南海鏈霉菌SCSIO 1635中抗霉素類化合物的分離鑒定

李蘇梅,田新朋,牛四文,張文軍,張 偲,鞠建華,張長(zhǎng)生

中國(guó)科學(xué)院南海海洋研究所海洋生物資源可持續(xù)利用重點(diǎn)實(shí)驗(yàn)室海洋微生物研究中心廣東省海洋藥物重點(diǎn)實(shí)驗(yàn)室,廣州510301

南海鏈霉菌SCSIO 1635中抗霉素類化合物的分離鑒定

李蘇梅,田新朋,牛四文,張文軍,張 偲,鞠建華,張長(zhǎng)生*

中國(guó)科學(xué)院南海海洋研究所海洋生物資源可持續(xù)利用重點(diǎn)實(shí)驗(yàn)室海洋微生物研究中心廣東省海洋藥物重點(diǎn)實(shí)驗(yàn)室,廣州510301

我們從南海海底沉積環(huán)境分離了一株放線菌SCSIO 1635,經(jīng)16S r DNA的序列分析將該株菌鑒定為鏈霉菌屬。我們從該菌的發(fā)酵液中分離得到了4個(gè)化合物,經(jīng)質(zhì)譜和核磁共振波譜解析,確定為抗霉素類化合物:異構(gòu)體antimycin A1a和A1b(1)、deisovalerylblastmycin(2)、kitamycin A(3)和antimycin A9(4)。

南海沉積環(huán)境;海洋放線菌;海洋微生物天然產(chǎn)物;鏈霉菌;抗霉素

Abstract:The strain SCSIO 1635 was isolated from marine sediment of the South China Sea,and identified as a member of Streptomyces according to the 16S rDNA sequence.Four compounds were isolated from Streptomyces sp.SCSIO 1635. The compounds were found to be structurally-related to antimycins by detailed analyses ofMS and NMR spectroscopic data,and were identified as antimycin A1aand A1b(1),deisovalerylblastmycin(2),kitamycin A(3),and antimycin A9(4),respectively.

Key words:marine sediments of South China Sea;marine actinomycetes;marine microbial natural products;Streptomyces;antimycins

Introduction

Marine microorganisms are rich in species diversity,genetic diversity and functionality diversity due to their unique living environment.Especially,marine actinomycetes are emerging as the most important new sources for novel drug discovery and have produced lots of secondary metabolites possessing excellent bioactivities, such as the anticancer compound salinosporamide A (NPI-0052)and the antibacterial compound abyssomicin C[1,2].The unusual productivity of novel compounds from marine actinomycetes shifts great interests of microbiologists and chemists from the land to the ocean[3].In recent years,more and more new genera and species of marine actinobacteria were describe from the South China Sea[4-6],suggesting South China Sea to be a rich source for exploring new species and new compounds.During our search of bioactive secondary metabolites from marine actinomycetes isolated from oceanic bottom sediments of South China Sea,the strain SCSIO 1635 was found to exhibit potent inhibitory activities to several tumor cells(data not shown).Herein we describe the identification of the strain as the genus of Streptomyces,and the isolation and structural elucidation of 4 antimycin-related compounds from this strain.Thus,we provided a new marine Streptomyces species capable of producing antimycins.

Experimental

General

1H,13CNMR and 2D NMR spectra were recorded on a Bruker AV-500 MHz NMR spectrometer with tetramethylsilane(TMS)as internal standard.Mass spectral data were obtained on an LCQDECA XP HPLC/MS spectrometer for ESIMS.Materials for column chromatography(CC)were silica gel(100-200 mesh;300-400 mesh;Jiangyou Silica gel development,Inc.,Yantai,P.R.China),Sephadex LH-20(40-70μm;Amersham Pharmacia Biotech AB,Uppsala,Sweden),Preparative Thin-Layer-Chromatography(TLC,0.3-0.4 mm)was conducted with precoated glass plates(silica gel GF254,Yantai).

Stra in isolation

The strain SCSIO 1635 was isolated from a sed iment sample collected fromSouth China Sea(E 113° 441320′,N 21°14.773′)at the depth of 65 m in September 2006,and deposited in the type culture collection of RNAM Center for Marine Microbiology,CAS, South China Sea Institute of Oceanology,Chinese A-cademy of Sciences,Guangzhou,China.

Identification of the stra in SCSI O 1635

Genomic DNA isolation,PCR amplification of 16S r DNA,sequence comparison,and phylogenetic tree construction were performed as described previously[6].

Fermentation and isolation

The strain SCSIO 1635 was cultured at 28℃for two days in 30 mL AM4 medium(soybean 20 g/L,peptone 2 g/L,glucose 20 g/L,starch 5 g/L,yeast extract 2 g/ L,NaCl 4 g/L,K2HPO40.5 g/L,MgSO4·7H2O 0.5 g/L,CaCO32 g/L,sea salt 30 g/L,adjusted to pH 718)in a 250 mL triangular flask(with a total of 30 such flasks),then the 30 mL precultures were transferred to 250 mL AM4 medium in a 1-L triangular flask (with a total of 30 such flasks),and were cultured at 28℃for 7 days.The fermentation broths(7.5 L) were filtrated by gauze.The mycelia were first extracted 3 times by acetone(3 L in total)and then by butanone(2 L in total)for 4 times.The filtrates were exhaustively extracted 5 times by butanone(25 L in total).The butanone phases were combined and dried by vacuum to obtain the crude extracts(12.7 g).The crude extracts were subjected to silica gel column chromatography(100-200 mesh,200 g)and were eluted with chlorofor m/methanol(100∶0 to 0∶100)to produce 6 fractions(Fr.1 to Fr.6).Fr.3(121.6 mg) was subjected to Sephadex LH-20 column chromatography(30 g)and was eluted with chloroform/methanol (1∶1)to afford 2 fractions(Fr.3-1 and Fr.3-2).Fr. 3-2(44.8 mg)was subjected to preparative TLC on a silica gel plate(20×20 cm)and was developed with chloroform/methanol(10∶1)to obtain 1(4.3 mg). Fr.4(247.8 mg)was chromatographed on a silica gel column(300-400 mesh,100 g)and was eluted with petroleum ether/ethyl acetate(8∶1 to 1∶1)to get 3 fractions of Fr.4-1,Fr.4-2 and Fr.4-3.Fr.4-2(75.6 mg)was separated by Sephadex LH-20(30 g)and was eluted with chloroform/methanol(1∶1)to afford Fr.4-2-1(10.1 mg).Fr.4-2-1 was loaded on silica gel plate(20×20 cm)and was developed with chlorofor m/methanol(10∶1)to afford 2(3.6 mg).Fr.4-1 (29.3 mg)was subjected to Sephadex LH-20(20 g) and eluted with chloroform/methanol(1∶1)to afford Fr.4-1-1(15.1 mg).Fr.4-1-1 was further separated on a silica gel plate(20×20 cm),developing with chloroform/methanol(10∶1),to afford compounds 3 (2.6 mg)and 4(6.6 mg).

Results and Discussion

The partial 16S rDNA sequence of the strain SCSIO 1635 was PCR amplified,sequenced and submitted to GenBank.The accession number is HM116843.NCB I Blast searching results showed that the new isolate had highest similarities to Streptomyces violascensISP 5183 (9917%),Streptomyces hydrogenans NBRC 13475T (9914%),Streptomyces odorifer DS M40347T (9912%),Streptomyces albidoflavusDS M40455T (99.2%).The phylogenetic tree generated by a neighbor-joining method clearly revealed the evolutionary relationship of the strain SCSIO 1635 to a group of Streptomyces species(Fig.1),indicating this strain to be a member of theStreptomyces genus.

Fig11 Phylogenetic dendrogram of the stra in SCSI O 1635Tand its closest relatives reconstructed by the neighbor-join ing method based on 16S rDNA sequences

ture of 1a and 1b,Fig.2)was established by spectroscopic data of MS and 2D NMR and comparisons with reference[7].And compounds 2-4(Fig.2)were identified by directly comparing NMR data with known compounds in literatures[8-12].

Compound 1Colorless oil.The molecular for mula was deduced asC28H40N2O9on the basis of ESI-MS data(m/z571[M+Na]+and m/z547[M-H]-).The 1D and 2D NMR data of 1 were shown in Table 1. Comparing our data with the reference[7],we found that 1 was almost identical to antimycin A1,with a slight difference in the proportion of A1aand A1b.The percentage of A1bwas 20%in the reference,however, the value was 42%in compound 1.

Fig12 Structures of compounds 1-4

Structure of the complex compound 1(an is omermix

Table 1 1D and 2D NM R(500 M Hz)spectral data for ant imycin A1aand A1bin CDCl3(δppm,JHz)

Compound 2Colorless oil.Its molecular for mular was deduced asC21H28N2O8on the basis of ESI-MS data(m/z459[M+Na]+and m/z435[M-H]-)11HNMR(CD3OD,500MHz)δ:8137(1H,s,H-1),8128 (1H,d,J=810 Hz,H-3),7172(1H,d,J=810 Hz, H-5),6195(1H,t,J=810 Hz,H-4),5165(1H,t,J =710 Hz,H-9),5134(1H,d,J=710 Hz,H-10), 4179(1H,dt,J=610,915 Hz,H-15),3143(1H,t, J=1010 Hz,H-14),2133(1H,dt,J=310,1010 Hz, H-13),1165(2H,m,H-18),1143(3H,d,J=610 Hz,H-16),1133(2H,m,H-20),1125(2H,m,H-19),0194(3H,t,J=715 Hz,H-21)113C NMR (CD3OD,125 MHz)δ:16212(d,C-1),12811(s,C-2),12617(d,C-3),11917(d,C-4),12413(d,C-5),11519(s,C-6),15214(s,C-7),17013(s,C-8),5513 (d,C-9),7214(d,C-10),1818(q,C-11),17617(s,C-12),5317(d,C-13),7811(d,C-14),7719(d,C-15), 1514(q,C-16),17112(s,C-17),2918(t,C-18),2317 (t,C-19),3017(t,C-20),1412(q,C-21)1The1H and13CNMR data of compound 2 were identical to those of deisovalerylblastmycin in literatures[8,9],thus 2was identified as deisovalerylblastmycin 1

?

Compound 3Colorless oil1Its molecular for mular was deduced as C23H32N2O8on the basis of ESI-MS data(m/z487[M+Na]+and m/z463[M-H]-)11HNMR(CDCl3,500 MHz)δ:12185(1H,s,OH-6), 8155(1H,d,J=810 Hz,H-3),8150(1H,s,H-1), 7194(1H,s,NH-1),7125(1H,d,J=810 Hz,H-5), 7109(1H,d,J=715 Hz,OH-8),6192(1H,t,J=810 Hz,H-4),5171(1H,penta,J=710 Hz,H-10),5125 (1H,t,J=718 Hz,H-9),4187(1H,dd,J=615,915 Hz,H-15),3160(1H,m,H-14),2135(1H,dt,J= 218,1013 Hz,H-13),1159(2H,brs,H-18),1146 (3H,d,J=615 Hz,H-16),1131(3H,d,J=618 Hz, H-11),1127-1130(8H,m,H-19-22),0187(3H,t,J =710 Hz,H-23)113C NMR(CDCl3,125 MHz)δ: 15910(d,C-1),12714(s,C-2),12418(d,C-3), 11910(d,C-4),12012(d,C-5),11217(s,C-6),15017(s,C-7),16915(s,C-8),5318(d,C-9),7017 (d,C-10),1510(q,C-11),17410(s,C-12),5212 (d,C-13),7714(d,C-14),7617(d,C-15),1814 (q,C-16),17011(s,C-17),2819(t,C-18),2215 (t,C-19),2712(t,C-20),3116(t,C-21),2911(t, C-22),1410(q,C-23)1Comparing the1H and13C NMR data with references[10],3 was determined to be kitamycin A1

Compound 4Colorless oil1Its molecular for mular was deduced as C29H34N2O9on the basis of ESI-MS data(m/z577[M+Na]+and m/z553[M-H]-)11HNMR(CDCl3,500 MHz)δ:8155(1H,d,J=810 Hz,H-3),8150(1H,s,H-1),7134(1H,d,J=618 Hz,H-26,28),7129(1H,d,J=618 Hz,H-25,27, 29),7124(1H,d,J=810 Hz,H-5),6192(1H,t,J= 810 Hz,H-4),5173(1H,dd,J=618,1410 Hz,H-10),5129(1H,t,J=715 Hz,H-9),5108(1H,t,J= 918 Hz,H-14),4198(1H,dd,J=615,918 Hz,H-15),3166(2H,s,H-23),2149(1H,dd,J=218, 1110 Hz,H-13),1159(1H,m,H-18,19),1130(1H, d,J=618 Hz,H-11),1116(1H,m,H-20),1115 (3H,d,J=615 Hz,H-16),1115(1H,m,H-19), 1106(1H,m,H-20),0181(3H,t,J=710 Hz,H-21).13CNMR(CDCl3,125MHz)δ:15910(d,C-1), 12715(s,C-2),12419(d,C-3),11910(d,C-4), 12011(d,C-5),11216(s,C-6),15017(s,C-7), 16914(s,C-8),5317(d,C-9),7110(d,C-10), 1510(q,C-11),17219(s,C-12),5011(d,C-13), 7518(d,C-14),7418(d,C-15),1718(q,C-16), 17011(s,C-17),2812(t,C-18),2913(t,C-19), 2214(t,C-20),1318(q,C-21),16916(s,C-22), 4116(t,C-23),13311(s,C-24),12912(d,C-25, 29),12818(d,C-26,28),12716(d,C-27)1Compound 4 was identified as antimycin A9by comparing the1H and13C NMR data with references[11,12]1

Antimycins are a series of antibiotics possessing antibacterial,anti-fungal,anthelmintic,anti-tumor and mitochondrial respiration inhibiting bioactivities[13]1 Antimycin A1(1)exhibits angiogenesis inhibiting activities and has been used as a tool in studying cell apoptosis[14].Antimycin A1(1)was also commercially available as a fish eradicant[15,16].Deisovalerylblastmycin(2)was weakly active against some bacteria and fungi[8].Kitamycin A(3)was found to inhibit plant growth[10].Antimycin A9(4)showed potent nematocidal and insecticidal activities[11].Thus,antimycinlike compounds have very wide applications.In the past 60 years,over 30 antimycin-like compounds have been described from microorganis ms,however,most producerswere isolated from soil samples[8,10,11,17-27]. Until very recently,3 marine-derived or mangrove endophytic actinomycetes were also found to produce antimycins[25,27].Our findings in this paper presented another new marinemicrobial source capable of producing this important class of bioactive compounds.

AcknowledgementsWe are grateful to Ms.Xiao,Ms. Sun,and Mr.Li of South China Sea Institute ofOceanology,CAS for recording NMR data,and Mr.Liu of South China Botanical Garden,CAS forMS data.

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Antimycins from Marine Strep tomycessp.SCSIO 1635 from the South China Sea

LI Su-mei,TIAN Xin-peng,NIU Si-wen,ZHANGWen-jun,ZHANG Si,JU Jian-hua,ZHANG Chang-sheng*
CAS Key Laboratory of Marine B io-resources Sustainable U tilization,RNAM Center forM arineM icrobiology,CAS,Guangdong Key Laboratory of Marine Materia Medica,South China Sea Institute of Oceanology,Chinese Academy of Sciences,Guangzhou 510301,China

Q936;R284.1

A

1001-6880(2011)01-0010-06

Received May 10,2010;Accepted July 30,2010

Foundation item:This research was supported by the Funds of the Chinese Academy of Sciences for Key Topics in Innovation Engineering (KZCX2-Y W-216,KSCX2-Y W-G-065,KSCX2-Y W-G-073),Natural Science Funds of South China Sea Institute of Oceanology for Young Scholar(SQ200903),Funds of Frontier Areas of SCSIO (LYQY200805),Open Project Program of Key Laboratory of Marine Bio-resources Sustainable Utilization(LMB091013).

*Corresponding authorTel:86-20-89023038;E-mail:czhang2006@ gmail.com