Diversity among strains of Cryptococcus neoformans var. gattii as revealed by a sequence analysis of multiple genes and a chemotype analysis of capsular polysaccharide.

We demonstrated the diversity of Cryptococcus neoformans var. gattii strains by a sequence analysis of multiple genes: (i) the intergenic spacer (IGS) 1 and 2 regions of the rRNA gene; (ii) the internal transcribed spacer (ITS) region, including 5.8S of the rRNA gene; (iii) TOP1 (topoisomerase); and (iv) CAP59. In these studies, we compared C. neoformans var. gattii with varieties grubii, and neoformans of C. neoformans. Phylogenetic analysis indicated that both C. neoformans var. grubii and C neoformans var. neoformans are monophyletic, but C. neoformans var. gattii showed polyphyletic. C. neoformans var. gattii can be divided into three phylogenetic groups, I, II, and III, with high bootstrap support. Phylogenetic group I contains serotype B and C strains, and groups II and III include serotype B strains. Because the serotype B strains of C. neoformans var. gattii exhibited more genetic divergence, the serological characteristics and chemotypes of their capsular polysaccharide were further investigated. No remarkable difference among the serotype B strains was found in the reactivities to factor serum 5, which is specific for serotype B. The NMR spectra of the capsular polysaccharide from serotype B strains could be divided into three characteristic patterns, but the chemical shifts were very similar. These results suggested that the serotype B strain of C. neoformans var. gattii has more genetic diversity than the serotype C strain of C. neoformans var. gattii or the varieties grubii and neoformans of C. neoformans, but there was no correlation between genotype and chemotype.     

High frequency transformation of Cryptococcus neoformans and Cryptococcus gattii by Agrobacterium tumefaciens

Cryptococcus neoformans and Cryptococcus gattii are the caus-ative agents of cryptococcal meningoencephalitis and are amenable to genetic manipulations, making them important models of pathogenic fungi. To improve the efficiency of Agrobacterium tumefaciens mediated transformation (ATMT) in C. neoformans, we optimized various co-cultivation conditions including incubation time and temperature, and bacteria to yeast ratio. ATMT was also applied to both serotypes (B and C) of C. gattii. Transformation efficiency by ATMT in C. neoformans was comparable to either electroporation or biolistic transformation and gave superior efficiencies in serotypes B and C, but unlike Saccharomyces cerevisiae, adenine auxotrophy did not increase ATMT efficiency in C. neoformans or C. gattii. All transformants tested were stable, with a majority containing only a single T-DNA insertion; however, homologous recombination was not observed. Additionally, we isolated adenine auxotrophs containing a single T-DNA insertion in the ADE2 gene for representative serotype B and C strains.     

Intra-abdominal Cryptococcosis by Cryptococcus gattii: Case Report and Review

Although abdominal cryptococcomas and visceral cryptococcal lymphadenitis as part of disseminated fungal infection have been reported mostly in HIV-infected patients, localized intra-abdominal involvement due to Cryptococcus gattii has not been previously described in non-HIV-infected patients. In general, a smaller proportion of cryptococcosis is caused by C. gattii. We report here on a type II diabetic HIV-negative patient who presented with a localized intra-abdominal cryptococcal mass due to C. gattii. In addition, we review the general aspects of intra-abdominal and gastrointestinal involvement by Cryptococcus neoformans in the literature and discuss the importance of identifying the C. neoformans varieties and C. gattii in routine laboratories.     

Cryptococcus neoformans mates on pigeon guano: implications for the realized ecological niche and globalization

The ecological niche that a species can occupy is determined by its resource requirements and the physical conditions necessary for survival. The niche to which an organism is most highly adapted is the realized niche, whereas the complete range of habitats that an organism can occupy represents the fundamental niche. The growth and development of Cryptococcus neoformans and Cryptococcus gattii on pigeon guano were examined to determine whether these two species occupy the same or different ecological niches. C. neoformans is a cosmopolitan pathogenic yeast that infects predominantly immunocompromised individuals, exists in two varieties (grubii [serotype A] and neoformans [serotype D]), and is commonly isolated from pigeon guano worldwide. By contrast, C. gattii often infects immunocompetent individuals and is associated with geographically restricted environments, most notably, eucalyptus trees. Pigeon guano supported the growth of both species, and a brown pigment related to melanin, a key virulence factor, was produced. C. neoformans exhibited prolific mating on pigeon guano, whereas C. gattii did not. The observations that C. neoformans completes the life cycle on pigeon guano but that C. gattii does not indicates that pigeon guano could represent the realized ecological niche for C. neoformans. Because C. gattii grows on pigeon guano but cannot sexually reproduce, pigeon guano represents a fundamental but not a realized niche for C. gattii. Based on these studies, we hypothesize that an ancestral Cryptococcus strain gained the ability to sexually reproduce in pigeon guano and then swept the globe.     

Cryptococcal phospholipase B antigen is not detected in serum of patients infected with Cryptococcus neoformans using a sandwich enzyme-linked immunosorbent assay

Extracellular phospholipase B (PLB) is a virulence determinant of Cryptococcus neoformans and Cryptococcus gattii. In this study, we developed a sensitive enzyme-linked immunosorbent assay (ELISA) for PLB antigen with a detection limit of 3.9 ng mL(-1). PLB was detected in culture supernatants of C. neoformans and C. gattii. PLB, however, was not detected in sera of seven human patients and 10 feline patients with active cryptococcosis. Furthermore, none of five rats with extensive pulmonary C. gattii infection had a positive ELISA test result. In conclusion, cryptococcal PLB could not be detected in serum using a PLB antigen-based ELISA. Despite its sensitivity, this ELISA is of limited diagnostic value. Exploration of further extracellular molecules suitable for serodiagnosis of active cryptococcal infection is warranted.     

Laccase activity in Cryptococcus gattii strains isolated from goats

Cryptococcosis is a life-threatening infection in humans and animals caused by encapsulated yeasts of the genus Cryptococcus. Cryptococcus neoformans and Cryptococcus gattii are the main agents of this mycosis. Until 2002 C. gattii was classified as a variety of C. neoformans but now is accepted as an independent species. The laccase (phenoloxydase) enzyme produced by these yeasts is considered one of the main pathogenic factors for its ability to induce melanin from dihydroxyphenolic compounds. The vast majority of the studies in laccase and melanin synthesis have been developed using isolates of C. neoformans. The main objective of this study was to evaluate laccase activity in strains of C. gattii, serotype B isolated from immunocompetent goats that died of lung and disseminated cryptococcosis, in several outbreaks occurring in Spain. The laccase activities of these isolates were compared with those of other strains of C. gattii and C. neoformans. After fungal cell rupture, the supernatant of each isolate was analyzed for its laccase activity using as substrate an L-dopa 20 mM solution. The degree of enzymatic activity was assessed according to its absorbance at 450 nm and scored using Enzymatic Units (EU). The maximum values were observed in three strains of C. gattii from goats (EU > 12). The smallest values were observed in one environmental isolate of C. gattii serotype C (EU = 0.7). The highest recorded value for C. neoformans was 6.3 EU in a serotype A isolate from one human case of meningitis. C. gattii serotype B obtained from goats showed different degrees of laccase activity, being the highest in those isolated from severe outbreaks of cryptococcosis. This enzyme appears to represent a major, though nonexclusive, pathogenic factor for Cryptococcus gattii.     

我国新生隐球菌临床株基因型分析

为了解中国大陆地区新生隐球菌临床株基因型分布情况, 我们对来自我国中东部地区的18个省、直辖市的120株血清A型和9株血清B型新生隐球菌临床株采用PCR指纹分析、IGS序列测定和MLST(Multilocus sequencing test)方法进行分析。结果显示血清A型菌株的M13指纹图谱中主要条带与VNI型标准株相同, 但次要条带与VNI现有各亚型均不相符, 我们将这种新VNI亚型命名为VNIc型, 但VNIc型并不只分布在中国大陆, MLST分析显示中国大陆地区的VNIc型菌株同来自美国、日本、马拉维和巴西的7株菌株亲缘关系高达75, 提示VNIc型可能是一种世界范围内分布的基因型; 对血清A型菌株采用(GACA)4和URA-5 RFLP指纹分析则呈现与VNI标准株完全一致的主次条带; 9株血清B型菌株基因型为VGI型。本研究初步揭示了我国大陆地区新生隐球菌临床株的基因型分布。     

Identification of Novel Hybrids Between Cryptococcus neoformans var. grubii VNI and Cryptococcus gattii VGII

Cryptococcus neoformans and Cryptococcus gattii are pathogenic yeasts causing meningoencephalitis in immunocompromised and immunocompetent hosts. The fungus is typically haploid, and sexual reproduction occurs normally between individuals with opposite mating types, α and a. C. neoformans var. grubii (serotype A) is comprised of molecular types VNI, VNII, and VNB, and C. neoformans var. neoformans (serotype D) contains the molecular type VNIV. Additionally, diploid or aneuploid AD hybrids (VNIII) have been reported. C. gattii contains the molecular types VGI, VGII, VGIII, and VGIV, which encompass both serotypes B and C. To identify possible hybrid strains, URA5-RFLP analysis was performed on 350 globally obtained clinical, environmental, and veterinary isolates. Four clinical isolates from cerebrospinal fluid showed combination patterns of C. neoformans var. grubii and C. gattii: Brazil (n = 2), Colombia (n = 1), and India (n = 1). These strains were monokaryotic and diploid or aneuploid. M13 PCR fingerprinting showed that they contained fragments of both proposed parental groups. Luminex IGS genotyping identified these isolates as hybrids with two different molecular type combinations: three VNI/VGII and one VNI/VGI. Blue color development on CGB agar was delayed in three isolates and absent in one. C. gattii-specific PCR confirmed the presence of C. gattii in the hybrids. CAP59 allele-specific PCR revealed that all the hybrids contained both serotype A and B alleles. Determination of mating-type allelic patterns by PCR revealed that the isolates were αA aB. This is the first study discovering novel natural hybrids between C. neoformans molecular type VNI and C. gattii molecular type VGII.     

Diversity of laccase among Cryptococcus neoformans serotypes

The pathogenic yeast C. neoformans is classified into three varieties with five serotypes; var. grubii (serotype A), var. neoformans (serotype D), var. gattii (serotypes B and C), and serotype AD. Melanin is a virulence factor in the species, and its biosynthesis is catalyzed by laccase, encoded by the LAC1 gene. In order to estimate the natural variability of the LAC1 gene among Cryptococcus serotypes, the laccase protein sequence from 55 strains was determined and the phylogenetic relationships between cryptococcal and related fungal laccases revealed. The deduced laccase proteins consisted of 624 amino acid residues in serotypes A, D and AD, and 613 to 615 residues in serotypes B and C. Intra-serotype amino acid variation was marginal within serotypes A and D, and none was found within serotypes AD and C. Maximum amino acid replacement occurred in two serotype B strains. The similarity in the deduced sequence ranged from 80 to 96% between serotypes. The sequence in the copper-binding regions was strongly conserved in the five serotypes. The laccases of the five serotypes were grouped together in the same clade of the phylogenetic tree reconstructed from different fungal laccases, suggesting a monophyletic clade.     

Identification of virulence mutants of the fungal pathogen Cryptococcus neoformans using signature-tagged mutagenesis

Cryptococcus neoformans var. neoformans is an important opportunistic fungal pathogen of patients whose immune system has been compromised due to viral infection, antineoplastic chemotherapy, or tissue transplantation. As many as 13% of all AIDS patients suffer a life-threatening cryptococcal infection at some time during the course of their HIV disease. To begin to understand the molecular basis for virulence in Cryptococcus neoformans var. neoformans serotype A, we have employed signature-tagged mutagenesis (STM) to identify mutants with altered virulence in a mouse model. The critical parameters of signature-tagged mutagenesis in C. neoformans are explored. Data are presented showing that at least 100 different strains can be mixed together in a single animal with each participating in the infection and that there is no apparent interaction between a virulent strain and an avirulent strain in our animal model. Using signature-tagged mutagenesis, we identified 39 mutants with significantly altered growth in a competitive assay. Molecular analyses of these mutants indicated that 19 (49%) contained an insertion in the actin promoter by homologous recombination from a single crossover event, creating a duplication of the actin promoter and the integration of single or multiple copies of the vector. Analysis of the chromosomal insertion sites of those mutants that did not have an integration event in the actin promoter revealed an approximately random distribution among the chromosomes. Individual challenge of the putative mutants in a mouse model revealed five hypovirulent mutants and one hypervirulent mutant.     

Urease activity in Cryptococcus neoformans and Cryptococcus gattii

Urease is an enzyme considered one of the main virulence factors in Cryptococcus neoformans. Quantitative differences in urease production between C. neoformans and the new species Cryptococcus gattii have not been so far documented. Using a standardized method, 25 isolates of C. neoformans and 19 of C. gattii were seeded in Christensen urea broth medium for urease activity detection. Approximately, the 50% of activity of one unit of commercial jack beans urease (A550=0.215) was considered as a reference to classified the Cryptococcus in two cathegories, low (A550<0.215) or high (A550=or>0.215) urease producers. After 72 hours of incubation, 76% of C. neoformans and 15.8% of C. gattii strains were high urease producers (p=0.016). Based on these results, the species C. neoformans appeared as the highest urease producer. Other virulence factors should also be investigated to explain C. gattii pathogenicity.     

Cryptococcus neoformans var. gattii isolates from two Peruvian patients.

The ecology of Cryptococcus neoformans var. gatti is restricted to tropical and subtropical areas whereas C. neoformans var. neoformans is cosmopolitan. Perú is a country with three different well defined geographic areas, some of them have the conditions for the presence of the variety gattii. In order to determine the presence of the two varieties of C. neoformans in Perú, we made the C. neoformans differentiation from the clinical isolates. C. neoformans var. gattii was identified by their ability to assimilate D-proline. We tested 68 strains; only two of them were recognized as the variety gattii and were recovered from two patients without any predisposing factor. We described the clinical spectrum of these two patients, who were diagnosed with disseminated cryptococcosis and cryptococcal meningitis. Neither the presence of Eucalyptus camaldulensis nor Eucalyptus tereticornis has been reported in Perú. So there should exist other ecologic niches for the presence of C. neoformans var. gattii in our country, different from those mentioned.     

Molecular analysis of the Cryptococcus neoformans ADE2 gene, a selectable marker for transformation and gene disruption.

Cryptococcus neoformans is an important fungal pathogen of man. The incidence of cryptococcal disease has increased dramatically in patients immunocompromised because of HIV infection, organ transplantation, or treatment with cytotoxic chemotherapy or corticosteroids. This organism is an excellent model for molecular dissection of fungal pathogenesis and virulence factors. Here we report the nucleotide sequence of the C. neoformans serotype D genomic ADE2 gene, which encodes a phosphoribosylaminoimidazole carboxylase required for purine biosynthesis. Importantly, this version of the ADE2 gene has been used as the selectable marker for virtually all gene disruptions by transformation and homologous recombination in C. neoformans. We compare the nucleotide and amino acid sequences of the ADE2 gene and product to other highly related adenine biosynthetic genes and enzymes from other yeasts and fungi. We also describe a series of convenient ADE2 cassettes for gene disruption construct preparation. Finally, we have identified the ade2 mutations in strains M001 and M049, adenine auxotrophic mutants derived from the serotype A strain H99. These mutant strains have served as recipients for targeted gene disruptions using the ADE2 gene. These studies should facilitate transformation and gene disruption approaches using the ADE2 selectable marker in this important human fungal pathogen.     

Divergence of protein kinase A catalytic subunits in Cryptococcus neoformans and Cryptococcus gattii illustrates evolutionary reconfiguration of a signaling cascade

Gene duplication and divergence via both the loss and gain of gene activities are powerful evolutionary forces underlying the origin of new biological functions. Here a comparative genetics approach was applied to examine the roles of protein kinase A (PKA) catalytic subunits in three closely related varieties or sibling species of the pathogenic fungus genus Cryptococcus. Previous studies revealed that two PKA catalytic subunits, Pka1 and Pka2, control virulence factor production and mating. However, only one of the two plays the predominant physiological role, and this function has been exchanged between Pka1 and Pka2 in strains of the Cryptococcus neoformans var. grubii serotype A lineage compared to divergent C. neoformans var. neoformans serotype D isolates. To understand the basis for this functional plasticity, here the activities of Pka1 and Pka2 were defined in the two varieties and the related sibling species Cryptococcus gattii by gene disruption and characterization, heterologous complementation, and analysis of serotype AD hybrid mutant strains. The findings provide evidence for a shared ancestral role of PKA in governing mating and virulence factor production and indicate that the exchange of catalytic subunit roles is attributable to loss of function. Our studies illustrate the plasticity of signaling networks enabling rapid rewiring during speciation of a clade of common human fungal pathogens.     

The ABC transporter-encoding gene AFR1 affects the resistance of Cryptococcus neoformans to microglia-mediated antifungal activity by delaying phagosomal maturation

The pathogenic yeast Cryptococcus neoformans has evolved several strategies to survive within phagocytes. Recently, it has been demonstrated that upregulation of the ATP binding cassette transporter-encoding gene antifungal resistance 1 ( AFR1 ) is important not only for determining the resistance of C. neoformans to fluconazole but also in influencing fungal virulence. In the present study, we showed that the fluconazole-resistant AFR1- overexpressing mutant strain was not sensitive to microglia-mediated anticryptococcal activity, as compared with the fluconazole-susceptible isogenic strains, the wild type and the afr1 Δ mutant. Interestingly, although the three strains were phagocytosed to a similar extent, reduced acidification and delayed maturation were observed in phagosomes containing the AFR1 -overexpressing strain with respect to the others. These findings provide the first evidence that upregulation of the AFR1 gene affects C. neoformans –microglia interplay, adding insights to the complexity of cryptococcal virulence and to its unexpected link with azole resistance.     

Application of proton nuclear magnetic resonance spectroscopy to the study of Cryptococcus and cryptococcosis

Proton nuclear magnetic resonance spectroscopy is a nondestructive technique that identifies chemicals in solution and in living cells. It has been used in cryptococcal research to identify the primary structure of capsular glucuronoxylomannans, link cellular apoptosis susceptibility (CAS) genes to positioning of residues on the mannose backbone of glucuronoxylomannan, and verify that the cryptococcal virulence determinant, phospholipase B, is elaborated in vivo. Promising clinical applications include speciation (Cryptococcus neoformans and Cryptococcus gattii), with preliminary evidence that varieties neoformans and grubii can also be distinguished, non-invasive diagnosis of cerebral cryptococcomas, and, in cases of meningitis, monitoring therapeutic response by analysis of cerebrospinal fluid.     

Unique hybrids between the fungal pathogens Cryptococcus neoformans and Cryptococcus gattii

Cryptococcus neoformans and Cryptococcus gattii are yeasts that cause meningoencephalitis, but that differ in host range and geographical distribution. Cryptococcus neoformans occurs world-wide and mostly infects immunocompromised patients, whereas C. gattii occurs mainly in (sub)tropical regions and infects healthy individuals. Anomalous C. neoformans strains were isolated from patients. These strains were found to be monokaryotic, and diploid or aneuploid. Amplified Fragment Length Polymorphism (AFLP) and sequence analyses indicated that AFLP genotypes 2 (C. neoformans) and 4 (C. gattii) were present. The strains were serologically BD. Mating- and serotype-specific PCR reactions showed that the strains were MATa-serotype D/MATalpha-serotype B. This study is the first to describe naturally occurring hybrids between C. neoformans and C. gattii.     

Extracellular phospholipase activity is a virulence factor for Cryptococcus neoformans

The human pathogenic fungus Cryptococcus neoformans secretes a phospholipase enzyme that demonstrates phospholipase B (PLB), lysophospholipase hydrolase and lysophospholipase transacylase activities. This enzyme has been postulated to be a cryptococcal virulence factor. We cloned a phospholipase-encoding gene (PLB1) from C. neoformans and constructed plb1 mutants using targeted gene disruption. All three enzyme activities were markedly reduced in the mutants compared with the wild-type parent. The plb1 strains did not have any defects in the known cryptococcal virulence phenotypes of growth at 37 degrees C, capsule formation, laccase activity and urease activity. The plb1 strains were reconstituted using the wild-type locus and this resulted in restoration of all extracellular PLB activities. In vivo testing demonstrated that the plb1 strain was significantly less virulent than the control strains in both the mouse inhalational model and the rabbit meningitis model. We also found that the plb1 strain exhibited a growth defect in a macrophage-like cell line. These data demonstrate that secretory phospholipase is a virulence factor for C. neoformans.     

Phenotypic Switching of <Emphasis Type="Italic">Cryptococcus neoformans</Emphasis> and <Emphasis Type="Italic">Cryptococcus</Emphasis><Emphasis Type="Italic">gattii</Emphasis>

Microorganisms that live in fluctuating environments must constantly adapt their behavior to survive. The host constitutes an important microenvironment in opportunistic and primary fungal pathogens like Cryptococcus neoformans (C. neoformans) and Cryptococcus gattii (C. gattii). In clonal populations, adaptation may be achieved through the generation of diversity. For fungi phenotype switching constitutes a mechanism that allows them to change rapidly. Both C. neoformans and C. gattii undergo phenotypic switching, which allows them to be successful pathogens and cause persistent disease. Similar to other encapsulated microbes that exhibit phenotypic variation, phenotypic switching in Cryptococcus changes the polysaccharide capsule. Most importantly, in animal models phenotypic switching affects virulence and can change the outcome of infection. Virulence changes because C. neoformans and C. gattii switch variants elicit different inflammatory responses in the host. This altered host response can also affect the response to antifungal therapy and in some cases may even promote the selection of switch variants. This review highlights the similarity and differences between phenotypic switching in C. neoformans and C. gattii, the two dominant species that cause cryptococcosis in humans.