal pathogens. Yet none of APSES-like transcription factors have been identified and investigated in a basidiomycetous fungal pathogen, Cryptococcus neoformans. In the present study we discovered an APSES-like transcription factor, mbs1 (Mbp1/Swi4-like APSES protein 1), as one of novel flucytosine-responsive genes (total 194 genes) identified through comparative transcriptome analysis of C. neoformans hybrid sensor kinase mutants, tco1 and tco2 mutants, which displayed differential flucytosine-susceptibility. Supporting the microarray data, Northern blot and quantitative RT-PCR analysis confirmed that expression of mbs1 is rapidly induced in response to flucytosine in the wild-type strain, but not in the tco1 and tco2 mutants. Furthermore, C. neoformans with deletion of the mbs1 gene exhibited increased susceptibility to flucytosine. Intriguingly, mbs1 plays pleiotropic roles in diverse cellular process of C. neoformans. mbs1 positively regulates ergosterol biosynthesis and thereby its inhibition confers increased susceptibility and resistance to amphotericin B and azole drugs, respectively. mbs1 is also involved in DNA damage repair counteracting genotoxic stresses. During sexual differentiation mbs1 represses pheromone production, but promotes cell-cell fusion. Furthermore mbs1 is required for production of antioxidant melanin pigment and full virulence of C. neoformans. Finally we also performed DNA microarrray analysis to identify mbs1-regulated genes in C. neoformans. A majority of them were found to be involved in cell cycle regulation and DNA repair. Therefore, this study provides a novel antifungal therapeutic method for treatment of cryptococcosis. total RNAs are extracted 2 strains from H99 (H99 Wild type strain (Cryptococcus neoformans var. grubii serotype A), mbs1Δ), We use the mixed all of total RNAs from this experiment as a control RNA. We use Cy5 as Sample dye and Cy3 as a control dye.

Project description:Influence of copy number changes at several chromosomes to melanin production and virulence of Cryptococcus neoformans

Project description:Cryptococcus neoformans is a fungal pathogen responsible for an increased mortality among immunocompromised individuals. Long antifungal therapies to treat cryptococcal infections have compounded the occurrence of resistant strains that threaten the efficacy of current treatments. In this senseDue to resistance mechanisms, discovery of compounds that inhibit virulence factors, rather than kill the fungus, have emerged as potential new strategies to combat infection and reduce the rate of resistance due to lower selective pressure. Invertebrates rely solely on an effective innate immune system to prevent infections, provide providing a potential one health approach for discovery of novel antifungal and antibacterial compounds. Here, we demonstrate a differentiated extraction of proteins from three mollusks (freshwater and terrestrial) and evaluate extract their effects against the growth and virulence factor production (thermotolerance, melanin, capsule, and biofilm) in C. neoformans. We show that clarified extracts of Planorbella pilsbryi have a fungicidal effect on cryptococcal cells in a comparable way to Fluconazolefluconazole. Similarly, crude and clarifiedall extracts of Cipangopaludina chinensis not only affects cryptococcal thermotolerance but also impairs biofilm and capsule production. In addition, incubation of C. neoformans with clarified extracts of Cepaea nemoralis extracts reduced capsule production. Using inhibitory activity of extracts against peptidases related with virulence factors and Quantitative quantitative proteomics arose distinct proteome signatures for each extract and proposed proteins driving the observed anti-virulence properties. Overall, this work demonstratesproves the potential of compounds derived from natural sources to inhibit virulence factor production in a clinically important fungal pathogen.