Antitumor Agents, 104. Isolation of Yadanziosides M and P from

Two New Quassinoids, Ailantinols A and B, and Related Compounds from Ailanthus altissima. Kengo Kubota, Narihiko Fukamiya, Tomomi Hamada, Masayoshi ...
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Journal 4Natural Prodvrts Vol. 5 2 , No. 2, pp. 398-401, Mar-Ap 1989

398

ANTITUMOR AGENTS, 104. ISOLATION OF YADANZIOSIDES M AND P FROM BRUCEA ANTZDYSENTERZCA AND IDENTIFICATION OF BRUCEANTINOSIDE B AS A MIXTURE OF YADANZIOSIDE P AND BRUCEANTINOSIDE C MASAYOSHIOKANO,* NARIHIKO FUKAMNA, TSLJYOSHI TOYOTA, Faculty of lntegrated Arts and Sciences, Hiroshima Uniwsity, Hiroshima 730,Japan KIYOSHITAGAHARA,

Kobe W m ' s College of Fbarmary, Kobe 658, Japan and KUO-HSIUNGLEE*

Natural Pr&cts Ldwatory, Division of Medicinal Chemistry and Natural Products, School of Pharmary, University of Nortb Carolina, Chapel Hill, North Carolina 27599 &sTuff.--Yadanziosides M 131 and P 111 were isolated from Brucu antidysenteica. Their structures were elucidated by spectral data. Bruceantinoside B reported previously was reinvestigated and revealed to be a mixture of yadanzioside P and bmceantinoside C [2]. T h e structure of yadanzioside P was found to be identical to that of bruceantinoside B.

bruceantioside B, a structure that was subsequently pointed out by Sakaki et al. (3) to be another structure from a spectral point of view. The previously reported bruceantinoside B was reexamined in detail by hplc and spectral

Recently we reported the isolation and structural elucidation of bruceantinosides A (l),B (l),and C E21 (2), and yadanziosides G (2) and N (2) from the stem of Bruceu antidysentwica Mill. (Simaroubaceae). W e assigned 1 to

OH

6" 5' 18

OH

1

2

lFor

part 103, see y,c,wu, Y,F, Lieu, S,T.

L ~ C,H, , Chen, J.J. ChangandK,H. k, phnta Med., in press.

comparison. The result of this reexamination indicates that it is a mixture of yadanzioside P E l ] and bruceantinoside

Mar-Apr 19891 Okano etal. : Isolation ofyadanziosides M and P C [23, both of them showing nearly identical retention times and R, values.

399

by off-resonance decoupling and distortionless enhancement by polaritation transfer (DEW methods. Fd mass spectra were recorded on a Hitachi M80 instrument. Si gel (Merck, type 60, 70-230 mesh) was used for cc, and precoated si gel plates (Merck, 60F-254, 0.25 mm) were used for analytical tlc. Detection of components was made by use of an UV lamp and hating after the spray of 10% H,S04. Precoated Si gel (Merck, 60F-254, 2 mm) was used for preparative tlc. Analytical hplc was performed on a Waters Associates Model ALCGPC 244 liquid chromato-

The Of yadanzioside was found to be identical to that of bruceantinoside B. The isolation of yadanziosides M 131 ( 4 ) and P 117 (3) from B . antidyjenterica is also described. AIthough has been Obtained from Byucea Javanica by Sakaki et ai*(313 this compound was isolated from B . anti-

3

dysenterica for the first time. Yadanzioside M 131, C34H40016, was obtained as a colorless amorphous powder. A comparison of its ir, 'H- and 13Cnmr, and mass spectral data with those of 3 obtained from B . javanica (4)indicates that they are identical with each other. Yadanzioside P 111,C34H46016, was isolated as a colorless amorphous powder. Its spectral data are identical with those reported for yadanzioside P 111, which was isolated from B . javanica by Sakaki et al. (4). EXPERIMENTAL GENERALEXPERIMENTAL PROCEDURES.Melting points were determined on an MRK airbath type melting point apparatus and were uncorrected. Specific rotations were obtained on a Yanako OR-SOD polarimeter ( =I 1. dm). Ir and uv spectra were recorded on a Jasco IR-8 10 spectrometer and a Hitachi 320s spectrometer, respectively. 'H-nmr and '3C-nmr spectra were determined on a Varian XL-200 (200.06 MHz for 'H-nmr and 50.3 1 MHz for I3C-nmr) using TMS as an internal standard, and the results are shown in Tables 1 and 2, respectively. All the samples for nrnr analyses were dissolved in pyridine+. The assignments of the carbon signals were made

The= 1.

Proton

H- 1 H-3 H-4 H-5 H-7 H-9 H- 11 H-12 H-14 H-15 H-20 4-Me 10-Me OMe H-2' H-3' H-4' H-5' 3'-Me 4'-Me 4'-OAc H-1" H-6"

'H-nmr Spectra of Quassinoid Glycosides 1 and 2. Compound

I

1 P

-

2 6.16 d (2) a

P

5.lbr 4.80 brd (3.5) 5.lbr 3.09brd(l3) 6.92br 5.lbr 2.07s 1.74s 3.81s 5.90s a

2.18s 0.85 d(7) 5.47d(7) 4.35 dd(12 and 5) 4.48 dd (12 and 3)

'Not measured.

5.18 b n 2.97 d (4) 6.32 d (4) 4.95 brs P

6.98 br 5.16d(8) 0.88 d (7) 1.90s 3.92 s a

2.30s 1.40s 1.46s 1.95 s 5.49 d (7) 4 . 5 8 d ( 11)

400

Journal of Natural Products I3C-nmr Spectra of Quassinoid Glycosides 1and 2.

TABLE 2,

Compound

Carbon

c-1 c-2 c-3

. . . . . . . . . . . .

. . . . . .

c-4 . . . . . . c-5 . . . . . . C-6 . . . . . . c-7 C-8

......

. . . . . . c-9 . . . . . . c-10 . . . . . . c-11 . . c-12 . . C-13 . . C-14 . . C-15 . . C-16 . . C-17 . . C-18 . . C-19 . . c-20 . . OMe.. c-1' . . c-2' . . c-3' . . C-4' . . c-5' . . C-6' . . c-7' . . C-8' . .

. . . . . . .

. . . . . . .

. . . . . . .

. . . . . . .

....

. . . . . . . .

.... . . . . . . . .

....

. . . . . . . .

. . . . . . . . . . . .

c-9' . . . . . .

c-1" . . . . . . C-2" . . . . . . c-3" . . . . . .

c-4" . . . . . .

c-5" . . . . . . C-6" . . . . . .

1

2

51.lt 193.7 s 148.0s 146.6s 43.4d 29.4 t 83.4d 46.0s 42.0d 40.9 s 73.1 d 76.1 d 82.7 s 50.5 d 68.4d 168.3 s 73.6 t 15.3q 15.9q 171.2s 52.4q 165.8s 113.4 d 167.3 s 38.1 d 16.7 q 20.7 q 20.7 q

199.7 s 146.4 s 124.9d 31.5d 36.8d 28.7 t 82.9d 46.7 s 44.1 d 48.9s 75.ld 76.2d 82.9s 50.8d 69.2d 168.1 s 73.6 t 14.5 q 18.9q 171.1s 52.6q 165.9s 113.5d 169.5 s 82.3s 14.5 q 26.4 q 25.7q 163.7 s 21.4q 100.7 d 74.6d 79.0d 71.4d 78.6d 62.3 t

-

104.9d 75.8d 78.7d 71.5d 78.5 d 62.8 t

graph equipped with a Radial-Pak Liquid Chromatography Cartridge (8NVC18) and a Waters Model 440 uv detector. Preparative hplc was done on a Gilson preparative liquid chromate graph equipped with an M%S PACK C18-A column (20 mm X 250 mm) and a Gilson Model 111B uv detector. CHROMATOGRAPHY OF THE CHCI, FRACTIONS.-The crude CHCI, fraction (705 g), which was part of the CHCI, extract of the ground wood of B. antidysmterica (4,228 Ib) reported previously (2), was subjected to cc on Si gel (3 kg, 10 cm X 90 cm) and eluted first with EtOAc-Et20 (1: 1)and then with CHC1,-MeOHH 2 0(50: 14:3) to yield 9 and 16 fractions, respec-

Wol. 52, No. 2

tively. Fractions 9-10 and fractions 11-16 of the latter elution were combined (1 13 g and 72.6 g, respectively) and subjected twice to cc on Sephadex LH-20 (60 mm X 90 cm) eluting with MeOH to remove resinous substance and to afford pale yellow gums (39.6 g and 26.2 g, respectively). ISOLATIONOF YADANZIOSIDE M fS].-The foregoing pale yellow gum (39.6 g) was further subjected to low pressure cc using an ODS column and MeOH-H20 (1: t) as eluent to give 25 fractions. Fractions 7-1 1 were shown to contain a new peak (Rt 9.0 min) by analytical hplc using MeOH-H20 ( l : l , 1 ml/min) as an eluent, although the peak was very small. Further preparative hplc of these fractions with elution by MeOH-H20 (1: 1, 2 mumin) and preparative tlc led to the isolation of 3 (27 mg, 0.0000014%).

Yahnzioside M {3].-Compound 3 was obtained as a colorless amorphous powder: mp 208213"(dec); [ a ] 2 +39"(r=O.41, 3~ EtOH). ISOLATIONOF YADANZIOSIDE P [l].-The foregoing pale yellow gum (26.2 g ) was subjected to low pressure cc using an ODS column and MeOH-H20 (1: 1) as eluent to give ten fractions. Fractions 3-5 were found to contain a new peak (Rt 11.O min) by analytical hplc using MeOHH 2 0 ( l : l , 1 mumin) as an eluent, although the peak was nearly overlapped with that of 2 reported previously (2). Repeated preparative hplc of these fractions with elution by MeOH-H,O (1: 1, 2 ml/min) led to the isolation of 1(787 mg, 0.000041%). Yahnzioside P [ l ] . 4 m p o u n d 1 was isolated as a colorless amorphous powder: mp 193198"; f a J Z+7.Oo(c=0.57, 3~ EtOH). REEXAMINATIONOF BRUCEANTINOSIDE B.-The previously reported bruceantinoside B (1) was reinvestigated. The analytical hplc [MeOH-H,O (1: l), 1 mYmin] showed a broad peak (Rt 11.6 min). However, as it was assumed to contain two compounds with overlapped retention times, it was subjected to further preparative hplc to isolate the first half and the latter half. After repetition of the preparative hplc, two compounds (Rt 11.2 and 11.7 min, respectively) were isolated. Their spectral data (ir, 'H-nmr, and 13C-nmr) coincided with those of yadantioside P [l](4) and bruceantinoside C [2] (2), respectively. ACKNOWLEDGMENTS This investigation was supported by a grant CA 17625 (K.H. Lee) from the National Cancer Institute. The authors thank Drs.John Douros and Matthew Suffness, Division of Cancer Treatment, National Cancer Institute, for their interest and assistance in providing the plant extract,

Mar-Apr 19891 Okano et al.: Isolation of YadanziosidesM and P and Dr. M. Sugiura, Dr. K. Saiki, and Miss T. Sai, Kobe Women's College of Pharmacy, for 'Hn m r , 13C-nmr, and fdms, respectively. LITERATURE CITED

1. M. Okano, K.H. Lee, I.H. Hall, andF.E. Boettner,J . Nat. Prod.,44,470 (1981). 2. N. Fukamiya, M. Okano, K. Tagahara, T.

40 1

Ararani, Y. Muramoto, and K.H. Lee, J . Nat. Prod.,50, 1075 (1987). 3. T. Sakaki, S. Yoshimura, T. Tsuyuki, T. Takahashi, and T. Honda, C h n . Phm. Bull., 34,4447 (1986). 4. T. Sakaki, S. Yoshimura, T. Tsuyuki, T. Takahashi, T. Honda, and T. Nakanishi, BUN C h . Soc. Jpn., 59, 3541 (1986). Receid22 Augwt 1988