Evolution of mating within the Candida parapsilosis species group

Candida orthopsilosis and Candida metapsilosis are closely related to Candida parapsilosis, a major cause of infection in premature neonates. Mating has not been observed in these species. We show that ～190 isolates of C. parapsilosis contain only an MTLa idiomorph at the mating-type-like locus. Here, we describe the isolation and characterization of the MTL loci from C. orthopsilosis and C. metapsilosis. Among 16 C. orthopsilosis isolates, 9 were homozygous for MTLa, 5 were homozygous for MTLα, and 2 were MTLa/α heterozygotes. The C. orthopsilosis isolates belonged to two divergent groups, as characterized by restriction patterns at MTL, which probably represent subspecies. We sequenced both idiomorphs from each group and showed that they are 95% identical and that the regulatory genes are intact. In contrast, 18 isolates of C. metapsilosis contain only MTLα idiomorphs. Our results suggest that the role of MTL in determining cell type is being eroded in the C. parapsilosis species complex. The population structure of C. orthopsilosis indicates that mating may occur. However, expression of genes in the mating signal transduction pathway does not respond to exposure to alpha factor. C. parapsilosis is also nonresponsive, even when the GTPase-activating protein gene SST2 is deleted. In addition, splicing of introns in MTLa1 and MTLa2 is defective in C. orthopsilosis. Mating is not detected. The alpha factor peptide, which is the same sequence in C. parapsilosis, C. orthopsilosis, and C. metapsilosis, can induce a mating response in Candida albicans. It is therefore likely either that mating of C. orthopsilosis takes place under certain unidentified conditions or that the mating pathway has been adapted for other functions, such as cross-species communication.     

Mitochondrial genome variability within the Candida parapsilosis species complex

Candida parapsilosis species complex includes three closely related species, namely C. parapsilosis (sensu stricto), C. orthopsilosis, and C. metapsilosis. Unlike most other yeast lineages, members of this species complex possess a linear mitochondrial genome. Yet, its circularized mutant form was identified in strains of C. orthopsilosis and C. metapsilosis. To investigate the underlying variability, we performed comparative analyses of the complete mitochondrial DNA sequences in a collection of strains. Our results demonstrate that in contrast to C. parapsilosis and C. metapsilosis, C. orthopsilosis exhibits remarkably high nucleotide diversity whose pattern is consistent with intraspecific genetic exchange.     

Virulence of Candida parapsilosis, Candida orthopsilosis, and Candida metapsilosis in reconstituted human tissue models

Candida parapsilosis is an increasingly important human pathogen. To study the interactions of C. parapsilosis with human tissues, we evaluated the effects of the CBS 604 type strain and three different clinical isolates on reconstituted human oral epithelial and epidermal tissues. The newly described species Candida orthopsilosis and Candida metapsilosis were also examined in these models. Microscopy of reconstituted tissues infected with yeast cells revealed severe attenuation, morphological changes and cellular damage. C. orthopsilosis caused damage similar to C. parapsilosis isolates, whereas C. metapsilosis was less virulent. To further quantitate tissue damage, we measured lactate dehydrogenase (LDH) in the culture supernatant. The relative LDH measurements correlated with our histopathological observations. We also examined the effect of the lipase inhibitor Ebelactone B and proteinase inhibitor Pepstatin A, to establish the utility of this model for studying factors of C. parapsilosis virulence. Both Ebelactone B and Pepstatin A reduced the destruction of epidermal and epithelial tissues. Our data show that reconstituted human tissues are extremely useful for modeling host interactions with C. parapsilosis and for studying fungal virulence factors.     

Candida parapsilosis complex water isolates from a haemodialysis unit: biofilm production and in vitro evaluation of the use of clinical antifungals

Candida parapsilosis, currently divided into three distinct species, proliferates in glucose-rich solutions and has been associated with infections resulting from the use of medical devices made of plastic, an environment common in dialysis centres. The aims of this study were (i) to screen for Candida orthopsilosis and Candida metapsilosis (100 environmental isolates previously identified as C. parapsilosis), (ii) to test the ability of these isolates to form biofilm and (iii) to investigate the in vitro susceptibility of Candida spp biofilms to the antifungal agents, fluconazole (FLC) and amphotericin B (AMB). Isolates were obtained from a hydraulic circuit collected from a haemodialysis unit. Based on molecular criteria, 47 strains were re-identified as C. orthopsilosis and 53 as C. parapsilosis. Analyses using a formazan salt reduction assay and total viable count, together with microscopy studies, revealed that 72 strains were able to form biofilm that was structurally similar, but with minor differences in morphology. A microtitre-based colorimetric assay used to test the susceptibility of fungal biofilms to AMB and FLC demonstrated that the C. parapsilosis complex displayed an increased resistance to these antifungal agents. The results from these analyses may provide a basis for implementing quality controls and monitoring to ensure the microbiological purity of dialysis water, including the presence of yeast.     

Candida hyderabadensis sp. nov., a novel ascomycetous yeast isolated from wine grapes

Three ascomycetous yeast strains were isolated from decaying green wine grapes, collected from Hyderabad city in India. Two strains, YS9 and YS21, were identified as Kodamaea ohmeri and Candida fermentati, respectively. The third strain, YS12(T), differs from Candida parapsilosis, Candida orthopsilosis and Candida metapsilosis, the nearest phylogenetic neighbours, by 1.6-1.9% with respect to the nucleotide sequence of the D1/D2 domain of the 26S rRNA gene and by 1.4-9.2% with respect to the nucleotide sequence of the internal transcribed spacer 1 (ITS1)-5.8S rRNA gene-ITS2 region. YS12(T) also differs from C. parapsilosis, C. metapsilosis and C. orthopsilosis by some phenotypic characteristics. Thus, based on the phenotypic differences and phylogenetic analysis, strain YS12(T) is assigned the status of a new species of Candida, for which the name C. hyderabadensis sp. nov. is proposed. The type strain is YS12(T) (NRRL Y-27953(T)=CBS10444(T)=IAM15334(T)).     

Comparison of In Vitro and Vivo Efficacy of Caspofungin Against Candida parapsilosis, C. orthopsilosis, C. metapsilosis and C. albicans

Caspofungin activity was determined in vitro and in vivo against three Candida orthopsilosis, three C. metapsilosis, two C. parapsilosis sensu stricto and two C. albicans isolates. MIC values and killing activity were determined in RPMI-1640 plus 50?% human serum. Neutropenic (cyclophosphamide-treated) mice were infected intravenously. Five-day intraperitoneal treatment with caspofungin was started after 24?h postinfection. Kidney burden was analyzed using the Kruskal-Wallis test with Dunn's post-test. In killing studies, caspofungin was fungistatic and fungicidal against C. albicans at ≥0.25 and ≥2?μg/ml concentrations, respectively. Caspofungin was fungistatic at ≥8-16, ≥2-8 and at ≥2-8?μg/ml against C. parapsilosis, C. orthopsilosis and C. metapsilosis, respectively. In the murine model, C. albicans was inhibited by 1, 2 and 5 mg/kg of caspofungin (P?相似文献   

Identification and characterization of MFA1, the gene encoding Candida albicans a-factor pheromone

In the opaque state, MTLa and MTLalpha strains of Candida albicans are able to mate, and this mating is directed by a pheromone-mediated signaling process. We have used comparisons of genome sequences to identify a C. albicans gene encoding a candidate a-specific mating factor. This gene is conserved in Candida dubliniensis and is similar to a three-gene family in the related fungus Candida parapsilosis but has extremely limited similarity to the Saccharomyces cerevisiae MFA1 (ScMFA1) and ScMFA2 genes. All these genes encode C-terminal CAAX box motifs characteristic of prenylated proteins. The C. albicans gene, designated CaMFA1, is found on chromosome 2 between ORF19.2165 and ORF19.2219. MFA1 encodes an open reading frame of 42 amino acids that is predicted to be processed to a 14-amino-acid prenylated mature pheromone. Microarray analysis shows that MFA1 is poorly expressed in opaque MTLa cells but is induced when the cells are treated with alpha-factor. Disruption of this C. albicans gene blocks the mating of MTLa cells but not MTLalpha cells, while the reintegration of the gene suppresses this cell-type-specific mating defect.     

A genome sequence survey shows that the pathogenic yeast Candida parapsilosis has a defective MTLa1 allele at its mating type locus

Candida parapsilosis is responsible for ca. 15% of Candida infections and is of particular concern in neonates and surgical intensive care patients. The related species Candida albicans has recently been shown to possess a functional mating pathway. To analyze the analogous pathway in C. parapsilosis, we carried out a genome sequence survey of the type strain. We identified ca. 3,900 genes, with an average amino acid identity of 59% with C. albicans. Of these, 23 are predicted to be predominantly involved in mating. We identified a genomic locus homologous to the MTLa mating type locus of C. albicans, but the C. parapsilosis type strain has at least two internal stop codons in the MTLa1 open reading frame, and two predicted introns are not spliced. These stop codons were present in MTLa1 of all eight C. parapsilosis isolates tested. Furthermore, we found that all isolates of C. parapsilosis tested appear to contain only the MTLa idiomorph at the presumptive mating locus, unlike C. albicans and C. dubliniensis. MTLalpha sequences are present but at a different chromosomal location. It is therefore likely that all (or at least the majority) of C. parapsilosis isolates have a mating pathway that is either defective or substantially different from that of C. albicans.     

Mechanisms of host defense against Candida species. II. Biochemical basis for the killing of Candida by mononuclear phagocytes.

We studied the biochemical basis of candidacidal activity by comparing the killing of Candida albicans, a serious pathogen, and Candida parapsilosis, a low-grade pathogen, by human monocytes (Mo) and monocyte-derived macrophages. Mo killed C. parapsilosis significantly better than C. albicans. The two species triggered the respiratory burst and release of myeloperoxidase (MPO) and beta-glucuronidase in Mo to an equivalent extent. In contrast to Mo, macrophages killed both species to an equivalent extent. Mo exhibited a greater candida-stimulated respiratory burst than did monocyte-derived macrophages, and the respiratory burst was required for the killing of both species. C. parapsilosis was killed much more easily than C. albicans by exposure to low concentrations of hypochlorite or monochloramine, MPO-dependent oxidants released by Mo but not macrophages, which lack MPO. With six different Candida strains there was a significant correlation between killing by Mo and susceptibility to hypochlorite (r = 0.926) or monochloramine (r = 0.981) (p less than 0.01 for each). Species differences in resistance to killing by Mo may be related to differences in sensitivity to MPO-derived oxidants, and the ability of C. albicans to resist the effects of these oxidants may be a virulence factor associated with this species.     

Yeasts isolated from plant-associated beetles and other insects: seven novel Candida species near Candida albicans

Yeasts related to Candida albicans were isolated from the digestive tracts of beetles in eight families and various orders of insects such as earwigs, crickets, and roaches, most of which were caught at light traps or in a few cases directly from plant materials. Based on comparisons of DNA sequences and other taxonomic characteristics, a total of 41 isolates were identified as Candida orthopsilosis, Candida pseudorhagii, Candida maltosa, Candida parapsilosis, Candida tropicalis, Candida neerlandica, Lodderomyces elongisporus, and seven new Candida species. The new species and type strains are designated as Candida gigantensis NRRL Y-27736T, Candida bohiensis NRRL Y-27737T, Candida alai NRRL Y-27739T, Candida buenavistaensis NRRL Y-27734T, Candida frijolesensis NRRL Y-48060T, Candida labiduridarum NRRL Y-27940T, and Candida tetrigidarum NRRL Y-48142T. A phylogeny based on SSU and LSU rRNA gene sequences indicated that most of the new species were closely related to members of the C. albicans/L. elongisporus clade, such as C. albicans, Candida dulbliniensis, C. neerlandica, Candida chauliodes, and Candida corydali. Candida alai was placed near this clade, but no closely related sister taxon was identified. The ecology of the insect-associated yeasts is discussed and compared with the results from other studies.     

口腔黏膜真菌鉴定方法的比较

比较常见用于黏膜真菌菌种鉴别的多种方法,探寻最佳的鉴别方法。采集230例普通人群口腔黏膜样本,分别用玉米吐温-80培养观察厚膜孢子法、糖发酵生化反应法、CHROMagar假丝酵母菌显色培养基法、ITS基因的PCR-RFLP(聚合酶链反应-限制性片段长度多态性)法、ITS测序菌种鉴定法,鉴别真菌各菌株。结果显示:有56例菌株至少通过1种方法检出真菌;玉米吐温-80分离培养假丝酵母菌37株;50例菌株ITS基因测序共鉴定出8个菌种,白假丝酵母菌(C.albicans)29株,近平滑假丝酵母菌(C.parapsilosis)10株,热带假丝酵母菌(C.tropicalis)5株,Candida metapsilosis 1株,Lodderomyces elongisporus 1株,克柔假丝酵母菌(Candida krusei)1株,乙醇假丝酵母菌(C.ethanolica)1株,季也蒙毕赤酵母菌(Pichia guilliermondii)2株;CHROMagar假丝酵母菌显色培养基法鉴定出3种菌株,分别是白假丝酵母菌、热带假丝酵母菌、近平滑假丝酵母菌;PCR-RFLP法检出5种菌株,分别是白假丝酵母菌、热带假丝酵母菌、近平滑假丝酵母菌、季也蒙毕赤酵母菌、克柔假丝酵母菌,与基因的测序鉴定一致率为91%;糖发酵生化反应法阳性标本占被检出真菌例数的46.4%(26/56)。结果表明:ITS基因的测序法可以准确鉴定真菌各个菌种;PCR-RFLP法能鉴定常见的菌种,但操作繁琐;CHROMagar假丝酵母菌显色培养基法能快速准确鉴别3种常见假丝酵母菌菌种;玉米吐温-80可以准确培养鉴别白假丝酵母菌;糖发酵生化反应法,缺乏足够的敏感度和特异性,难以准确鉴别各个菌种。     

Candida glabrata, Candida parapsilosis and Candida tropicalis: biology, epidemiology, pathogenicity and antifungal resistance

The incidence of infections caused by Candida species (candidosis) has increased considerably over the past three decades, mainly due to the rise of the AIDS epidemic, an increasingly aged population, higher numbers of immunocompromised patients and the more widespread use of indwelling medical devices. Candida albicans is the main cause of candidosis; however, non-C. albicans Candida (NCAC) species such as Candida glabrata, Candida tropicalis and Candida parapsilosis are now frequently identified as human pathogens. The apparent increased emergence of these species as human pathogens can be attributed to improved identification methods and also associated with the degree of diseases of the patients, the interventions that they were subjected and the drugs used. Candida pathogenicity is facilitated by a number of virulence factors, most importantly adherence to host surfaces including medical devices, biofilm formation and secretion of hydrolytic enzymes (e.g. proteases, phospholipases and haemolysins). Furthermore, despite extensive research to identify pathogenic factors in fungi, particularly in C. albicans, relatively little is known about NCAC species. This review provides information on the current state of knowledge on the biology, identification, epidemiology, pathogenicity and antifungal resistance of C. glabrata, C. parapsilosis and C. tropicalis.     

近平滑念珠菌ERG 11基因编码区的克隆及生物信息学分析

目的克隆、测序近平滑念珠菌ERG11基因的编码区序列并进行生物信息学分析。方法运用生物信息学的方法 ,通过与白念珠菌ERG11基因碱基序列同源性比对,在近平滑念珠菌基因组(www.sanger.ac.uk/sequencing/Candida/pa-rapsilosis/)中寻找可能的ERG11基因序列(CpERG11),并据此序列设计引物,经PCR扩增近平滑念珠菌标准株(ATCC22019)的ERG11基因片段,产物经电泳、纯化、克隆到质粒prG-AMAI-NotI中,转染DH10B大肠杆菌细胞,并酶切鉴定筛选阳性克隆测序分析。结果近平滑念珠菌ERG11编码区由1569个碱基组成,编码一段含522个氨基酸的多肽。近平滑念珠菌ERG11的编码区序列与白念珠菌、热带念珠菌、光滑念珠菌、酿酒酵母菌ERG11基因的同源性分别为74%、75%、65%、64%。该近平滑念珠菌ERG11的编码区为唑类药物作用靶酶基因。结论成功克隆、测序、并生物信息学分析近平滑念珠菌ERG11基因的编码区序列,为进一步的功能研究奠定基础。     

Disruption of the gene encoding the secreted acid protease (ACP) in the yeast Candida tropicalis

The gene for the secreted acid protease (ACP), a potential virulence factor of Candida species, was inactivated in Candida tropicalis by gene disruption. The disruption was performed by cotransformation of an ade2 C. tropicalis mutant with a linear DNA fragment carrying a deletion in ACP, and the replicative vector pMK16 which carries a selectable ADE2 gene marker. Few of the transformants exhibited lower protease secretion levels and were shown to have one deleted and one unaffected ACP copy, since C. tropicalis is a diploid yeast. These transformants were rendered homozygotic for this deletion by mild UV-treatment. One of the homozygotic acp deletion mutants obtained was completely devoid of extracellular protease activity and grew poorly on bovine serum albumin-containing medium. This mutant could be complemented by an ACP fragment inserted in pMK16, but also by an acid protease gene isolated from C. parapsilosis.     

Comparative Analysis of the Genomes of Two Field Isolates of the Rice Blast Fungus Magnaporthe oryzae

Rice blast caused by Magnaporthe oryzae is one of the most destructive diseases of rice worldwide. The fungal pathogen is notorious for its ability to overcome host resistance. To better understand its genetic variation in nature, we sequenced the genomes of two field isolates, Y34 and P131. In comparison with the previously sequenced laboratory strain 70-15, both field isolates had a similar genome size but slightly more genes. Sequences from the field isolates were used to improve genome assembly and gene prediction of 70-15. Although the overall genome structure is similar, a number of gene families that are likely involved in plant-fungal interactions are expanded in the field isolates. Genome-wide analysis on asynonymous to synonymous nucleotide substitution rates revealed that many infection-related genes underwent diversifying selection. The field isolates also have hundreds of isolate-specific genes and a number of isolate-specific gene duplication events. Functional characterization of randomly selected isolate-specific genes revealed that they play diverse roles, some of which affect virulence. Furthermore, each genome contains thousands of loci of transposon-like elements, but less than 30% of them are conserved among different isolates, suggesting active transposition events in M. oryzae. A total of approximately 200 genes were disrupted in these three strains by transposable elements. Interestingly, transposon-like elements tend to be associated with isolate-specific or duplicated sequences. Overall, our results indicate that gain or loss of unique genes, DNA duplication, gene family expansion, and frequent translocation of transposon-like elements are important factors in genome variation of the rice blast fungus.     

Direct transformation of a clinical isolate of Candida parapsilosis using a dominant selection marker

Candida parapsilosis is a human pathogenic fungus with increasing importance, particularly in nosocomial infections. For detailed molecular genetic explorations of prototrophic clinical isolates of C. parapsilosis, we developed an efficient transformation system based on a dominant selectable marker. The gene encoding resistance to mycophenolic acid (MPA) was used for selection in yeast transformation. C. parapsilosis cells were transformed with a plasmid vector containing the Candida albicans inosine monophosphate dehydrogenase gene (IMH3) responsible for mycophenolic acid resistance. Transformation was carried out both by electroporation and by the lithium acetate (LiAc) method. The LiAc method resulted in very poor transformation efficiency, while the modified electroporation method yielded a high number of mitotically stable transformants exhibiting unambiguous MPA resistance. Two hundred transformants were analysed for the presence of the C. albicans IMH3(r) gene by polymerase chain reaction. Integration of single or multiple plasmid copies into the genomic DNA of C. parapsilosis was determined by Southern hybridization. To our knowledge, the present study is the first report about a method based on a dominant selectable marker for the transformation of a prototrophic, clinical isolate of C. parapsilosis. The described technique may prove to be an efficient tool for the examination of the biology and virulence of this pathogenic yeast.     

The ALS gene family of Candida albicans

The ALS gene family of Candida albicans encodes large cell-surface glycoproteins that are implicated in the process of adhesion to host surfaces. ALS genes are also found in other Candida species that are isolated from cases of clinical disease. Genes in the ALS family are differentially regulated by physiologically relevant mechanisms. ALS genes exhibit several levels of variability including strain- and allele-specific size differences for the same gene, strain-specific differences in gene regulation, the absence of particular ALS genes in certain isolates, and additional ALS coding regions in others. The differential regulation and genetic variability of the ALS genes results in a diverse cell-surface Als protein profile that is also affected by growth conditions. The ALS genes are one example of a gene family associated with pathogenicity mechanisms in C. albicans and other Candida species.     

Characterization of Candida Species from Different Populations in Taiwan

The opportunistic Candida species existing as part of commensal microbiota in humans are usually the etiological agents causing infections. We investigated whether isolates collected from different age groups, hospital units, and sources have distinct characteristics. A total of 913 isolates comprising 395 Candida albicans, 230 Candida tropicalis, 202 Candida glabrata, 62 Candida parapsilosis, 13 Candida krusei, and 11 of other six species were analyzed. Urine was the most common source (41.2%), followed by sputum (16.3%), blood (15.2%), and others (27.3%). Candida albicans and C. parapsilosis were more prevalent in the working group [from 19 to 65 years], whereas C. tropicalis and C. glabrata were more prevalent in the elder one (≥ 66 years). We found that the age of patients and the source of isolates affect the distribution of species. On the other hand, the drug susceptibility of isolates was associated with fungal species and whether patients were hospitalized.