Inhibition of bacterial isoprenoid synthesis by fosmidomycin, a phosphonic acid-containing antibiotic.

The mechanism of action of fosmidomycin (FR-31564), a phosphonic acid containing antibiotic, was examined against Escherichia coli, Micrococcus luteus and other bacteria. It converted growing Esch. coli cells into spheroplasts or swollen cells, but did not inhibit the enzymatic reactions of cell wall synthesis in ether-treated cells. Unlike bicyclomycin, phenethyl alcohol and mitomycin C, it did not reduce the amount of envelope lipoprotein, phospholipids, or DNA, but did reduce the amount of menaquinones and ubiquinones in growing Esch. coli cells. It also inhibited the biosynthesis of both carotenoids and menaquinones in M. luteus cells, suggesting that inhibition of the biosynthesis of a common precursor of these isoprenoids (possibly farnesyl pyrophosphate) might be the main site of its antibacterial activity.

Investigation of the prohapten concept. Cross reactions between 1,4-substituted benzene derivatives in the guinea pig.

It has been proposed that the cross-reactions seen clinically between hydroquinone and para-phenylenediamine (PPD) arise from the formation of a common hapten, benzoquinone, in vivo, and that these chemicals therefore represent "prohaptens". A series of 1,4-substituted benzene derivatives has been used to examine this prohapten concept in the guinea pig model. Using both topical and intradermal routes of application, it is demonstrated that in the guinea pig 1,4-substituted benzene derivatives capable of oxidation to benzoquinone, including hydroquinone and PPD, show only restricted evidence of cross-reactions. These results support the prohapten concept. However taken in combination with data on cross-reactivity with 1,2- and 1,3-substituted benzenes, rather than giving rise to a single common hapten, they can be more readily interpreted as the formation of a spectrum of antigenic determinants in vivo, some of which are shared in common.

Tyrosinase-catalyzed oxidation of dopa and related catechol(amine)s: a kinetic electron spin resonance investigation using spin-stabilization and spin label oximetry.

The oxidation of four catechol(amine)s by tyrosinase has been studied by electron spin resonance and optical methods. Rates of oxygen consumption and of dopaquinone and dopachrome formation during the oxidation of dopa have been measured, and compared with rates of dopasemiquinone production measured using spin-stabilization procedures. In the presence of spin-stabilizing metal ions, production of semiquinone is approximately quantitative. Time-dependent ESR spectra obtained from dopa and dopamine show a slow regeneration of semiquinone, suggesting that a semiquinone precursor is slowly reformed. In contrast, time-dependent spectra for 4-methylcatechol and N-acetyldopamine show decay of the primary semiquinone together with buildup of a secondary semiquinone apparently derived from the corresponding 6-hydroxy-catechol(amine). Thus, catecholamines that give rise to a cyclizable quinone show a pattern of behavior that differs from those that produce a non-cyclizable quinone. These results are discussed in terms of their possible significance to melanogenesis and the toxicity of catechol(amine)s, which has been attributed to production of semiquinones and/or other oxygen radicals.

Biosynthesis of the ansamycin antibiotic ansatrienin (mycotrienin) by Streptomyces collinus.

The biosynthesis of ansatrienin (mycotrienin) has been studied in radioactive and stable isotope feeding experiments with Streptomyces collinus Tü 1892. The m-C7N unit of the ansa ring is efficiently and specifically derived from 3-amino-5-hydroxybenzoic acid; shikimic acid is not incorporated into this part of the molecule but does label the cyclohexanecarboyxlic acid moiety, providing all seven of its carbon atoms. Incorporation of methionine confirms origin of the methoxy group by transmethylation. The D-alanine moiety is derived directly from D-alanine rather than L-alanine. The terminal steps in the conversion of shikimic acid into cyclohexanecarboyxlic acid seem to be sequential reduction of 2,5-dihydrobenzoic acid and cyclohexene-1-carboxylic acid as evidenced by feeding experiments and the detection of a new ansatrienin containing a 1-cyclohexene instead of the cyclohexane moiety.

Monoclonal antibodies distinguish between the head portions of two myosin isozymes from chicken breast muscle.

Monoclonal antibodies against chicken breast myosin and its subfragment-1(S-1) were produced. One antibody, 2G41, reacted with S-1 containing a light chain 3 (LC3), but not with another S-1 containing a light chain 1 (LC1) or a mixture of the light chains. A structural difference can be assumed to exist between the head portions of the two myosin isozymes. Antigenicity of S-1 toward 2G41 could not be detected after tryptic digestion into three fragments of 50K, 27K, and 20K daltons. Another monoclonal antibody, M68, was obtained from mice immunized with myosin. M68 preferably recognized the heavy chain from S-1 containing LC3 rather than that from that containing LC1 or S-1. M68 reacted with the 27K fragment among the three.

A possible metabolic role for o-diphenoloxidase in Mycobacterium leprae.

Among mycobacteria, Mycobacterium leprae is unique in its ability to oxidize a variety of diphenols to quinones in vitro. What physiologic role o-diphenoloxidase has in the organism remained unknown. Reducing substrates like NADPH, NADH and ascorbic acid reacted with the quinone formed from dopa (3,4-dihydroxyphenylalanine); the substrates were oxidized and the quinone was reduced back to diphenol in the process. Since the quinone undergoes reversible oxidation-reduction, diphenoloxidase might serve as an alternative respiratory mechanism in M. leprae for the utilization of other substrates, as has been reported in plants.

Localization and synthesis of prenylquinones in isolated outer and inner envelope membranes from spinach chloroplasts.

The prenylquinone content and biosynthetic capabilities of membrane fractions enriched in outer and inner envelope membranes from spinach chloroplasts were analyzed. Both envelope membranes contain prenylquinones, and in almost similar amounts (on a protein basis). However, the outer envelope membrane contains more alpha-tocopherol than the inner one although this prenylquinone is the major one in both fractions. On the contrary, plastoquinone-9 is present in higher amounts in the inner envelope membrane than in the outer one. In addition, it has been demonstrated that all the enzymes involved in the last steps of alpha-tocopherol and plastoquinone-9 biosynthesis, i.e., homogentisate decarboxylase polyprenyltransferase, S-adenosyl-methionine:methyl-6-phytylquinol methyltransferase, S-adenosyl-methionine: alpha-tocopherol methyltransferase, homogentisate decarboxylase solanesyltransferase, S-adenosyl-methionine:methyl-6-solanesylquinol methyltransferase, and possibly 2,3-dimethylphytylquinol cyclase, are localized on the inner envelope membrane. These results demonstrate that the inner membrane of the chloroplast envelope plays a key role in chloroplast biogenesis, and especially for the synthesis of the two major plastid prenylquinones.

New antitumor antibiotic, LL-C10037 alpha. Fermentation, isolation and structure determination.

A new antitumor antibiotic, LL-C10037 alpha was isolated from the fermentation filtrate of a Streptomyces by adsorption, partition and reverse phase column chromatography. Its chemical structure was determined by 1H NMR, 13C NMR, UV, IR and mass spectral data. LL-C10037 alpha is a gamma-aminoepoxysemiquinone and is related to the epoxyguinone class of antibiotics.

Natural occurrence of the mycotoxin viomellein in barley and the associated quinone-producing penicillia.

In a batch of barley associated with field cases of mycotoxic porcine nephropathy and containing ochratoxin A and citrinin, the mycoflora were isolated by parallel incubation at 10 and 25 degrees C. Subsequently, the isolated cultures were checked for production of nephrotoxins (xanthomegnin, viomellein, ochratoxin, and citrinin). The nephrotoxin producers, all isolated by incubation at 10 degrees C, were comprised of one culture of Penicillium viridicatum, five cultures of Penicillium cyclopium, and one culture of Penicillium crustosum, all producing xanthomegnin and viomellein. One culture of P. cyclopium produced citrinin. Viomellein was detected in the barley at a concentration of approximately 1 mg/kg. The method of analysis for xanthomegnin and viomellein included extraction with chloroform, partitioning in hexane-acetone, and thin-layer chromatographic separation and identification. The identity of the xanthomegnin and viomellein produced by the isolated fungi and of viomellein detected in the barley was supported by infrared spectroscopy. This is the first report of viomellein as a natural contaminant of foodstuffs.

Cyanocycline A, a new antibiotic. Taxonomy of the producing organism, fermentation, isolation and characterization.

A new antibiotic, cyanocycline A, was isolated from the fermentation broth of Streptomyces flavogriseus strain No. 49, a soil isolate. The molecular formula of cyanocycline A was determined to be C22H26N4O5. The antibiotic has a cyano group and a N-heterocyclic quinone moiety in its structure. Cyanocycline A was found to have broad spectrum antimicrobial and antitumor activity.

Dnacins, new antibiotics. I. Producing organism, fermentation, and antimicrobial activities.

Dnacins are new antibiotics produced by an actinomycete, strain No. C-14482 (N-1001). The characteristic features of the organism are: the formation of coremia on solid media, production of rod-shaped motile spores with peritrichous flagella from mature aerial mycella, fragmentation of the mature organism (at later stage of growth) in liquid media in which some fragmented elements have motility, lysozyme resistance, meso-diaminopimelic acid in the cell wall, and a guanine-cytosine content of 71 +/- 1 mol%. The organism has been designated as Nocardia sp. No. C-14482 (N-1001). Dnacins show strong activity against various GRam-negative, Gram-positive, and acid-fast bacteria, but slight activity against fungi. The antibiotics hardly affect the growth of Escherichia coli K-12 under anaerobic condition even at concentrations more than five times that of the minimum inhibitory concentrations under aerobic conditions.

Synthesis of plastoquinone-9 and phytylplastoquinone from homogentisate in lettuce chloroplasts.

Chloroform-soluble extracts of unpurified chloroplast preparations of lettuce, pea and spinach and of class I lettuce chloroplasts that have been incubated in the light with [methylene-3H]homogentisate contain 3H-labelled plastoquinones-9 and -8 (minor homologue), 2-demethyplastoquinones-9 and -8 (minor homologue), pytylplastoquinone and 2-demethylphytylplastoquinone. The absence of demethylquinols, the presumed precursors of the dimethylquinones, from the extracts to the fact that no precautions were taken in the extraction procedure to present their oxidation to the corresponding quinones. In unpurified lettuce chloroplasts the synthesis of these compounds from [methylene-3H]homogentisate is Mg2+-dependent and it is stimulated by light. The addition of isopentenyl pyrophosphate to the incubation mixtures increases the amounts of both groups of quinones (polyprenyl quinones and phytyl quinones) synthesised in the light and the amounts of polyprenyl quinones synthesised in the dark. Replacement of isopentenyl pyrophosphate with a source of preformed polyprenyl pyrophosphates brings about a marked rise in the amounts of polyprenyl quinones synthesized. This rise in polyprenyl quinone synthesis is further increased if the chloroplasts are subjected to osmotic shock. The presence of S-adenosylmethionine increases the amounts of dimethylquinones synthesized at the expense of the demethylquinones. The implied precursor-product relationships between 2-demethylphytylplastoquinone (quinol?) and phytylplastoquinone and between the 2-demethylplastoquinones (quinols) and plastoquinones were verified in a pulse-labelling experiment. Confirmation that these quinones, or their corresponding quinols, are synthesized in the chloroplast is provided by the fact that they are made in class I lettuce chloroplasts. In none of the many incubations carried out in the course of the study were any [3H]tocopherols produced.

Herbimycin B, a new benzoquinonoid ansamycin with anti-TMV and herbicidal activities.

A new benzoquinonoid ansamycin, herbimycin B was isolated from the culture broth of Streptomyces hygroscopicus No. AM-3672, a herbimycin A-producing strain. Herbimycin B showed potent anti-TMV activity. Herbicidal effect of herbimycin B was less than that of herbimycin A.

Studies on terreic acid.

It was found that Aspergillus sp. No. Y-8980 which was isolated from a soil sample collected at Yoron Island in Kagoshima Prefecture belonged to Aspergillus terreus group by morphological observation. The active substance produced by the strain was obtained with a high yield in sucrose-yeast extract medium and extracted by chloroform, ethyl acetate and n-butanol at pH 2.4 approximately 2.6 from the culture broth. The substance was crystallized from chloroform and ethyl acetate after charcoal treatment of the crude crystal. From various physico-chemical properties, it was found that the substance was identical to terreic acid. Terreic acid showed MICs of 25 approximately 100 mcg/ml, 12.5 mcg/ml and 50 mcg/ml against Gram-positive and Gram-negative bacteria, Xanthomonas oryzae and Xanthomonas citri, respectively, but it did not control Pseudomonas, fungi and yeast. The LD50 was 75 mg/kg i.p. and i.v. in mice. With regards to the anti-tumor effect, the morphological degeneration on HeLa cells (human carcinoma cells) was observed in the concentrations of more than 6.25 mcg/ml of terreic acid. An increase of body weight of mice caused by Ehrlich ascites carcinoma cells was not definitely observed by the daily administration of 150 mcg of terreic acid per mouse for 8 consecutive days. Above showed the enough survival effect in dd mice implanted with Ehrlich ascites carcinoma cells, and the effect also was demonstrated by anatomies of mice.

Macbecins I and II, new antitumor antibiotics. I. Producing organism, fermentation and antimicrobial activities.

New antibiotics, macbecins I and II, have been found in the culture fluid of an actinomycete, which has the following properties: delayed fragmentation of vegetative mycelia, formation of coremia on solid media, the occurrence of meso-diaminopimelic acid in the cell wall, lysozyme resistance, and guanine-cytosine content of 71 +/- 1 mol%. The organism has been designated Nocardia sp. No. C-14919 (N-2001). A marked enhancement of the production of macbecins I and II was observed in cultures containing L-tyrosine. The antibiotics are moderately active against several Gram-positive bacteria and fungi. The antibiotics also inhibit the growth of Tetrahymena pyriformis W at 2 microgram/ml but show no activity against the regeneration of cilia in partially deciliated Tetrahymena at 10 microgram/ml.

Macbecins I and II, new antitumor antibiotics. II. Isolation and characterization.

New antitumor antibiotics, macbecins I and II, were isolated from the culture broth of Nocardia sp. No. C-14919. Macbecins I and II belong to the ansamycin group and have a benzoquinone and hydroquinone nucleus, respectively. Both showed antitumor activity against murine leukemia P 388 in vivo.