Rare actinomycetes: a potential storehouse for novel antibiotics

New antimicrobial agents are desperately needed to combat the increasing number of antibiotic resistant strains of pathogenic microorganisms. Natural products remain the most propitious source of novel antibiotics. It is widely accepted that actinobacteria are prolific producers of natural bioactive compounds. We argue that the likelihood of discovering a new compound having a novel chemical structure can be increased with intensive efforts in isolating and screening rare genera of microorganisms. Screening rare actinomycetes and their previously under-represented genera from unexplored environments in natural product screening collections is one way of achieving this. Rare actinomycetes are usually regarded as the actinomycete strains whose isolation frequency is much lower than that of the streptomycete strains isolated by conventional methods. Many natural environments are still either unexplored or under-explored and thus, can be considered as a prolific resource for the isolation of less exploited microorganisms. More and different ecological niches need to be studied as sources of a greater diversity of novel microorganisms. In this review, we wish to update our understanding of the potential of the rare actinomycetes by focusing on the ways and means of enhancing their bio-discovery potential.     

聚酮类化合物生物合成途径基因阳性菌株生物多样性研究

从中国云南省采集土样,采用GPY培养基、淀粉_酪素琼脂培养基和甘油天门冬酰胺琼脂培养基分离得到了876株细菌放线菌菌株。经聚酮类化合物基因筛选得到75株Ⅰ型和Ⅱ型聚酮类化合物生物合成基因双阳性的菌株,经抗菌活性、形态、生理等结果分析比较,选取其中的10株进行了16S rDNA序列分析。在物种多样性方面,分离到的菌分布至少有7个科,8个属。其中有链霉菌科的链霉菌属,分枝杆菌科的分枝杆菌属,链孢囊菌科的链孢囊菌属和野野村菌属,诺卡氏菌科的诺卡氏菌属,微球菌亚目的一新属、产碱杆菌科的无色杆菌属和β_亚纲中与紫色杆菌属紧邻的一革兰氏阴性菌新属。综合其表型、基因型特征,初步确定其中8株为新物种。研究表明利用新的思路和程序从自然环境分离、鉴定未知菌是微生物资源开发利用的关键。     

Diversity of culturable actinomycetes in hyper-arid soils of the Atacama Desert,Chile

The Atacama Desert presents one of the most extreme environments on Earth and we report here the first extensive isolations of actinomycetes from soils at various locations within the Desert. The use of selective isolation procedures enabled actinomycetes to be recovered from arid, hyper-arid and even extreme hyper-arid environments in significant numbers and diversity. In some cases actinomycetes were the only culturable bacteria to be isolated under the conditions of this study. Phylogenetic analysis and some phenotypic characterisation revealed that the majority of isolates belonged to members of the genera Amycolatopsis, Lechevalieria and Streptomyces, a high proportion of which represent novel centres of taxonomic variation. The results of this study support the view that arid desert soils constitute a largely unexplored repository of novel bacteria, while the high incidence of non-ribosomal peptide synthase genes in our isolates recommend them as promising material in screening for new bioactive natural products.     

盐碱环境放线菌多样性研究

放线菌因产生多种多样的生物活性物质而受到重视。但极端环境放线菌的研究甚少。采用DGGE、纯培养法,重点研究了新疆、青海及埃及的重盐碱环境的放线菌分布情况,种类组成,生物学特性。发现了1个新科,8个新属及30多个新种。从嗜(耐)盐碱放线菌筛选到许多带有PKS基因的菌株。认为极端环境放线菌是生物活性物质的重要来源;改进分离程序,分离未知放线菌,是放线菌多样性研究及开发利用的前提之一;并对极端环境放线菌研究作了论述。     

Draft genome sequence of an efficient antibiotic-producing industrial strain of Saccharomonospora azurea, SZMC 14600

Although certain rare actinomycetes have been recognized as prolific sources of bioactive natural products, their potential for producing biologically active metabolites still remains unexplored. With the aim of gaining global insights into the genetic background and the metabolic capability of Saccharomonospora azurea SZMC 14600, whole-genome sequencing was performed.     

Rapid detection of `rare' actinomycetes in environmental samples

Natural products continue to be a useful source of new leads for the pharmaceutical industry. Actinomycetes are prolific producers of natural products and one strategy to increase the possibility of discovering novel chemical entities is to screen actinomycetes considered 'rare' in the environment and previously under-represented in natural product screening collections. We describe a method using bacteriophage as a marker to detect these actinomycetes in environmental samples. This method allows samples to be pre-screened for the presence of target actinomycetes before lengthy isolation programmes are undertaken.     

Biodiversity and potentials of marine-derived microorganisms

The marine environment is a prolific resource for the isolation of less exploited microorganisms. As a matter of fact, in the sea, untapped habitats exist with unique characteristics. In addition, the potential contribution of marine sources to the discovery of new bioactive molecules was recently recognized. Biosearch Italia possesses a collection of about 40 000 microorganisms, isolated from different ecological niches. In the search of new bioactive entities, investigations were expanded to marine habitats including marine sediments and organisms. More then 800 microorganisms have been isolated. About half belong to fungal genera, the others being actinomycetes. The frequency of antibiotic activities produced by these marine strains has been determined. Initial data are encouraging: marine isolates produce antibiotic activities with frequencies comparable to terrestrial ones. These activities probably represent a mixture of novel metabolites and known products previously discovered from terrestrial isolates. Further investigations are ongoing to assess the novelty of these observed microbiological activities.     

Use of the method of enriching of soil samples with calcium carbonate for isolation of Actinomyces

Possible application of a modified procedure for treatment of soil samples with calcium carbonate under humid conditions to isolation of actinomycetes was studied. The procedure proved to be rather efficient in regard to increasing the number of the isolates including representatives of rare genera as compared with the routine methods. The number of microorganisms isolated from the soil samples treated with calcium carbonate under humid conditions was 2 orders higher than that from untreated soil samples. 1033 actinomycete cultures were isolated from the soil samples treated in accordance with the above procedure and only 597 cultures were isolated from the untreated soil samples. The antibiotic activity of the isolates was studied and their taxonomic position at the genus level was determined. The preliminary treatment of soil samples equally stimulated development of actinomycetes belonging to different genera. It is advisable that the described procedure for isolation of actinomycetes from soil samples in screening of cultures producing new antibiotics be used in combination with other selective methods of isolation.     

Isolation of new actinomycete strains for the screening of new bioactive compounds

In order to facilitate the discovery of novel bioactive compounds from microorganisms, various techniques for isolation of new actinomycete strains have been attempted. Studies of the vertical distribution of actinomycetes in soil, isolation of actinomycetes from desert soils or fallen leaves, selective isolation of Kitasatospora strains using novobiocin or Actinoplanes strains using the chemotactic method, and the use of gellan gum as a solidifying agent were carried out. We discovered 9 novel bioactive compounds from actinomycete strains isolated under unusual conditions, and proposed two new genera, five new species and one new subspecies.     

Actinophages as indicators of actinomycete taxa in marine environments

It is necessary to continue to screen for new metabolites and evaluate the potential of less known and new bacterial taxa so that new and improved compounds for future use against drug-resistant bacteria or for chemical modification may be developed. There has been considerable interest in the detection and identification of marine microorganisms since they have been reported to produce bioactive compounds ranging from antitumour to antibacterial and antiviral agents. In this study, an improved technique that involves the exploitation of marine actinophages as indicators of the marine actinomycete taxa and uses marine bacteriophages as tools to reduce the numbers of common marine bacteria, which impedes the growth of rare actinomycetes on isolation plates, has been applied. This technique reduced the numbers of colony forming units of unwanted bacteria on isolation plates and hence increased the chances of detecting novel marine actinomycete genera for isolation and subsequent screening for antiviral activity.     

Rare genera of actinomycetes as potential producers of new antibiotics

A literature survey covering more than twenty-three thousand bioactive microbial products including eight thousand antiinfectives demonstrated the increasing relevance of the so called 'rare' actinomycetes as a source of new antibiotics. Past and present efforts in the isolation of rare actinomycetes have enriched the Biosearch Italia Strain Collection with more than twenty thousand strains, showing that, when selective isolation methods are developed and extensively applied, some genera, such as Actinomadura, Actinoplanes, Micromonospora, Microtetraspora, are not rare at all and can be recovered from many soil samples. The current focus is on the isolation of members of Streptosporangiaceae family, given their promising chemical diversity.     

Rare genera of actinomycetes as potential producers of new antibiotics

A literature survey covering more than twenty-three thousand bioactive microbial products including eight thousand antiinfectives demonstrated the increasing relevance of the so called 'rare' actinomycetes as a source of new antibiotics. Past and present efforts in the isolation of rare actinomycetes have enriched the Biosearch Italia Strain Collection with more than twenty thousand strains, showing that, when selective isolation methods are developed and extensively applied, some genera, such as Actinomadura, Actinoplanes, Micromonospora, Microtetraspora, are not rare at all and can be recovered from many soil samples. The current focus is on the isolation of members of Streptosporangiaceae family, given their promising chemical diversity.     

Discovery of novel metabolites from marine actinomycetes

Recent findings from culture-dependent and culture-independent methods have demonstrated that indigenous marine actinomycetes exist in the oceans and are widely distributed in different marine ecosystems. There is tremendous diversity and novelty among the marine actinomycetes present in marine environments. Progress has been made to isolate novel actinomycetes from samples collected at different marine environments and habitats. These marine actinomycetes produce different types of new secondary metabolites. Many of these metabolites possess biological activities and have the potential to be developed as therapeutic agents. Marine actinomycetes are a prolific but underexploited source for the discovery of novel secondary metabolites.     

Microbial technologies for the discovery of novel bioactive metabolites

Soil microbes represent an important source of biologically active compounds. These molecules present original and unexpected structure and are selective inhibitors of their molecular targets. At Biosearch Italia, discovery of new bioactive molecules is mostly carried out through the exploitation of a proprietary strain collection of over 50000 strains, mostly unusual genera of actinomycetes and uncommon filamentous fungi. A critical element in a drug discovery based on microbial extracts is the isolation of unexploited groups of microorganisms that are at the same time good producers of secondary metabolites. Molecular genetics can assist in these efforts. We will review the development and application of molecular methods for the detection of uncommon genera of actinomycetes in soil DNA and for the rapid dereplication of actinomycete isolates. The results indicate a substantial presence in many soils of the uncommon genera and a large diversity of isolated actinomycetes. However, while uncommon actinomycete strains may provide an increased chance of yielding novel structures, their genetics and physiology are poorly understood. To speed up their manipulation, we have developed vectors capable of stably maintaining large segments of actinomycete DNA in Escherichia coli and of integrating site specifically in the Streptomyces genome. These vectors are suitable for the reconstruction of gene clusters from smaller segment of cloned DNA, the preparation of large-insert libraries from unusual actinomycete strains and the construction of environmental libraries.     

Isolation of antibiotic-producing Actinomycetes from soil samples exposed to UV light

The use of nonroutine means in isolation of microorganisms from natural substrates extended the possibilities of detecting new cultures which often appear to be producers of previously unknown antibiotics. A new procedure for isolating actinomyces of definite groups was developed. It implies preliminary exposure of soil suspensions to UV light. With the use of the procedure, 2539 strains of actinomycetes belonging to different genera were isolated. There was a marked decrease after the irradiation in isolation of cultures belonging to Streptomyces, a genus most widely distributed in nature and studied in detail while isolation of cultures belonging to other genera, promising as sources of novel antibiotics, increased. Micromonospora, Amycolatopsis and Nocardia proved to be the most stable to the effect of UV light. With the use of the procedure it is possible to increase 2-3-fold isolation of cultures belonging to Micromonospora, a genus known as a producer of many antibiotics including those used clinically.     

广西北部湾茅尾海红树林生境放线菌分离培养基的比较

【背景】红树林生境拥有丰富的微生物资源,分离获得更多的纯培养放线菌为新型抗生素的发现提供菌种资源。【目的】使用新型放线菌分离培养基,发掘广西北部湾茅尾海红树林生境放线菌资源,评估新型放线菌分离培养基分离效果。【方法】设计出新型放线菌分离培养基——椰子汁-海藻糖培养基,对广西北部湾茅尾海红树林根际土壤和红树林根皮放线菌进行分离。基于分子生物学鉴定方法,对获得的纯培养放线菌进行多样性分析。【结果】从红树林根际土壤样品中分离获得65株放线菌,分布在5个目10个科15个属,使用YIM171培养基分离到7个属,MA培养基分离到5个属,椰子汁-海藻糖培养基分离到11个属,其中包括4株潜在新种;从红树林根皮样品中分离获得19株放线菌,分布在4个目7个科10个属,使用YIM171和椰子汁-海藻糖培养基分别分离到7个属,包括4株潜在新种;使用椰子汁-海藻糖培养基在红树林生境两类样品中获得3株潜在新种。【结论】广西北部湾茅尾海红树林根际土壤和根皮中放线菌多样性丰富,使用椰子汁-海藻糖培养基分离放线菌效果较佳,可用作放线菌的分离培养基。     

Myxobacteria isolated in Israel as potential source of new anti-infectives

AIMS: To evaluate the patterns of the production of antimicrobial compounds by Israeli myxobacteria newly isolated from soil samples and barks by a battery of isolation and purification methods. METHODS AND RESULTS: A total of 100 myxobacteria belonging to five of the 12 described genera, were isolated from 48 soil and 45 tree bark samples collected in different areas inside the State of Israel. Four isolation methods based on the peculiar metabolic and cell cycle aspects of myxobacteria, were combined with purification procedures and optimization of cultivation conditions. Ninety-seven strains were fermented and screened for antimicrobial activities. Production of antimicrobial activities was detected in 62 isolates. More than 50% of the collection (54 strains) was able to inhibit Escherichia coli growth. CONCLUSIONS: The results of this study support the idea that myxobacterial strains can be isolated from particular habitats and then cultivated and screened for their capacity to produce secondary metabolites endowed with antibacterial and antifungal activities. Myxovirescin, a typical poliketide myxobacterial antibiotic, has been identified in one Israeli isolate. Althiomycin, a thiazolyl peptide, which inhibits prokaryotic protein synthesis, usually produced by actinomycetes, was detected in three strains selected in this study. SIGNIFICANCE AND IMPACT OF THE STUDY: The results confirm that myxobacteria are prolific producers of a variety of bioactive secondary metabolites including antibacterial and antifungal compounds, being their high frequency of anti-Gram-negative activities particularly appealing for the current anti-infective research. So far their screening has often been hampered because their isolation is time-consuming and are quite difficult to handle and cultivate. In this paper we demonstrate that a proper combination of isolation, purification and cultivation methods allow their pharmaceutical exploitation.     

Culturable rare Actinomycetes: diversity, isolation and marine natural product discovery

Rare Actinomycetes from underexplored marine environments are targeted in drug discovery studies due to the Actinomycetes’ potentially huge resource of structurally diverse natural products with unusual biological activity. Of all marine bacteria, 10 % are Actinomycetes, which have proven an outstanding and fascinating resource for new and potent bioactive molecules. Past and present efforts in the isolation of rare Actinomycetes from underexplored diverse natural habitats have resulted in the isolation of about 220 rare Actinomycete genera of which more than 50 taxa have been reported to be the producers of 2,500 bioactive compounds. That amount represents greater than 25 % of the total Actinomycetes metabolites, demonstrating that selective isolation methods are being developed and extensively applied. Due to the high rediscovery rate of known compounds from Actinomycetes, a renewed interest in the development of new antimicrobial agents from rare and novel Actinomycetes is urgently required to combat the increasing number of multidrug-resistant human pathogens. To facilitate that discovery, this review updates all selective isolation media including pretreatment and enrichment methods for the isolation of marine rare Actinomycetes. In addition, this review demonstrates that discovering new compounds with novel scaffolds can be increased by intensive efforts in isolating and screening rare marine genera of Actinomycetes. Between 2007 and mid-2013, 80 new rare Actinomycete species were reported from marine habitats. They belong to 23 rare families, of which three are novel, and 20 novel genera. Of them, the family Micromonosporaceae is dominant as a producer of promising chemical diversity.     

辐射污染区土壤中放线菌的分离及多样性

从辐射污染区采集42份土样, 分别采用6种分离培养基进行放线菌的分离, 共获得152株放线菌。经形态、核糖体DNA扩增片段限制性内切酶(Amplifed ribosomal DNA restriction analysis, ARDRA)分析比较, 选取其中的60株进行16S rRNA基因测序。通过序列比对、聚类分析, 60株菌分布在放线菌纲中的12个属, 链霉菌属占大多数, 有大量稀有放线菌, 这表明辐射污染区具有较丰富的放线菌属种多样性。