The Biosynthesis and Metabolism of Acarbose in Actinoplanes sp. SE 50/110: A Progress Report

Abstract

The α-glucosidase inhibitor acarbose produced by Actinoplanes sp. SE50/110 is a pseudotetrasaccharide, which consists of an unsaturated cyclitol (carba-sugar), 4-amino-4,6-dideoxyglucose and maltose. The cyclitol (valienol) and the 4-amino-4,6-dideoxyglucose are linked via an N-glycosidic (imino) bond, forming the so-called acarviosyl moiety, which is primarily responsible for the inhibitory effect on α-glucosidases. The gene cluster encoding the biosynthetic genes for the synthesis of acarbose (acb-genes) was sequenced and 25 open reading frames belonging to the acb-gene cluster were identified. Based on the analysis of the enzymes encoded by the acb-cluster, the biosynthesis and ecological role of acarbose is described. The gene cluster includes genes which encode: proteins for the synthesis of the cyclitol; the enzymes for the synthesis of dTDP-4-amino-4,6-dideoxyglucose; glycosyltransferases for the condensation reactions; ATP-dependent exporters and importers; extracellular starch degrading enzymes; and intracellular acarbose modifying enzymes. Acarbose has a dual role for the producer: it inhibits α-glucosidic enzymes of competitors and functions as a carbophor for the uptake of glucose or starch molecules.     

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.     

The pp60c-Src inhibitor PP1 is non-competitive against ATP

The C7-cyclitol 2-epi-5-epi-valiolone is the first precursor of the cyclitol moiety of the -glucosidase inhibitor acarbose in Actinoplanes sp. SE50. The 2-epi-5-epi-valiolone becomes phosphorylated at C7 by the ATP dependent kinase AcbM prior to the next modifications. Preliminary data gave evidences that the AcbO protein could catalyse the first modification step of 2-epi-5-epi-valiolone-7-phosphate. Therefore, the AcbO protein, the encoding gene of which is also part of the acbKMLNOC operon, was overproduced and purified. Indeed the purified protein catalysed the 2-epimerisation of 2-epi-5-epi-valiolone-7-phosphate. The chemical structure of the purified reaction product was proven by nuclear magnetic resonance spectroscopy to be 5-epi-valiolone-7-phosphate.     

Improved production of teicoplanin using adsorbent resin in fermentations

AIMS: To use adsorbent resins in fermentations to eliminate toxic effects on growth, reduce feedback repression of production and assist in recovery of teicoplanin. METHODS AND RESULTS: An adsorbent resin was added to the culture broth for the adsorption of teicoplanin. Amberlite XAD-16, Diaion HP-20, charcoal and silica gel were investigated as adsorbent resins. The adsorbed teicoplanin was extracted from the resin by 80% methanol after fermentation. Antibiotic activity was quantified by the disc-agar diffusion assay against Bacillus substilis, and qualitative evaluations were based on HPLC using YMC-Pack ODS-A column. Diaion HP-20 was the most effective adsorbent resin when added at a concentration of 5% (w/v) in the inoculation stage. CONCLUSIONS: Addition of Diaion HP-20 in fermentations eliminated toxic effects on growth and reduced feedback repression of teicoplanin by adsorption. There was a 4.2-fold increase in the quantities of teicoplanin. Addition of adsorbent assisted in the recovery of teicoplanin by reducing the recovery steps. SIGNIFICANCE AND IMPACT OF THE STUDY: The results of this study provide useful information for the production of teicoplanin, a glycopeptide antibiotic produced by Actinoplanes teicomyceticus. Addition of adsorbent in fermentation increased productivity of teicoplanin by more than five times.     

高产雷帕霉素的游动放线菌菌种的选育

以游动放线菌(Actinoplanes)BCLP-016为出发菌株,采用常压室温等离子体(ARTP)诱变技术对其孢子进行处理,并将三个不同时间处理的孢子悬液混合。稀释涂布后,根据菌株菌落形态挑取部分单菌落进行初筛,经发酵复筛后,筛选得到了一株雷帕霉素高产菌株ARTP-039,其雷帕霉素的产量可达到369.39mg/L,较出发菌株BCLP-016的产量256.86 mg/L,提高了43.81%。以筛选出的ARTP-039高产菌为出发菌株,进行传统的紫外诱变,选取高、中、低三个致死率相对应的时间对其孢子悬液进行处理,并基于核糖体工程的理论选取了链霉素、庆大霉素、利福平、氯霉素和红霉素五种抗性物质,进行抗性初筛。发酵复筛后,最终筛选得到了一株雷帕霉素高产菌株St8+Gen6+Rif9+Chl3+Er4-015,该菌株同时具有五种抗性。该菌株的摇瓶实验结果表明,发酵7d后,其雷帕霉素的产量可达到589.79mg/L,较出发菌株BCLP-016的产量,提高了129.61%,且其遗传稳定性良好。     

Identification of linear plasmid pAM1 in the flavonoid degrading strain Actinoplanes missouriensis(T) (DSM 43046)

By pulsed-field gel electrophoresis, a linear DNA element of about 100 kb was identified in Actinoplanes missouriensis(T) DSM 43046, which grows on the flavonoids hesperidin, rutin and quercetin, and which contains a CO forming quercetinase. Among six Actinoplanes species and strains tested, including A. globisporus(T) DSM 43857, A. philippinensis(T) DSM 43019, A. brasiliensis(T) DSM 43805, A. auranticolor(T) DSM 43031, and A. utahensis(T) DSM 43147, only the A. missouriensis strain exhibited such a genetic element. The linear plasmid, named pAM1, has proteins covalently attached to its 5'-ends like other linear replicons of actinomycetes. Attempts to cure pAM1 failed, however a mutant with reduced plasmid content was obtained, which showed reduced ability to degrade the flavonoid rutinosides rutin and hesperidin. Plasmid pAM1 is the first extrachromosomal genetic element identified in an Actinoplanes species and may be useful to develop genetic tools for biotechnologically important Actinoplanes strains.     

Maltodextrin-binding proteins from diverse bacteria and archaea are potent solubility enhancers

In the biosynthesis of the C7-cyclitol moiety, valienol, of the -glucosidase inhibitor acarbose in Actinoplanes sp. SE50/110 various cyclitol phosphates, such as 1-epi-valienol-7-phosphate, are postulated precursors. In the cell extracts of Actinoplanes SE50/110 we found a new kinase activity which specifically phosphorylates 1-epi-valienol; other C7-cyclitol analogs were only weakly or not phosphorylated. The purified product of the kinase reaction turned out to be 1-epi-valienol-7-phosphate in analyses by nuclear magnetic resonance spectroscopy. The enzyme seems not to be encoded by an acb gene and, therefore, plays a role in a salvage pathway rather than directly in the de novo biosynthesis of acarbose.     

Production of teicoplanin by a mutant of Actinoplanes teicomyceticus

Teicoplanin, a glucopeptide antibiotic, was produced by a mutant of Actinoplanes teicomyceticus at 300 mg l^–1 using mannose and yeast extract as carbon and nitrogen sources in flask culture and at 500 mg l^–1 in 5-l jar fermenter. Teicoplanin production was 25-fold higher than in the parent strain.     

Optimization of culture conditions and scale-up to plant scales for teicoplanin production by <Emphasis Type="Italic">Actinoplanes teichomyceticus</Emphasis>

This report describes the optimization of culture conditions for teicoplanin production by Actinoplanes teichomyceticus KCCM-10601, an identified high-teicoplanin-producing strain (US 2006/0134757 A1). Among the conditions tested, temperature, pH, and the dissolved oxygen tension (DOT) were key factors affecting teicoplanin production. When the temperature, pH, and DOT were controlled at 34 degrees C, 7.0 and 20-30%, respectively, a dry-cell weight of 42.8 g l(-1) and a teicoplanin production of 2.9 g l(-1) were obtained after 120 h of batch culture, corresponding to a specific teicoplanin content of 67.8 mg g-DCW(-1). Teicoplanin production was scaled-up from a laboratory scale (7-l fermenter) to a pilot scale (300 l) and a plant scale (5,000 l) using the impeller tip velocity (V tip) as a scale-up parameter. Teicoplanin production at the laboratory scale was similar to those at the pilot and plant scales. This is the highest report of pilot- and plant-scale production of teicoplanin.     

糖肽类抗生素替考拉宁研究进展

本文综述了目前临床上首选治疗多重耐药菌感染的糖肽类抗生素之一替考拉宁的研究进展,包括替考拉宁的结构、抗菌谱、作用机制、产生菌、发酵条件、分离提取和检测方法。