Microbial symbionts play important roles in food digestion and absorption, immunity, pathogens resistance, and health maintaining of their hosts by coevolution. To provide new sources for discovering new leader compounds of drugs, the diversity and bioactivities of cultivable actinobacteria from animal feces have been studied. 31 species of animal fecal samples were collected fromYunnanWildAnimalPark. The purified cultures of actinobacteria were isolated from these samples by using 5 media. The 16S rRNA gene sequences of 528 selected strains were determined, the phylogenetic analysis was carried out, and anti-microbial and anti-tumor activities were determined. 35 genera (including a new genus, Enteractinococcus) of actinobacteria from the 31 species of animal feces were identified. Some strains had high anti-tumor and antimicrobial activities. More than 50 secondary metabolites were isolated and identified, a novel bioactive macrolactam polyketide glycoside, Sannastatin, was found. Nine fecal streptomycete strains were fermented respectively, blended to the microbial manure, and used to prophylaxis and treatment of soil-borne disease of notoginseng in field. The incidence rate of the disease was lower 81% than agricultural chemicals. Fecal actinobacteria, a possibility as a new source for discovering drug leader, agricultural chemicals and other industry products, will be discussed.
Animal intestinal and fecal microorganisms (Fecal Microbiota) have been studied for decades [
Market demand for new drugs in whole world is extremely urgent and extensive due to fast extension of stubborn disease (cancer, AIDS, HIV) and common ailment (hypertension, diabetes and Hyperlipidemia), germination of new disease can not been seeing the cause, and the fast spreading of antibiotic resistant pathogens [13,14].
Actinomycetes (Actinobacteria) have been paid a great attention owing to their production of various natural drugs and other bioactive metabolites including antibiotics, enzyme inhibitors and enzymes. Over 22,000 bioactive secondary metabolites (including antibiotics) were published in the scientific and patent literature, and about a half of them were produced by actinomycetes. About 150 antibiotics have being applied in human therapy and agriculture now; 100 - 120 of them were produced by actinomycetes [
Actinomycete, as a pathogen of human and animal, had been studied widely before [
Fresh fecal samples were collected from selected 31 species of animals which live in the Yunnan Wild Animal Park, Kunming, China. The samples were put in sterile dish immediately, and dried for 10 days at 28˚C. 2 g of each dried sample were pre-treated at 80˚C for 1 hour, put in 18 ml sterile water with 0.1% Na4P2O5, and shaken for 60 min at 220 rpm/min. The suspension was diluted from 10−1 to 10−8.
Five media [
All of media were supplemented with filter 4 groups of sterilized mixture or single solutions: 1) 50 mg cycloheximide, 50 mg nystatin, 20 mg nalidixic acid, 3 mg penicillin; 2) 100 mg cycloheximide, 100 mg nystatin, 40 mg nalidixic acid, 5 mg penicillin; 3) 50 mg K2Cr2O7, 5 mg penicillin; 4) 75 mg K2Cr2O7, 5 mg penicillin for 1000 ml medium, as inhibitors against fungi and Gram negative bacteria.
Plate dilution method was used for isolating actionbacteria from the sample suspension, then the plates were cultivated for 7 to 35 days at 28˚C, then take count of colonies, and pick up actinobacteria to slant of the same isolation medium.
Total 2049 pure strains were isolated from the 31 animal feces samples, and were cultured on ISP media 2 and 3, at 28˚C for 7 - 14 days, then observed with light microscope one by one inspection. 528 strains of them were selected after throwing out the duplicates strains based on the same morphological and cultural characteristics [
Strains were fermented using the broth (YIM 61: soybean meal 20 g, glucose 10 g, peptone 4 g, K2HPO4 1 g, MgSO4·7H2O 0.5 g, NaCl 1 g, CaCO3 2 g, water 1000 ml, pH 7.8), shaking for 7 days at 28˚C. Agar diffusion method was used for determining the anti-microbial activities against Bacillus subtills (DSM 3258T), Staphylococcus aureus (DSM 30501T), Mycobacterium tuberculosis avium (un-pathogen from Dr. Lixin Zhang), Candida glabrata (DSM 24506T) and Aspergillus niger (IAM 190).
Activities of 19 enzymes were determined by using API ZYM kit (biomèrieux). Hydrolyzation of cellulose and chicken hair was determined with Shirling and Gottlieb’s methods.
Biosynthesis genes of type I and II polyketide synthases (PKS), nonribosomal peptide synthase (NRPS) and polyene cytochrome P450 hydroxylase (CYP) were determined by PCR [26,27]. 3,5-amino-hydroxyl-Benzoic acid biosynthesis gene (AHBA) was determined using the method described by Zhang et al. [
DNA preparations were used as template DNA for Taq Polymerase. Reactions were performed in a final volume of 50 μl containing 0.4 μM of each primer, 0.2 mM of each of the four dNTPs (Roche), 5 μl of extracted DNA, 1 U Taq polymerase (Appligene) with its recommended reaction buffer and 10% of DMSO. NRPS, PKS-I and PKS-П amplifications were performed in a Peltier Thermal Cycler PTC-200, according to the following profile: 5 min at 95˚C and 35 Cycles of 96˚C 1 min, 60˚C 30 s, 72˚C 45 s, and 5 min at 72˚C, followed by 10 min at 72˚C. The amplification products were analyzed by electrophoresis in 1% (w/v) agarose gels stained with ethidium bromide.
Ten species of animal feces samples were used to test the selective isolation effect of five media for actinobacteria. As a result, medium YIM 212, YIM 171 and HV showed better isolation effect, which obtained 176, 169 and 164 strains of actinobacteria respectively. Totally, 746 pure cultivated strains of actinobacteria were isolated. The strain richness of each samples are quite different, 156 and 140 strains were isolated from Vicugna pacos and Rhinoceros sondaicus samples respectively, but only 20 and 36 strains were isolated respectively from Testudo elephantopus and Viverra zibetha (
The combination and concentration of different kinds of inhibitors were tested several times for isolating actinobacteria from feces. As a result, media containing 50 mg/L K2Cr2O7 and 5 mg/L penicillin sodium or 50 mg/L nystatin, 20 mg/L nalidixic acid and 5 mg/L penicillin sodium showed better inhibiting effect, on which most Gram negative bacteria were inhibited and no fungi grown. Different dilutions of sample suspension were tested with YIM 171 medium many times. The optimum dilutions of fecal suspension for isolating actinobacteria were 10−5, 10−6, and 10−7, in which about 17 to 233 colonies grown on the plates, and it was very easy to pick up single colony (
CK = without inhibitors at dilution 7th; *Can not pick up the single colony of actinomycetes.
16S rDNA sequences of 528 pure cultivated strains from fecal samples of 31 species of animals were determined. The phylogenetic analysis was carried out and the strains were identified at a genus level. Totally, 35 genera of actinobacteria were identified. They were Agrococcus, Arthrobacter, Cellulosimicrobium, Cellulomonas, Citricoccus, Corynebacterium, Curtobacterium, Dietzia, Enteractinococcus, Gordonia, Isoptericola, Janibacter, Jiangella, Kocuria, Labedella, Leucobacter, Microbacterium, Micrococcus, Micromonospora, Mycobacterium, Nocardia, Nocardiopsis, Oerskovia, Patulibacter, Promicromonospora, Pseudonocardia, Rhodococcus, Saccharomonospora, Salinibacterium, Sanguibacter, Streptomyces, Tsukamurella, Verrucosispora, Williamsia and Yaniella. The 35 genera of actinobacteria belong to 18 Families of two orders, Order Actinomycetales and Order Solirubrobacterales. Order Actinomycetales included 7 Suborders, Micrococcineae (17 genera), Corynebacterineae (9 genera), Pseudonocardineae (2 genera), Streptomycineae (1 genus), Streptosporangineae (1 genus), Micromonosporineae (2 genera), and Jiangellineae (1 genus). No Suborder Actinomycineae, Propionibacterineae, Frankineae and Glycomycineae were isolated.
Continued
Members of Genus Streptomyces, the first preponderant microbes, were isolated from all samples, and cfu (colony-forming units)/g dried sample were 2 × 105 to 176 × 107 in different fecal samples. Thirty-nine species of the genus were identified, and 21 un-identified. Streptomyces albus, S. albidoflavus, S. griseus, S. hygroscopicus, S. rutgersensis, S. tendae, and S. violaceoruber etc. occurred at a high frequency.
Members of Rhodococcus, the second preponderant microbes, were isolated from 22 species of animal fecal samples, and they are the most at amount. Rhodococcus coprophilus which is an emerging tool in the microbial source tracking “tool-box”, Rh. corynebacterioides, Rh. corynebacterioides, Rh. equi, Rh. pyridinivorans and Rh. zopfii were occurred at a high frequency.
Members of Arthrobacter and Microbacterium were identified from 11 and 10 species of animal feces respectively. Kocuria was isolated from 5 species of animal feces. Micromonospora was isolated from feces of Ailuropoda melanoleuca, Elephas maximus and Anser anser domesticus; Nocardia only from Panthera tigris altaica.
Twelve genera of actinomycetes were isolated and identified in feces samples collected from Panthera tigris tigris. They belonged to ten Families, Cellulomonadaceae, Corynebacteriacea, Dietziaceae, Microbacteriaceae, Micrococcaceae, Nocardiacea, Nocardiopsaceae, Promicromonosporaceae, Pseudonocardineae and Streptomycetaceae. Streptomycetaceae occupied 64%, was preponderant, and secondly Micrococcaceae, 7% (Figures 1 and 2). Twelve genera of Actinobacteria were identified in feces samples of Ailuropoda melanoleuca, the genus Patulibacter belongs to Order Solirubrobacterales [
Only two genera of actinomycetes were isolated from Sttruthio camelus, Tragelaphus buxtoni, Python reticulates, and Xylocopa dissimilis. No members of Actinoplanes, Actinomadura, Streptosporangium and Thermamonospora which are distributed widely in soil and lake were isolated from the 31 feces.
Some members of rare actinobacteria, such as the genus Yaniella [
Twenty-five genera of other bacteria were isolated from these animal feces. They are Achromobacter, Ancylobacter, Bacillus, Bosea, Brevundimonas, Brochothrix, Comamonas, Enterococcus, Flavobacterium, Kluyvera, Klebsiella, Kurthia, Lactcus, Lysobacter, Methylobacterium, Ochrobactrum, Paenibacillus, Planococcus, Planomicrobium, Pseudomonas, Rhizobium, Solibacillus, Sphaerobacter, Sphingobacterium, Stenotrophomonas (
Antimicrobial activities of 384 strains isolated from 22 species of animal feces were determined with agar diffusion method (
against Staphylococcus aureus; 23 strains (6%) against Mycobacterium tuberculosis; 76 strains (20%) against Candida albicans; 61 strains (16%) against Aspergillus niger. 13% to 55% of 47 strains, mainly Streptomyces, from Python reticulates had higher inhibition activities to all of the five tested microbes. Strains of anti-Mycobacterium tuberculosis were fewer, only 6%. Each 3 strains from Helarctos malayanus, Aceros undulatus and Pavo
cristatus feces have anti-microbial activities. These results showed that actinobacteria from animal feces have wide anti-microbial activities.
Antitumor activities of 238 fecal actinobacterial strains were determined by using HL60, HepG-2, Skov-3, A431, and K562 cell lines in vitro. A part of results were showed in
Enzyme activities of 233 strains were determined by using API ZYM Kit, biomèrieux (
90% of strains from Cervus elaphus, Giraffa camelopardalis, Vicugna pacos, Elaphurus davidianus and Oryx leucoryx were able to hydrolyze chicken hair. About 80% of strains from Giraffa camelopardalis, Equus burchelli and Oryx leucoryx were able to hydrolyze cellulose. Chicken hair hydrolyzation activity of the strains from Panthera tigris altaica and Ailuropoda melanoleuca, and cellulose hydrolyzation of the strains from Hypoblasts hoolock, Rhinopithecus bieti, Ailuropoda melanoleuca amd Elephas maximus were weaker (
Biosynthetic enzyme genes of five metabolites of 201 strains from 15 species of animal feces were analyzed by using specific primers. Amount 101 strains, 19, 15, 34 and 22 strains contained PKS I, PKS II, NRPS and CYP genes respectively. Large portion of the strains from Rhinopithecus bieti, Panthera tigris altaica, Cavnlvara zlrsidae, Vicugna pacos, Rhinoceros sondaicus and Pavo cristatus exist these four genes. None of these four genes had been detected in strains from Cervus Nippon and Equus burchelli. A biosynthetic enzyme gene of 3-amino- 5-hydroxybenzoic acid (AHBA) for ansamycins biosynthesis was determined, but no positive strains were detected. These results showed that fecal actinobacteria have biosynthetic enzyme gene of four metabolites, but not AHBA (
In our previous studies of pure cultivate actinobacteria, 17 genera were isolated from soil samples which collected from primeval forest in Grand Shangri-La, southwest China [
from tropical rain forests in Xishuangbanna, southwest China [
In this study, 35 genera of actinobacteria belong to two orders (covering 7 suborders) and 23 of other bacteria were isolated and identified from only 31 species of animal feces. Members of Streptomyces was the first preponderant microbe, cfu/g of dried samples were up to 109, and distributed in all of the 31 samples. Members of Rhodococcus, a kind of feces-phylic bacteria, were identified from 22 species of animal feces, and were the second widest distributions. Seventeen genera of Suborder Micrococcineae were isolated, which were the richest Suborder in diversity. These results indicated that, first, members of both genera Streptomyces and Rhodococcus were the widest distribution and the largest amount; second, composition of actinobacteria with Chemotype IV to IX [38,39] and globose and bacilliform shapes, specially suborder Microboccaceae, were the richest diversity, and occurred at a high frequency in most part of tested animal feces. These are distinct features of fecal actinobacterium community differing from those in soil and marine environment.
In our earlier studies of anti-microbial activities of actinomycetes, five indicator strains which mentioned above had been used. As a result, 12% to 15% of Streptomycetes and 5% to 12% of rare actinomycetes showed anti-microbial activities in the study of soil actinomycetes from three areas in Yunnan and Sichuan, Southwest China [
hair. These active symbiotic fecal actinobacteria should provide enormous benefits to host, such as improving food digestion and absorption, maintaining the balance of microbial ecological system in intestinal tract, providing various resistances to pathogens and tumor, improving health of hosts and so on.
Up to the present, more than 60 bioactive secondary metabolites have been isolated and characterized from some fecal actinomycete strains, including abkhazomycin, AI 77B, akashin A, alazopeptin, apigenin, candicidin, cosmomycin, desertomycin, desferrioxamine E, discodermolide, emodin, enopetin A/B, erythromycins, favo-fungin, geldanamycin, kasugamycin, kidamycins, leucomycin, longestin, panosialin-wA, puromycin, rutamycin, rhodomycinone, stigmast-5-en-3-O-b-D-glucopranoside, tirandamycin, vicenistatin, polyene macrolides etc. A part of these compounds was showed in
Nine streptomycete strains which showed the strongest inhibition activity against pathogens of notoginseng (Panax pseudo-ginseng var. Notoginseng) were selected from 2049 animal feces actinomycete strains. The nine strains were fermented respectively, blended to the microbial manure, and used to prophylaxis and treatment of soil-borne disease of notoginseng at field Wenshan, Yunnan for three years. The rate of incidence of the disease at the dosage of 30 g/m2 microbial manure was lower 81% than agricultural chemicals (
In conclusion, animal fecal actinobacteria, like those in soil, oceans, extreme environments and plants, has high diversity but different composition. Enormous unknown actinobacteria widely exist in animal feces. Therefore, animal fecal actinobacteria is important resources for developing novel antibiotics, anti-tumor agents, enzyme inhibitors, immunity inhibitor, agricultural chemicals, enzymes and other useful products. Both Streptomyces and Rhodococcus were the predominant genera and the widest distribution in animal feces. Genome sizes of these two genera are up to 9 × 107 base pairs, one of biggest genome in actinbacteria, and some species of them contains 20 or more natural product biosynthetic gene clusters [42-44]. We showed further a hypothesis that first, the function of actinomycetes in intestinal tract of hosts was played mainly through bioactive substances produced by members of the two genera; Second, secondary metabolites with bioactivities produced by fecal actionbacteria, except pathogen, should be no toxic or lower toxic to their hosts. Maybe these are the most important traits comparing with the microorganisms from other habitats.
Existence of Gram negative bacteria in a large number in animal feces is a main problem for isolation of fecal actinobacteria. In order to eliminate the trouble of Gram negative bacteria and fungi, and obtain much more unknown actinobacteria for discovering novel lead compounds, sampling and isolation methods are key points.
Based on many tests in our laboratory, first, fresh feces samples had to been dried at 25˚C - 28˚C for 7 to 10 days; second, pre-treatment of dried samples at 80˚C for 60 min has to be carried out before isolation; third, potassium bichromate 50 mg and 5 mg penicillin, or nystatin 50 mg, nalidixic acid 20 mg and 5 mg penicillin for 1000 ml medium, as inhibitors, have to be added in the isolation medium for inhibiting fungi and Gram negative bacteria; fourth, The dilution of samples should be 10−5, 10−6, and 10−7; fifth, YIM 212, YIM 171 and HV medium were better for isolation of actinobacteria from animal feces.
This research was supported by the National Natural Science Foundation of China (No. 30900002, 31270001 and 21062028), National Major scientific and technology special projects (2009ZX09302-003), National Institutes of Health USA (1P41GM086184-01A1). We thank Prof. H. Laatsch and Dr. S. X. Yang (University of Göttingen, Germany), Prof. G. L. Challis and Dr. L. J. Song (University of Warwick, UK) for analysis of bioactive metabolites. We thank Prof. Chenglin Jiang and Prof. M. Goodfellow for their guidance.