chemical investigation of the seeds ofalbizzia procera benth

2
182 Specialia EXPERIENTIA 23/3 traces of natural photosensitizers in the phage prepara- tion 10 Under the same experimental conditions, however, SP 8 phages remain unchanged as well as the dark controls of both SP 8 and SP 3 phages in PBS supplemented with the dyes. Neither SP 8 nor SP 3 phage were inactivated after 2 h of dark treatment with 1/100,000 trypaflavine in PBS at neutral pH. Photodynamic action of riboflavine (see Table) which is only rarely observed in the phage inactivation recalls the similar findings of GALSTON and BAKER n and GALSTON 12 on T2r and T6r phages of Escherichia coll. The present results of our experiments on the photo- dynamic inactivation of serologically unrelated SP 8 and SP 3 phages of B. subtilis can be summarized as follows: (a) SP 3 phage is much more sensitive to the photo- dynamic action than is SP 8 phage; (b) the rate of the photodynamic inactivation of both phages mentioned above depends strongly on the chemical structure of the photosensitizing dye used in the experiment. Hence the above results are seen to be generally in accord with the conclusions of BURNET* and WELSH and ADAMS4 as regards a known correlation between the sero- logical grouping of some coil-bacteriophages, which is of taxonomic significance, as well as between the chemical structure and photodynamic activity of various photo- sensitizing organic dyes on the T-group of coli-phages described by YAMAMOTO~ and KAUFMAN and HIATT e. Zusammen/assung. Es wurde die photodynamische Ak- tivititt yon 8 verschiedenen organischen Farben auf zwei Bakteriophagen SP 3 und SP 8, virulent fiir Bacillus subtilis, mittels Inaktivationskonstanten der ersten Ord- hung verglichen. Die gr6sste photodynamische Wirkung zeigt Methylenblau ; Neutralrot und Eosin sind praktisch inaktiv. D. KAL~B is Research Department o/ Bioveta n.p., Ivanovice na Hand (Czechoslovakia), 78th July 7966. x0 R. WA~L and R. LATARJET, Annls Inst. Pasteur, Paris 73, 957 (1948). 11 A. W. GALSTONand R. S. BACKER, Science 109, 485 (1949). x2 A. W. GALSTON, Science Ill, 619 (1950). 13 Acknowledgments. I am indebted to Drs. E. PALE~EK and J. PILLICH of the Institute of Biophysics, Czechoslovak Academy of Sciences in Brno, Czechoslovakia, for their help and discussions at the beginning of this work. The excellent technical assistance of Mrs. S. HAjKOVh is also greatly appreciated. Chemical Investigation of the Seeds of Albizzia procera Benth: A lbizzia procera Benth, commonly known as 'safed siris' in Hindi, is widely distributed in India. VARSHNEY et al. 2,s reported the isolation of machaerinic acid 4 and preterit acid 6,8 from the seeds of A. procera Benth. From the seeds of A. procera collected in the Jalpaiguri District, West Bengal, we have obtained an amount of saponin which on hydrolysis gave a mixture of acid and neutral sapogenins. The crude acid sapogenin, on treatment with diazo- methane and subsequent column chromatography on alumina, gave 3 colourless crystalline fractions A, B and C. Fraction A was found to be identical with methyl machaerinate 4. Fraction B, Cs0H4BO ,, m.p. 294--296 °, [0t]~ 8 --13 ° (CHCls), gave a purple-violet coloration in the Lieber- mann-Burchard test and a pale yellow colour with tetra- nitromethane. The IR-spectrum in KBr pellet showed characteristic bands at 3550 cm -1 (hydroxyl group), 1765 cm -1 (a 5-membered lactone) and at 1360 and 1380 cm -1 (gem-dimethyl groups). Fraction B afforded a crystalline monoacetate, Cs2H4sOs, m.p. 301-304 °, on treatment with pyridine and acetic anhydride at 0 °. The IR-spectrum of the monoacetate in KBr pellet showed characteristic bands at 3650 cm -1 (hydroxyl group), at 1720 cm -1 and 1240 cm -1 (acetoxyl carbonyl), and at 1370 and 1385 cm -1 (gem-dimethyl groups). Fraction B, and also the above monoacetate on heating with pyridine and acetic anhydride on a steam-bath, gave a diacetate, Cs4H~00 s, m.p. 246-248 °, [c~]~ s -- 380 (CHCls). It appeared to be a new compound and was named proceragenin A. Fraction C, Cs0H4804, m.p. 255-258 °, [~]~] + 6.53 ° (CHC13), also responded to the Liebermann-Burchard test (purple-violet) and gave a pale yellow colour with tetranitromethane. The IR-spectrum showed bands at 3500 cm -1 (hydroxyl), 1765 cm -1 (a 5-membered lactone), and at 1360 and 1380 cm -1 (gem-dimethyl groups). It formed a diacetate, C84H5006, m.p. 238-240 °. The physical and chemical properties of this fraction did not agree with any known compound and was named procera- genin B. The crude neutral sapogenin on chromatographic reso- lution over alumina gave 5 crystalline products D, E, F, G and H. Fraction D, m.p. 130-140 °, a minor constituent, was found to be a mixture of sterols. Fraction E, C80H460 s, m.p. 265-268 °, [c~]~ --51.2 ° (CHCls), gave a purple-violet coloration with acetic an- hydride and concentrated sulphuric acid and a pale yellow colour with tetranitromethane. The IR-spectrum showed bands at 3450 cm -1 (hydroxyl group), 1775 era-: (a 5- membered lactone), and at 1367 and 1380 cm -1 (gem- a A part of the work was carried out at the Department of Chemistry, Bose Institute, Calcutta-9, India, and was supported in part by the Ministry of Education, Government of India. - The authors desire to express their sincere thanks to Dr. A. K. BARUA, Reader in Chemistry, Bose Institute, Calcutta and to the Rev. Dr. H. SANTAPAU,Director, Botanlcal.Survey of India, Calcutta for their keen interest and encouragement. M. O. FAROOQ,I. P. VARSHN~V and H. HASAN,C. r. Soc. Biol. 246, 3261 (1958). a M. O. FAROOQ,I. P. VARSHNEY and H. HASAN, Arch. Pharm. Berl. 292, 57 (1959). C. DJERASSIand A. E. LIPPMAN, J. Am. chem. Soc. 77, 1825 (1955). I. P. VARSltN~V and S. Y. KHAN, J. Am. pharm. Sci. 53, 1532 (1964). 6 I. P. VARSHNEY, Symposium on Recent Advances in the Chemistry of Terpenoids, June 7-10, 1965 (National Institute of Sciences, India, Abstracts), p. 39.

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182 Specialia EXPERIENTIA 23/3

t races of na tu ra l pho tosens i t i ze r s in the phage p r epa r a - t ion 10

U n d e r t he same e x p e r i m e n t a l condi t ions , however , SP 8 phages r emain unchanged as well as t he da rk cont ro ls of b o t h SP 8 and SP 3 phages in P B S s u p p l e m e n t e d wi th t he dyes. Ne i the r SP 8 nor SP 3 phage were i nac t i va t ed a f te r 2 h of d a r k t r e a t m e n t w i t h 1/100,000 t rypa f l av ine in P B S a t neu t ra l pH.

P h o t o d y n a m i c ac t ion of r ibof lavine (see Table) which is only ra re ly observed in the phage inac t iva t ion recalls t he s imi lar f indings of GALSTON and BAKER n and GALSTON 12 on T2r and T6r phages of Escherichia coll.

The p re sen t resul ts of our e x p e r i m e n t s on the pho to - d y n a m i c inac t iva t ion of serological ly un re la t ed SP 8 and SP 3 phages of B. subtilis can be s u m m a r i z e d as fol lows: (a) SP 3 phage is m u c h more sens i t ive to t he pho t o - d y n a m i c ac t ion t h a n is SP 8 phage ; (b) t he ra te of the p h o t o d y n a m i c inac t iva t ion of b o t h phages m e n t i o n e d above depends s t rong ly on the chemical s t ruc tu re of the pho tosens i t i z ing dye used in t he expe r imen t .

Hence the above resul ts are seen to be genera l ly in accord w i t h t he conclusions of BURNET* and WELSH and ADAMS 4 as regards a k n o w n corre la t ion b e t w e e n the sero- logical g rouping of some coi l -bacter iophages , which is o f t a x o n o m i c significance, as well as b e t w e e n the chemical

s t ruc tu re and p h o t o d y n a m i c a c t i v i t y of var ious pho to - sensi t iz ing organic dyes on the T-group of col i -phages descr ibed b y YAMAMOTO ~ and KAUFMAN and HIATT e.

Zusammen/assung. Es wurde die p h o t o d y n a m i s c h e Ak- t ivi t i t t y o n 8 ve r sch iedenen organ ischen F a r b e n auf zwei Ba k t e r i o p h a g e n S P 3 und SP 8, v i ru len t fiir Bacillus subtilis, mit te l s I n a k t i v a t i o n s k o n s t a n t e n der e r s t en Ord- h u n g vergl ichen. Die gr6ss te p h o t o d y n a m i s c h e W i r k u n g zeigt Methy lenb lau ; Neu t r a l ro t und Eos in s ind p rak t i s ch inakt iv .

D. KAL~B is

Research Department o/ Bioveta n.p., Ivanovice na Hand (Czechoslovakia), 78th Ju ly 7966.

x0 R. WA~L and R. LATARJET, Annls Inst. Pasteur, Paris 73, 957 (1948).

11 A. W. GALSTON and R. S. BACKER, Science 109, 485 (1949). x2 A. W. GALSTON, Science Ill, 619 (1950). 13 Acknowledgments. I am indebted to Drs. E. PALE~EK and

J. PILLICH of the Institute of Biophysics, Czechoslovak Academy of Sciences in Brno, Czechoslovakia, for their help and discussions at the beginning of this work. The excellent technical assistance of Mrs. S. HAjKOVh is also greatly appreciated.

C h e m i c a l I n v e s t i g a t i o n of the S e e d s of

Albizzia procera B e n t h :

A lbizzia procera Ben th , c o m m o n l y k n o w n as ' safed siris ' in Hindi , is wide ly d i s t r i bu ted in India . VARSHNEY et al. 2,s r epo r t ed the isolat ion of machae r in ic acid 4 and p r e t e r i t acid 6,8 f rom the seeds of A. procera Benth . F r o m the seeds of A. procera col lected in t he Ja lpa igur i Dis t r ic t , W e s t Bengal , we have ob ta ined an a m o u n t of saponin wh ich on hydro lys i s gave a m i x t u r e of acid and neu t ra l sapogenins . The crude acid sapogenin , on t r e a t m e n t w i th diazo- m e t h a n e and s u b s e q u e n t co lumn c h r o m a t o g r a p h y on a lumina, gave 3 colourless crys ta l l ine f rac t ions A, B and C.

F rac t ion A was found to be ident ica l w i t h m e t h y l m a c h a e r i n a t e 4.

F r a c t i o n B, Cs0H4BO ,, m.p. 294--296 °, [0t]~ 8 - -13 ° (CHCls), gave a purple-violet colora t ion in the Lieber- m a n n - B u r c h a r d t e s t and a pale yel low colour w i th t e t r a - n i t r o m e t h a n e . The I R - s p e c t r u m in K B r pe l le t showed charac te r i s t ic b a n d s a t 3550 cm -1 (hydroxyl group), 1765 cm -1 (a 5 -membered lactone) and a t 1360 and 1380 cm -1 (gem-dimethyl groups). F rac t ion B af forded a crys ta l l ine monoace ta t e , Cs2H4sOs, m.p. 301-304 °, on t r e a t m e n t w i th pyr id ine and acet ic a n h y d r i d e a t 0 °. The I R - s p e c t r u m of the m o n o a c e t a t e in K B r pellet showed charac te r i s t i c b a n d s a t 3650 cm -1 (hydroxyl group), a t 1720 cm -1 and 1240 cm -1 (acetoxyl carbonyl) , and a t 1370 and 1385 cm -1 (gem-dimethyl groups). F rac t ion B, and also the above m o n o a c e t a t e on hea t ing wi th pyr id ine and acetic a n h y d r i d e on a s t e a m - b a t h , gave a d iace ta te , Cs4H~00 s, m.p. 246-248 °, [c~]~ s -- 380 (CHCls). I t appea r e d to be a new c o m p o u n d and was n a m e d proceragenin A.

F rac t ion C, Cs0H4804, m.p. 255-258 °, [~]~] + 6.53 ° (CHC13), also r e sponded to t he L i e b e r m a n n - B u r c h a r d test (purple-violet) and gave a pale yellow colour wi th t e t r a n i t r o m e t h a n e . The I R - s p e c t r u m showed b a n d s a t

3500 cm -1 (hydroxyl) , 1765 cm -1 (a 5 -membered lactone), and a t 1360 and 1380 cm -1 (gem-dimethyl groups). I t fo rmed a d iace ta te , C84H5006, m.p. 238-240 °. The phys ica l and chemical p rope r t i e s of th is f rac t ion did n o t agree wi th a n y known c o m p o u n d and was n a m e d procera- genin B.

The crude neu t ra l sapogenin on c h r o m a t o g r a p h i c reso- lut ion over a lumina gave 5 crys ta l l ine p r o d u c t s D, E, F, G and H.

F rac t ion D, m.p. 130-140 °, a m i n o r cons t i tuen t , was found to be a m i x t u r e of sterols.

F rac t ion E, C80H460 s, m.p . 265-268 °, [c~]~ - - 5 1 . 2 ° (CHCls), gave a purp le -v io le t co lora t ion wi th acet ic an- h y d r i d e and c o n c e n t r a t e d su lphur ic acid a n d a pale yel low colour w i th t e t r a n i t r o m e t h a n e . The I R - s p e c t r u m showed b a n d s a t 3450 cm -1 (hydroxyl group), 1775 e ra - : (a 5- m e m b e r e d lactone) , and a t 1367 and 1380 cm -1 (gem-

a A part of the work was carried out at the Department of Chemistry, Bose Institute, Calcutta-9, India, and was supported in part by the Ministry of Education, Government of India. - The authors desire to express their sincere thanks to Dr. A. K. BARUA, Reader in Chemistry, Bose Institute, Calcutta and to the Rev. Dr. H. SANTAPAU, Director, Botanlcal.Survey of India, Calcutta for their keen interest and encouragement. M. O. FAROOQ, I. P. VARSHN~V and H. HASAN, C. r. Soc. Biol. 246, 3261 (1958).

a M. O. FAROOQ, I. P. VARSHNEY and H. HASAN, Arch. Pharm. Berl. 292, 57 (1959). C. DJERASSI and A. E. LIPPMAN, J. Am. chem. Soc. 77, 1825 (1955). I. P. VARSltN~V and S. Y. KHAN, J. Am. pharm. Sci. 53, 1532 (1964).

6 I. P. VARSHNEY, Symposium on Recent Advances in the Chemistry of Terpenoids, June 7-10, 1965 (National Institute of Sciences, India, Abstracts), p. 39.

15.3.1967 Specialia 183

dimethyI groups). I t furnished a monoacetate, C32H4sO 4, m.p. 300_305 o, [~]~ _ 26,4 ° (CHCI3). Fraction E on hydrolysis with alcoholic caustic potash furnished machaerinic ac id4. Formation of machaerinic acid sug- gests fraction E to be 28--~21 lactone of 3fl:21fl-di- hydroxy-olean-12-ene-28-oic acid with conformational alternation ~,s in ring D or E, since the steric requirement for 28--~ 21 lactonization is not fulfilled in cis-locked D/E rings with all chair conformation.

Fraction F, Cs,Hs,O ~, m.p. 198-199°, [x]~ + 81 ° (CHC18), gave a diacetate, CssHssO 6, m.p. 223-224 °, [m]~ + 85.45 ° (CHCls). The IR-spectrum showed bands at 3400 cm-1 (hydroxyl), 1710 cm -1 (ester carbonyl'), and at 1365 and 1370 cm -1 (gem-dimethyl). Fraction F re- sponded to the characteristic test of a triterpene in the Liebermann-Burchard reaction and in tetranitromethane, and was identified as ethyl ester of machaerinic acid. This acid, on t rea tment with diazoethane, gave Fract ion F. The lat ter was proved to be formed during isolation.

Fraction G, C80H4,O 4, and Fraction H, C~oH4,O4, were found to be identical with proceragenin A and procera- genin B respectively obtained from the acid sapogenin fraction. Proceragenin A and proceragenin B on hydroly- sis with alcoholic caustic potash yielded acids, which on t reatment with diazomethane or on standing with alco- holic hydrochloric acid gave back proceragenin A and proceragenin B respectively. This is perhaps the reason

why these compounds are encountered from both the acid and neutral sapogenin fractions during isolation.

Further work on the constitution of proceragenin A and proceragenin B is under progress.

Zusammenlassung. Aus dem Samen yon Albizzia procera Benth wurden ausser Machaerinsiture 4 triterpenoide Sapogenine isoliert (Verbindung A und B, Proceragenin A und B), Es wurde bewiesen, dass dic Verbindung A dis 28 --~ 21-Lacton der Machaerins~ure mit einer Konforma- tionsAnderung am Ring D oder E ist, w~hrend die Ver- bindung B als ~kthytmachaerinat identifiziert wurde. Bet Proceragenin A und B handelt es sich um Dihydroylac- tone.

SUJATA R o y and A. K, ~oY °

Department of Chemistry, Botanical Survey of India, Calcutta (India), 9th September t966.

7 C. DJERASSI and J. S. MILLS, J. Am. chem. Soc. 80, 1286 (1958). s B. TURSCH, E. TURSCH, I. T. HARRXSO~, G. B. CHAOAS, T. DE

CARVALHO BRAZAO DA SILVA, H. G.MoNTEIRO, B. GILBERT, W. B. MoRs, and C. DJERASSI, J. org. Chem. 28, 2390 (1963). Present address: Roswell Park Memorial Institute, Buffalo (New York, USA).

The Indigogentc Reaction for Histochemicai Demonstration of Alkaline and Acid Phosphatase

Previous work in this laboratory described the applica- tion of the indigogenic principle to the histochemical demonstration of leucine aminopeptidase 1 fl-glucosidase 3 fl-galactosidase ~ and N-acetyl-fl-glucosaminidase*. In the present s tudy we have extended this principle to specific localization of alkaline and acid phosphatase, utilizing 5- bromo-4-chloro-3-indolyl phosphate (I) and 5-bromo-6- chloro-3-indolyl phosphate (II) (as the para-toluidine salts) as substrates. Both products were synthesized ac- cording to methods described recently by HORWtTZ and co-workers 6& The substrates offer the advantage of a precise enzyme localization with no or very slight diffu- sion. Moreover, the substrates afford a simple and direct method for demonstration of hydrolytic enzymes without the need for a coupling reaction. Compound I yields a blue-green deposition of indigo whereas compound I I gives a magenta colored precipitate. Methods. Tissues from mouse, rat, guinea-pig and man

were used for this study. Representative pieces of tissue from each organ were removed and cut into blocks 2-4 ram in thickness, and quick-frozen by placing the tissue in a glass tube and immersing it in a Dewar flask contain- ing acetone and dry ice at -- 70 °C. The tissues were em- bedded in O.C,T. (optimal cutting temperature) com- pound, purchased from Lab-Tek, composed of water- Soluble glycols and resins matched to a specific cutt ing zone temperature of -- 20 °C to -- 35 °C. The embedded tissue was then placed on the quick-freeze bar of a Lab- Tek cryostat for 1 min until the embedding medium was frozen and became the proper consistency for cutting 6/~ sections at -- 20°C. After cutting, the sections were at-

tached to warm slides and fixed for 5 rain in cold acetone, passed through 95% and 85% acetone and then rinsed in distilled water. All solutions were maintained at 4 °C for preservation of enzymatic activity. The slides were then air dried to prevent the formation of ice crystals and stored at - 25 °C until incubated in the specific sub- strate solution. Fresh frozen and cold acetone-fixed sec- tions were incubated for 2 h in solutions containing para- toluidinium 5-bromo-4-chloro-3-indolyl phosphate or para-toluidinium 5-bromo-6-chloro-3-indolyl phosphate, depending on the desired color of the end-product, The solutions were made specific for acid and alkaline phos- phatase by varying the pH of the buffer used for incuba- tion. The incubating solution employed for alkaline phosphatase is as follows: 14.0 ml Tris buffer p i t 8.4--9.3, O.05M; 1.0 ml para-toluidinium 5.bromo-4-chloro-3-in- dolyl phosphate or para-toluidinium 5-bromo-6-ehloro-3- indolyl-phosphate (2.1 mglml of dimethylforrnamide), 0.00031M (final concentration); 1.0 mt MgC12 0.005M

1 B. PEARSON, P. WOLF and M. ANDREWS, Lab. Invest . 12, 712 (1963).

i B. PEARSON, M. ~.NDREWS and F. GROSE, Prec. Sec. exp. Biol. Med. 108, 619 (1961).

a B. PEARSON, P. WOLF and J. VAZQUEZ, Lab. Invest. 12, 1249 (1963).

I p. WOLF, J. P. HORWITZ, J. VAZQUEZ, J, CHU.4. and M. A. DA ROOGE, Am. J. clim Path, 4d, 307 (1965).

5 J. p. HORWITZ, J. CHUA, R. J. CURBY, A. J. TOMSON, M . A . DARooGE, B. E. FISHER, J. MAURICIO and L KLUNDT, J. med. Chem 7, 574 (1965).

6 j . p. HORWITZ, J. CHUA, M. NOEL, J. T. DONATTI and J. FRXISLER, J. med. Chem. 9, 447 (1966),