Two isomeric compounds from Streptomyces species and their antimicrobial activity

The chloroform extract of the culture filtrate of an isolated Streptomyces species upon chromatographic analysis had lead to the isolation of two isomeric compounds (I and II). The structure of the compounds was considered to be Stretomysone A (I) and Streptomysone B (II) by its spectral data. Both the compounds showed significant antimicrobial activity against tested pathogenic bacteria and fungus. The compounds seem to be first report of isomeric compound from Streptomyces species having antimicrobial activity. Article Info Received: 3 June 2010 Accepted: 17 July 2010 Available Online: 28 September 2010


Introduction
Microbial natural products still appear as the most promising source of the future antibiotics that society is expecting (Pelaez, 2006).Since the isolation of actinomycin in 1940 and streptomycin in 1944 by Waksman (Waksman and Woodruff, 1940;Schatz et al., 1944), the Actinomycetes have received tremendous attention of the scientists.Members of Streptomyces are a rich source of bioactive compounds, notably antibiotics, enzymes, enzyme inhibitors and pharmacologically active agents (Kazuki et al., 2005).About 75% of the known commercially and medically useful antibiotics are produced by Streptomyces (Sujatha et al., 2005).Waksman (Waksman, 1959) recognized the natural substrates that are ideal sources for the isolation of Actinomycetes.Among these, they are quite commonly found in soil, water and other environments (Ghanem et al., 2000).Owing to indiscriminate use of antibiotics and for various reasons the bacteria and other microorganisms are gaining resistance to the presently available antibiotics and pose a serious threat to the existence of human.Hence the search of new and more efficient antibiotics is a pressing need to time.As a part of our continuing studies of metabolites produced by microorganisms obtained soil samples collected throughout Bangladesh (Anisuzzaman, 2000), we isolated Streptomyces from soil sample and report herein the isolation of two isomeric compounds from the Streptomyces species and their antimicrobial activity.Dox broth alkaline medium at 37.5°C.The broth was separated from the mycelial mat on 8 th day to get the maximum yield of antibacterial activity.The culture filtrate then subjected to repeated chloroform extraction and the extract was evaporated under reduced pressure.The crude antibiotic fraction was resolved by thin layer chromatography (TLC), preparative TLC (Stahl, 1969) using the solvent system, n-hexane, chloroform and methanol in a ratio of 7:5:1 (Stahl, 1969) and obtained on large scale on column chromatography (Beckett et al., 1986).For checking purity of the compound TLC was carried out using pre-coated silica gel 60 F254 plates (Merck) and detection was made by visualization under UV light (254 nm) and spraying with 0.1% vanillin sulfate spray reagent followed by heating.

Spectral measurement
UV spectra were recorded on a Beckman double beam spectrometer.IR spectra were obtained by a Perkin Elemer 1600 FTIR spectrometer. 1 H-(500 MHz) and 13 C (125 MHz) spectra were acquired on a JEOL JNM alpha spectrometer using TMS as internal standard.

Antimicrobial screening
Antimicrobial compound I and II (25 and 50 qg per disc, respectively) were determined against four Gram positive and five Gram negative bacteria, and four pathogenic fungus by standard disc diffusion method (Masako et al., 2004;Bauer et al., 1996).Amoxicillin disc (25 qg per disc) and griseofulvin (20 qg per disc) were used as standard for the comparison of antimicrobial activity for the bacteria and fungus, respectively.The test organisms were collected from the Department of Microbiology, University of Dhaka and antimicrobial activity was conducted at the Department of Pharmacy, Daffodil International University, Dhaka.

Results and Discussion
The chloroform extract of the culture filtrate after resolution by conventional thin layer chromatographic technique yielded two compounds designed as I and II having Rf value 0.60 and 0.65, respectively in solvent system CHCl3: CH3OH (10:1).Both the compounds were crystalline and soluble in chloroform, ethyl acetate and methanol.Their structure was elucidated from the UV, IR, 1H-NMR, 13C-NMR and comparing the 13CNMR spectrum with the compounds, monocillinols 1 and 2 (Biswas et al., 2000).
Compound I: In UV spectrum, the strong absorption band at 209 nm indicated the presence of unsaturation.The IR spectrum revealed that the absorption band at 1760 cm-1 and 1420 cm-1 which demonstrative of carbonyl group (>C=O) in six membered lactone ring and >C=C< stretching in aromatic compound, respectively.While the absorption band at 1000 cm-1 and 1210 cm-1 are indicative of C-N and >C=O stretching and 820 cm-1 for C-H stretching (Pavia et al., 1979).
The 13C-NMR spectrum (Table I) of the compound I exhibited signals for three carbonyl carbon at  179.0, 172.77 and 168.0, a signal for a double bonded carbon attached with oxygen at  157.1, for two olefenic carbon at 132.9 and at  127.0, for olefinic tertiary carbon at  130.0 and two omethoxy carbon at  52.02 and 49.39, for tertiary carbon attached with electronegative atom or group at  47.18, for methylene group in cyclic ring system at  38.12 and for carbon attached with oxygen at  66.0.
From the IR and NMR spectra, the compound I was supposed to contained groups: One six-membered lactone ring, two methoxy group, two methyl group, two methylene group, three carbonyl group and two methene group.
The shift of signal 58.1 to 47.18 at C-5 of monocillinol 1 could be explained by the presence of methyl group attached at C-5 position.Again the attachment of methyl group at C-13 could be explained considering the shift of signal from 98.7 to 127.0.The remaining signals -CO-CH2-CH3 and -OCH3 were could assign at position 4 and 19 respectively.
Compound II: In UV spectrum, the strong absorption band at 215 nm indicates the presence of unsaturation.In IR spectrum, the absorption band at 1750 cm-1 and 1470 cm-1 are characteristics of carbonyl group (>C=O) of six membered lactone ring and >C=C< stretching in aromatic compound, respectively.The absorption band at 1260 cm-1 and 1300 cm-1 are indicative of C-N and >C=O stretching and at 820 cm-1 for C-H stretching (Pavia et al., 1979).
In 1H-NMR spectrum, the signals at  8.76 (1H, d like) and 5.86 (1H, m like) may be attributed to two aromatic olefinic proton.The signals at  8.52 (1H, d like) and 4.93 (1H, d like) may be due to two methine proton.The proton signals at  8.79 (1H, m) and 2.7 (1H, m) may be ascrible to two methylene proton in cyclic system and at  2.51 (1H, m) and 2.0 (1H, m) may be due to two methine proton.The proton signals at  2.1 (3H, s) and 1.96 (3H,s) may be due to two methoxy methyl proton.The proton signals at δ 0.95 (3H,s) 1.18 (3H, d like) and 1.3 (3H, s like) may be due to tertiary methyl, secondary methyl and primary methyl proton, respectively.
In 13 C-NMR spectrum (Table I) the compound II exhibited signal at  122 which may be due to the double bonded carbon attached with oxygen.The carbon signals at  127.0 for olefinic carbon and  147.64 for olefinic carbon attached with carbon containing oxygen.The signals at  52.61 and 49.31 for two omethoxy carbon, at  46.54 for tertiary carbon and at  39.64 for methelene carbon in cyclic system.Carbon signal at  73.73 for metheine carbon attached with oxygen and at  47.18 for methelene carbon.
From the IR and NMR spectra, the compound II is supposed to contain the following groups: One six membered lactone ring, two methoxy group, two methyl group, two methylene group, three carbonyl group and two methene group.
The 13 C-NMR spectrum of the compound II was compared with those of monocillinol 2 and was found to vary at C-2 (157.1),C-5 (46.5) and C-6 (70.8).In addition to the presence of the following signals at  49.39 (OCH3) and carbon signal at  170.1, 47.18 and 20.68 for (>CO-CH2-CH3), respectively.
The signals of monocillinol 2 at C-5 are shifted from 59.0 to 46.5 may due to the presence of methyl group at compound II.Similarly the carbon signals at C-13 is shifted from 98.5 to 122.0 may be due to the methyl group at C-13 position.So there is possibility of arrangement of -CO-CH2-CH3 group with N (at position No. 4, instead of its proton).
Antimicrobial activities of the compounds: Both the compounds showed significant antimicrobial activity against the test pathogens (Table II).However, the compound I exhibited strong activity against Bacillus subtilis, Escherichia coli and Klebselia species and comparatively weak activity was observed against Pseudomonas aureginosa, Salmonella typhii A and Shegella dyscenteriae.While the compound II exhibited strong activity against Gram negative than Gram positive bacteria.The compounds are also active against tested pathogenic fungus.The compound I showed promising antifungal activity compared to the standard griseofulvin (Table III).

Minimum inhibitory concentrations of the compounds:
The MIC values of the compound I against Bacillus subtilis, Streptococcus-β-hemolyticus, Escherichia coli, Shigella dyscenteriae and Salmonella typhii A were 16, 32, 16, 32 and 128 pg/mL, respectively and that for compound II were 32, 64, 16, 16 and 32 pg/mL, respectively.From the MIC values it was found that both the compounds were potent against Bacillus subtilis and