Airborne Aspergillus fumigatus conidia: a risk factor for aspergillosis

Aspergillus fumigatus is an opportunistic fungal pathogen that causes invasive aspergillosis, a usually fatal infection. The disease has risen in prominence in recent years due to the increasing numbers of severely immunocompromised patients becoming infected. The fungus is ubiquitous in the environment, producing large numbers of conidia that are dispersed in the air. Humans inhale numerous conidia everyday, but infections are not seen in healthy individuals. As inhalation of conidia is the main route of infection, considerable efforts are required to prevent infection in susceptible patients. This review summarises the current knowledge on airborne concentrations of A. fumigatus conidia, their background levels in outdoor air and seasonal distribution patterns. New and established methods of air sampling for airborne A. fumigatus conidia are discussed. Common environmental sources of the fungus are reviewed, including its presence in compost heaps. Finally, the lack of stringent guidelines on the monitoring and control of airborne A. fumigatus concentrations in hospitals is discussed.     

Insertional mutagenesis of Aspergillus fumigatus

We have investigated transformation with heterologous DNA as a method for insertional mutagenesis of Aspergillus fumigatus. Two methods, polyethylene glycol-mediated transformation of protoplasts and electroporation of germinating spores, were used to establish conditions leading to single-copy integration of transforming DNA at different genomic sites. We have assessed the effect of restriction enzyme-mediated integration (REMI) for both methods. Non-REMI protoplast transformation led to integration of multiple copies of transforming DNA in the majority of transformants. Results of REMI with protoplast transformation varied depending on the enzyme used. Low concentrations of several restriction enzymes stimulated transformation, but of ten enzymes investigated only REMI with XhoI and KpnI resulted in single-copy integration of transforming DNA for the majority of transformants. For protoplast transformation with XhoI- or KpnI-based REMI, 50% and 76% of insertions, respectively, were due to integrations at a genomic enzyme site corresponding to the enzyme used for REMI. Electroporation of spores without addition of restriction enzyme resulted in a high transformation efficiency, with up to 67% of transformants containing a single copy of transforming DNA. In contrast to protoplast transformation, electroporation of spores in the presence of a restriction enzyme did not improve transformation efficiency or lead to insertion at genomic restriction sites. Southern analysis indicated that for both protoplast transformation with REMI using KpnI or XhoI and for electroporation of spores without addition of restriction enzymes, transforming DNA inserted at different genomic sites in a high proportion of transformants. Received: 6 March 1998 / Accepted: 25 May 1998     

烟曲霉黑色素的研究进展

烟曲霉(Aspergillus fumigatus)是一种分布于世界各地的腐生真菌,属于人类临床常见的三大机会性致病真菌之一,是侵袭性曲霉菌病的主要病原菌。烟曲霉可以产生DHN-黑色素(dihydroxynaphthalene melanin)和脓黑素(pyomelanin)这2种类型黑色素。本综述介绍烟曲霉黑色素产生的遗传代谢途径、功能以及与宿主免疫系统相互作用的最新认识,有助于更好地理解烟曲霉的病理生理特征,为烟曲霉感染快速诊断技术和新型抗真菌药物的研发提供理论依据。     

Genes encoding multiple drug resistance-like proteins in Aspergillus fumigatus and Aspergillus flavus

Polymerase chain reaction using degenerate primers was used to identify genes encoding proteins of the ATP-binding cassette superfamily in Aspergillus fumigatus and Aspergillus flavus. In A. fumigatus, two genes (AfuMDR1 and AfuMDR2) encoding proteins of the ATP-binding cassette superfamily were identified. One gene (AflMDR1) was isolated from A. flavus and is the apparent homologue to AfuMDR1. AfuMDR1and AflMDR1 encode proteins of molecular weights 148 000 and 143 000, respectively, each containing 12 putative transmembrane regions and two ATP-binding sites. These proteins are arranged in two homologous halves, each half consisting of a hydrophobic region (encoding six putative transmembrane domains) and an ATP-binding site. The AfuMDR1 and AflMDR1-encoded proteins bear a high degree of similarity to the Schizosaccharomyces pombe leptomycin B resistance protein and to human MDR1. The second gene identified in A. fumigatus, AfuMDR2, encodes a protein of molecular weight 85 000, containing four putative transmembrane domains and an ATP binding domain. The encoded protein is similar to those encoded by MDL1 and MDL2, two MDR-like genes of Saccharomyces cerevisiae. Expression of AFUMDR1 in S. cerevisiae conferred increased resistance to the antifungal agent cilofungin (LY121019), an echinocandin B analog.     

The innate immune response to Aspergillus fumigatus

Despite the development of new treatments, the mortality due to invasive pulmonary aspergillosis remains above 50%, reaching 95% in certain situations. The battle against Aspergillus fumigatus involves several components of the pulmonary innate immune system: cells, mediators, and natural antifungal molecules involved in the recognition and elimination of the fungus, thereby preventing colonization of the respiratory system.With the 10,000–15,000 l of air we inhale each day, the lungs are constantly exposed to a wide range of microorganisms, such as A. fumigatus. This fungus is ubiquitous in the environment and can release large numbers of spores able, due to their small size, to penetrate the respiratory tract. The spores of A. fumigatus, like any other pathogen, are then confronted with the innate immune system, a constitutive defense system that is permanently active and tightly regulated. The various elements of the pulmonary innate immune system—physical and cellular barriers and soluble mediators—are involved in the recognition and elimination of pathogens, thereby preventing colonization of the respiratory system. Consequently, the presence of spores in immunocompetent hosts is completely innocuous, because these spores are normally eliminated. However, changes in one of the components of the defense system may lead to the development of pulmonary infections. Thus, in immunocompromised individuals, the spores are able to develop and cause pulmonary mycoses. These mycoses, known as aspergillosis, are highly variable, with the range of presentations extending from an allergy-type illness, allergic bronchopulmonary aspergilloses, to a very serious generalized and frequently fatal infection: invasive pulmonary aspergillosis (IPA).     

The antimicrobial activity of Aspergillus fumigatus is enhanced by a pool of bacteria

In a screening program for new antibiotic producers, a strain of Aspergillus fumigatus was isolated from Brazilian soil samples. A pool of autoclaved bacteria was added to part of the fungus culture on the second day of fermentation to increase antibiotic production. The chloroform extract from the culture broth to which the pool of autoclaved bacteria was added showed an increase of 55%, 63% and more than 100% in activity against Staphylococcus aureus, Candida albicans and Micrococcus luteus, respectively. Also, the HPLC chromatographic profiles of the chloroform extracts from both culture conditions were different. Two active compounds were isolated from the broth of the culture grown in the presence of pooled bacteria and were identified as 3,4-dimethoxyphenol and 1,3,5-trimethoxybenzene.     

Doxycycline-regulated gene expression in the opportunistic fungal pathogen Aspergillus fumigatus

Background  

Although Aspergillus fumigatus is an important human fungal pathogen there are few expression systems available to study the contribution of specific genes to the growth and virulence of this opportunistic mould. Regulatable promoter systems based upon prokaryotic regulatory elements in the E. coli tetracycline-resistance operon have been successfully used to manipulate gene expression in several organisms, including mice, flies, plants, and yeast. However, the system has not yet been adapted for Aspergillus spp.     

FT-IR Spectroscopy for Rapid Differentiation of Aspergillus flavus, Aspergillus fumigatus, Aspergillus parasiticus and Characterization of Aflatoxigenic Isolates Collected from Agricultural Environments

In agricultural areas, Aspergillus flavus, Aspergillus fumigatus and Aspergillus parasiticus are commonly identified in various feedstuffs and bioaerosols originated from feed handling. Some isolates belonging to these fungal species could produce mycotoxins and constitute a risk factor for human and animal health. In this study, Fourier-transform infrared spectroscopy was used for a rapid detection and characterization of 99 isolates collected from agricultural areas. The results showed a first cluster corresponding to strains previously attributed to the A. fumigatus group according to current taxonomic concepts, and a second cluster divided in 2 groups around reference strains of A. flavus and A. parasiticus species. The toxigenic capacity of isolates was evaluated by high performance liquid chromatography coupled to mass spectrometry. In the A. flavus group, only 6 strains of A. parasiticus and 4 strains of A. flavus were able to produce aflatoxins on culture media. FT-IR spectroscopy, respectively, allowed the differentiation of non-toxigenic and toxigenic A. flavus and A. parasiticus isolates at 75 and 100%. Discrimination between toxigenic and non-toxigenic A. fumigatus was not possible because all of the isolates produced at least one mycotoxin.     

额外拷贝ERG6基因对烟曲霉的影响

通过构建烟曲霉ERG6基因额外拷贝株．研究该基因对烟曲霉生长速度、抗药物敏感性的影响。在烟曲霉基因组找出烟曲霉可能的ERG6基因的开放读码框(ORF),PCR扩增ERG6的ORF连同其上下游各约1 kb的DNA片段,利用DNA重组的方法将该片段克隆到载体pRG-AMA1-NotI。用重组后的质粒转化烟曲霉尿嘧啶营养缺陷株AF293．1。在MM和YAG培养基上观察转化子的生长速度。采用纸片扩散法和微量液基稀释法测定转化子对抗真菌药物敏感性。烟曲霉基因组中存在一个拷贝的ERG6基因,ORF大小为1,256 bp。其编码的蛋白与白念珠菌、酿酒酵母固醇甲基转移酶(Ers6p)的氨基酸相同率分别为57%和50%,相似率分别为70%和63%。烟曲霉中ERG6基因被成功克隆到了pRG-AMA1-Not I,产生了质粒pERG6。用pERG6和空载体pRG-AMA1-Not I转化AF293．1后,分别得到转化子AF-pERG6和AF-empty。AF-pERG6在MM和YAG培养基上的生长速度均比AF-empty慢。AF-pERG6和AF-empty对伊曲康唑、伏力康唑、特比萘芬、两性霉素B、卡泊芬净、灰黄霉素的敏感性没有差异。ERG6基因额外拷贝不影响烟曲霉对伊曲康唑、伏力康唑、特比萘芬、两性霉素B、卡泊芬净、灰黄霉素的敏感性,但是能使烟曲霉的生长速度减慢。     

1株盾叶薯蓣植物内生烟曲霉菌的分离鉴定

从药用盾叶薯蓣地下茎组织中分离内生菌。选取盾叶薯蓣地下茎核心组织,32℃恒温孵育,分离菌株;依据形态学、分子生物学特征鉴定菌株;通过纸片扩散法检测分离株与同种植物内生Bcillus subtilis SWB8菌株的拮抗作用。结果显示,孵育48 h后,培养基表面呈现扁平、白色或深绿色绒毛状菌落,显微镜下见孢子囊和圆形分生孢子;ITS序列分析显示,分离株ITS基因序列与GenBank数据库中烟曲霉菌同源性为100%,鉴定为烟曲霉菌(A.fumigatus YHY01)。拮抗实验显示,其与B.subtilis SWB8菌没有明显相互抑制现象。首次从盾叶薯蓣植物中分离出A.fumigatus,推测其与B.subtilis SWB8菌株间存在共生关系。     

纤维素降解菌烟曲霉HZ1的基因组测序及生物信息学分析

[目的]烟曲霉Aspergillus fumigatus作为一类具有纤维素降解能力的真菌,对其基因组的研究,将有利于从A.fumigatus中挖掘和开发利用与纤维素降解相关的酶资源.[方法]利用CMC选择培养基和刚果红染色法从长足大竹象肠道中分离和筛选出纤维素降解菌A.fumigatus HZ1,同时采用Illumin...     

滇重楼内生真菌Aspergillus fumigatus代谢产物的研究

为研究滇重楼内生真菌Aspergillus fumigatus的代谢产物,采用多种色谱分离技术对其菌丝体和发酵液进行分离纯化,得到31个化合物。根据理化性质及波谱数据,结构分别鉴定为tryprostatin B (1)、tryprostatin A (2)、12,13-dihydroxyfumitre- morgin C (3)、cyclotryprostatin B (4)、14-norpseurotin A (5)、pseurotine F1 (6)、pseurotine F2 (7)、azaspirofuran A (8)、pseurotin D (9)、spirotryprostatin K (10)、6-methoxyspirotryprostatin B (11)、deacetylpyripyropene A (12)、烟曲霉素 (13)、fuma- gillene A (14)、5,9-dihydroxy-β-trans-bergamotene (15)、对羟基苯乙酸 (16)、demethoxyfumitremorgin C (17)、fumiquinazoline J (18)、烟曲霉酸 (19)、麦角甾醇 (20)、过氧麦角甾醇 (21)、4,4-dimethyl-5α-ergosta-8,24(28)-dien-3β-ol (22)、羊毛甾醇 (23)、亚油酸 (24)、油酸 (25) 、烟曲霉毒素C (26)、烟曲霉毒素B (27)、震颤真菌毒素 (28)、pseurotin A (29)、fumiquinazoline C (30)和questin (31)。其中,化合物1~16仅从发酵液中分离得到;化合物17~25仅从菌丝体中分离得到;其余化合物在发酵液和菌丝体中均分离得到。化合物15和23为首次从烟曲霉属真菌中分离得到。此外,化合物26~29的乙酰胆碱酯酶抑制活性和烟草黑胫病菌抑制活性评价表明,化合物26和27对烟草黑胫病菌具有微弱的抑制作用,抑菌率分别为19.64%和17.86%。     

Purification and characterization of a thermodynamic stable serine protease from Aspergillus fumigatus

A thermostable extracellular serine protease from Aspergillus fumigatus was purified 8.8-fold using a 4-step protocol. The enzyme was produced using a 36 h solid-state culture, had a molecular weight of 88 kDa and exhibited maximal enzyme activity at pH 7 and 60 °C. Structural analysis revealed that the protease is monomeric and non-glycosylated. Thermal inactivation of the pure enzyme followed first-order kinetics. The half-life (t_1/2) of the pure enzyme at 50, 60 and 70 °C was 65, 34 and 14 min, respectively. The denaturation and activation energies were 69 and 62 kJ mol⁻¹, respectively. Thermodynamic parameters (entropy and enthalpy) suggested that the protease was highly thermostable. This is the first report on the thermodynamic parameters of proteases produced by A. fumigatus.