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.     

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   

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.     

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.     

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。     

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.     

Characterization of mitochondrial DNA in various Candida species: isolation, restriction endonuclease analysis, size, and base composition.

A practical and effective method for the extraction of mitochondrial DNA from Candida species was developed. Zymolyase was used to induce yeast protoplasts, and mitochondrial DNA was extracted from DNase I-treated mitochondrial preparations. Restriction endonuclease analyses of mitochondrial DNAs from 19 isolates representing seven species of Candida (C. albicans, C. kefyr, C. lusitaniae, C. maltosa, C. parapsilosis, C. shehatae, and C. tropicalis) and Lodderomyces elongisporus revealed different cleavage patterns that appeared to be specific for the species. Few common restriction fragments were evident. The genome sizes of the mitochondrial DNAs ranged from 26.4 to 51.4 kilobase pairs, and the guanine-plus-cytosine contents ranged from 20.7 to 36.8 mol%. There was no correlation between the base compositions of nuclear and mitochondrial DNAs. Eight isolates of C. parapsilosis, including the type culture, and an ascosporogenous strain of L. elongisporus, which was once proposed as the teleomorph of C. parapsilosis, had similar mitochondrial DNA molecular sizes (30.2 and 28.8 kilobase pairs); however, restriction endonuclease patterns of these organisms were distinct. These data provide additional support for discrimination of these two species. The results of our experiments demonstrate that mitochondrial DNA analyses may provide useful criteria for the differentiation of yeast species.     

t-Loops in yeast mitochondria

Mitochondria of several yeast species contain a linear DNA genome possessing specific terminal DNA structures dubbed mitochondrial telomeres. Several tandemly repeated units and a 5' single-stranded extension characterize mitochondrial telomeres in Candida parapsilosis, Pichia philodendra and Candida salmanticensis. Resemblance of this type of mitochondrial telomeres to typical nuclear telomeres suggests that they might form t-loop structures. Therefore we adopted a protocol for stabilization of potential t-loops in the mtDNA of C. parapsilosis and observed several loops at the ends of the mtDNA. A potential role of t-loops in protection of the ends of mtDNA and/or in mitochondrial telomere dynamics is discussed.     

Extragenomic double-stranded DNA circles in yeast with linear mitochondrial genomes: potential involvement in telomere maintenance

Although the typical mitochondrial DNA (mtDNA) is portrayed as a circular molecule, a large number of organisms contain linear mitochondrial genomes classified by their telomere structure. The class of mitochondrial telomeres identified in three yeast species, Candida parapsilosis, Pichia philodendra and Candida salmanticensis, is characterized by inverted terminal repeats each consisting of several tandemly repeating units and a 5' single-stranded extension. The molecular mechanisms of the origin, replication and maintenance of this type of mitochondrial telomere remain unknown. While studying the replication of linear mtDNA of C.parapsilosis by 2-D gel electrophoresis distinct DNA fragments composed solely of mitochondrial telomeric sequences were detected and their properties were suggestive of a circular conformation. Electron microscopic analysis of these DNAs revealed the presence of highly supertwisted circular molecules which could be relaxed by DNase I. The minicircles fell into distinct categories based on length, corresponding to n x 0.75 kb (n = 1-7). Similar results were obtained with two other yeast species (P.philodendra and C. salmanticensis) which possess analogous telomeric structure.     

Electron microscopic analysis supports a dual role for the mitochondrial telomere-binding protein of Candida parapsilosis

Linear mitochondrial genomes exist in several yeast species which are closely related to yeast that harbor circular mitochondrial genomes. Several lines of evidence suggest that the conversion from one form to another occurred accidentally through a relatively simple mechanism. Previously, we (L.T. & J.N.) reported the identification of the first mitochondrial telomere-binding protein (mtTBP) that specifically binds a sequence derived from the extreme end of Candida parapsilosis linear mtDNA, and sequence analysis of the corresponding nuclear gene MTP1 revealed that mtTBP shares homology with several bacterial and mitochondrial single-stranded (ss) DNA-binding (SSB) proteins. In this study, the DNA-binding properties of mtTBP in vitro and in vivo were analyzed by electron microscopy (EM). When M13 ssDNA was used as a substrate, mtTBP exhibited similar DNA binding characteristics as human mitochondrial SSB: mtTBP formed protein globules along the DNA substrate, and the bound proteins were randomly distributed, indicating that the binding of mtTBP to M13 ssDNA is not highly cooperative. EM analysis demonstrated that mtTBP is able to recognize the 5' single-stranded telomeric overhangs in their natural context. Using isopycnic centrifugation of mitochondrial lysates of C. papsilosis we show that mtTBP is a structural part of mitochondrial nucleoids of C. parapsilosis and is predominantly bound to the mitochondrial telomeres. These data support a dual role of mtTBP in mitochondria of C. parapsilosis, serving both as a typical mitochondrial SSB and as a specific component of the mitochondrial telomeric chromatin.     

26S rDNA单链构象多态性分析在临床酵母菌菌种鉴定中的应用

摘要： 【目的】探讨酵母菌临床分离株26S rDNA D1/D2区序列种内相似性和种间差异性的快速检测方法,为临床酵母菌菌种鉴定方法的改进奠定基础。调查北京地区临床酵母菌的种群多样性,为国内酵母菌感染的流行病学研究提供新的基础数据。【方法】用5种常见临床酵母菌种的模式和权威菌株作为标准参考菌株,从北京四家综合性医院收集临床酵母菌260余株,PCR扩增其26S rDNA D1/D2区,对扩增产物进行单链构象多态性（Single-Strand Conformation Polymorphism,SSCP）分析和序列测定分析。【结果】常见病原酵母菌26S rDNA D1/D2区的SSCP图谱具有明显的种间差异性和种内相似性,可以通过该方法对菌株进行初步的菌种鉴定。D1/D2-SSCP和序列分析相结合,对260余株临床酵母菌进行了菌种鉴定,共鉴定有10个属20个种,优势属为念珠菌属(Candida),优势种及其所占比例分别是：C. albicans (57.7%), C. parapsilosis (10.0%), C. tropicalis (9.2%), C. glabrata (6.7%)和C. krusei (5.8%),并发现过去从未或很少报道致病的酵母菌种,愈来愈多地出现在临床分离菌株中。【结论】 26S rDNA D1/D2区的SSCP图谱分析为临床酵母菌株的快速鉴定提供了新的方法;北京地区酵母菌临床分离株呈种群多样性分布,C. albicans虽然仍占优势,但其它念珠菌种的比例已达42%。     

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.     

Mitochondrial telomere-binding protein from Candida parapsilosis suggests an evolutionary adaptation of a nonspecific single-stranded DNA-binding protein

The mitochondrial genome in a number of organisms is represented by linear DNA molecules with defined terminal structures. The telomeres of linear mitochondrial DNA (mtDNA) of yeast Candida parapsilosis consist of tandem arrays of large repetitive units possessing single-stranded 5' extension of about 110 nucleotides. Recently we identified the first mitochondrial telomere-binding protein (mtTBP) that specifically binds a sequence derived from the extreme end of C. parapsilosis linear mtDNA and protects it from attack by various DNA-modifying enzymes (Tomáska, L'., Nosek, J., and Fukuhara, H. (1997) J. Biol. Chem. 272, 3049-3059). Here we report the isolation of MTP1, the gene encoding mtTBP of C. parapsilosis. Sequence analysis revealed that mtTBP shares homology with several bacterial and mitochondrial single-stranded DNA-binding proteins that nonspecifically bind to single-stranded DNA with high affinity. Recombinant mtTBP displays a preference for the telomeric 5' overhang of C. parapsilosis mtDNA. The heterologous expression of a mtTBP-GFP fusion protein resulted in its localization to the mitochondria but was unable to functionally substitute for the loss of the S. cerevisiae homologue Rimlp. Analysis of the MTP1 gene and its translation product mtTBP may provide an insight into the evolutionary origin of linear mitochondrial genomes and the role it plays in their replication and maintenance.     

Diabetes mellitus and candidiases

Patients in various clinical states of diabetes mellitus (according to the recommendation of the American Diabetes Association) as a primary diagnosis were examined for fungal infections by Candida species. Candida spp. were detected in urine, in the material taken from the mouth cavity, nails, skin lesions, ears and eyes, by cultivation on the Sabouraud agar, CHROMagar Candida, and by saccharide assimilation. In the group of diabetics with symptoms of oral candidiasis and denture stomatitis C. albicans was identified in 8 cases, C. tropicalis in 3, C. parapsilosis in 2; 1 strain of C. guilliermondii was also isolated. In patients with urinary tract infections the presence of C. albicans was shown in 12 cases; C. parapsilosis was detected in 6 cases and two strains of each C. tropicalis and C. krusei were also isolated. In patients with leg ulcers C. albicans (25 cases), C. parapsilosis (5), C. tropicalis (3) and one strain of each C. krusei and C. robusta were isolated. Otomycosis was associated with one strain of C. albicans, C. parapsilosis, C. tropicalis and C. guilliermondii. C. albicans was most frequently associated with onychomycosis, paronychia and endophthalmitis; C. parapsilosis was the second most rated yeast.     

以分子生物学鉴定结果为“金标准”评估Rapid ID Yeast Plus及API20C AUX对酵母样真菌的鉴定效能

目的 以分子生物学方法为“金标准”对两种商品化酵母样真菌鉴定产品Rapid ID Yeast Plus（简称RapIDYST）及API20C AUX（简称API20C）的鉴定效能进行评估.方法 从2010年中国医院侵袭性真菌感染监测网菌株库中筛选酵母样真菌25种,共计194株.其中,包含临床最常见的5种酵母样真菌（白念珠菌、热带念珠菌、光滑念珠菌、近平滑念珠菌、新生隐球菌）共130株,占研究总菌株数的67.0％.所有菌株已经过分子生物学方法准确鉴定至种水平.菌株复苏分纯后,严格按照产品操作指南,平行进行RapID YST和API20C鉴定.结果 所研究菌株中,有181株（18种）在RapID YST鉴定菌种数据库中,所有在库菌株种及复合体鉴定正确率为87.8％（159/181）.相比,API鉴定菌种库包含菌株174株（18种）,在库菌株种及复合体鉴定正确率为92.0％ （160/174）.RapID YST与API20C对于5种临床常见的酵母样真菌的种鉴定正确率分别为93.1％和97.1％.对于库外菌株,RapID YST的鉴定错误率分别为23.1％（3/13）,相比API20C的鉴定错误率为60.0％ （12/20）.综合此次评估结果,二者对酵母样真菌的鉴定效能无显著差异（McNemar检验,P＞0.05）.结论 两种商品化产品对酵母样真菌的鉴定效能基本一致;相较而言,RapID YST在操作便捷性、检测时间方面具有较大优势.     

Enzymatic differentiation of Candida parapsilosis from other Candida spp. in a membrane filtration test

A previously reported enzyme assay on a membrane filter using 4-methylumbelliferyl (4-MU)-N-acetyl-beta-D-galactosaminide, -phosphate and -pyrophosphate as substrates for the differentiation of four Candida spp. has been extended to Candida parapsilosis. The substrate 4-MU-beta-D-glucoside was hydrolyzed by 28 test strains of this species but to a variable extent by seven other yeasts also. For a full enzymatic differentiation of C. parapsilosis from other medical yeasts, a battery of six reactions was required. Of 71 C. parapsilosis positive clinical samples, 4.2% gave a false negative result due to overgrowth by Candida albicans. The present assay is more rapid than a described spectrofluorometric determination of beta-D-glucosidase in a broth, i.e., 9-11 h versus up to >48 h.     

Species distribution and antifungal susceptibility among clinical isolates of Candida parapsilosis complex from India

Background

Candida parapsilosis is recognized as a species complex: Candida parapsilosis sensu stricto, Candida orthopsilosis and Candida metapsilosis are three distinct but closely related species.

Rapid identification of medically important yeasts by electrophoretic protein patterns

A simple electrophoretic method for yeast identification was evaluated. Whole cells were extracted by SDS and the protein profiles obtained in SDS-PAGE after Coomassie blue staining were compared for 52 strains from 9 species of yeast or yeast-like fungi commonly isolated from man (Candida albicans, C. glabrata, C. guilliermondii, C. krusei, C. parapsilosis, C. pseudotropicalis, C. tropicalis, Geotrichum candidum, Saccharomyces cerevisiae). The corresponding patterns showed 30 to 45 polypeptides in the range 95-20 kDa and were clearly different for the 9 species. No differences could be detected between strains from the same species. The characteristic patterns were obtained within 24 h allowing rapid identification of the most commonly encountered clinical yeast isolates.