Production of indolic compounds by rumen bacteria isolated from grazing ruminants

AIM: To screen rumen bacterial cultures and fresh ruminal isolates for indole and skatole production. METHODS AND RESULTS: Culture collection strains and fresh bacterial isolates from rumen contents of sheep and dairy cows were screened for the production of indolic compounds. Clostridium aminophilum FT, Peptostreptococcus ssp. S1, Fusobacterium necrophorum D4 produced indole and Clostridium sticklandii SR produced indoleacetic acid. Fresh isolates from sheep (TrE9262 and TrE7262) and dairy cows (152R-1a, 152R-1b, 152R-3 and 152R-4) produced indole, indolepropionic acid, tryptophol and skatole from the fermentation of tryptophan and indoleacetic acid. Glucose altered the indolic compounds produced in some, but not all, isolates. TrE7262 and 152R-4 were identified as Clostridium sporogenes and 152R-1b as a new Cl. aminophilum strain. Isolates TrE9262, 152R-1a and 152R-3 were not closely related to any described species but belong to Megasphaera, Prevotella and Actinomyces genera, respectively. CONCLUSIONS: Rumen bacteria that produced a range of indolic compounds were identified. Some isolates are distinct from the previously described bacteria and may represent novel species. SIGNIFICANCE AND IMPACT OF THE STUDY: These observations will contribute to understanding skatole and indole formation in the rumen and will lead to methods that control the formation of indolic compounds in pasture-grazed ruminants.     

Pyrrolooxygenases from pepper and poinsettia leaves

Leaf extracts of pepper (Capsicum annuum) and poinsettia (Euphorbia pulcherrima) contained pyrrolooxygenases which varied in activity according to the age of the leaves and the origin and physiological condition of the plants. An inhibition of the pyrrolooxygenases was present in the crude extracts of senescent leaves. Fruiting enhanced pyrrolooxygenase activity and added a new ionic form of greater negative charge to the usual cationic form of the enzymes. Pyrrolooxygenases of C. annuum leaves from greenhouse-grown plants showed three forms of different ionic charge which exhibited multiple MW forms for porphobilinogen oxygenase and skatole pyrrolooxygenase. The cationic form of porphobilinogen oxygenase had sigmoidal kinetics, while the anionic forms had Michaelis kinetics. Skatole and tryptophan pyrrolooxygenase showed Michaelis kinetics. Pyrrolooxygenase activities in E. pulcherrima were lower than those in C. annuum and the former were also found to be more unstable.     

Screening and Identification of the Phospholipase D-producing Streptomyces

About 2,000 strains of streptomycetes and 200 strains of molds were tested for egg yolk-degrading activity. A strain isolated from soil was found to produce the strong activity in the culture medium.

The egg yolk-degrading substance was found to be phospholipase D and the producing strain was identified as Streptomyces hachijoensis. It was found out that the strains producing egg yolk-degrading substance appeared with high frequency in whirl-forming species in genus Streptomyces.     

Isolation of 6-epimonomelittoside from Tecoma heptaphylla and its conversion into monomelittoside

The isolation of a new iridoid glucoside, 6-epimonomelittoside, from Tecoma heptaphylla is reported. The structure and configuration were establish     

The effect of cereal type and enzyme supplementation on carcass characteristics, volatile fatty acids and intestinal microflora and boar taint in entire male pigs

A 2 × 2 factorial experiment was conducted to investigate the effects of cereal type (barley v. oat) and exogenous enzyme supplementation (with or without) on intestinal fermentation, and on indole and skatole levels in the intestinal content and the adipose tissue in finisher boars. The experimental treatments were as follows: (i) barley-based diet, (ii) barley-based diet with enzyme supplement, (iii) oat-based diet and (iv) oat-based diet with enzyme supplement. The enzyme supplement contained endo-1,3(4)-β-glucanase (EC 3.2.1.6) and endo-1,4-β-xylanase (EC 3.2.1.8). The animals were fed ad libitum for 45 days from 76.0 to 113.6 kg live weight. Feeding barley-based diets led to higher (P < 0.05) total volatile fatty acids concentrations in the large intestine. Proportions of propionic- and butyric-acids were higher and that of acetic acid lower in digesta from barley-based in comparison to oat-based diets (P < 0.001). Consequently, pH in the large intestine was higher after feeding oat-based in comparison to barley-based diets. Animals fed unsupplemented oat-based diet had higher (P < 0.01) indole concentrations in the digesta from the proximal colon than those fed barley-based diets. Feeding oat-based diets led to lower (P < 0.01) skatole and higher (P < 0.001) indole concentrations in the digesta from the terminal colon than barley-based diets. skatole concentrations in the adipose tissue did not differ (P > 0.05) between the experimental treatments. Pigs offered the barley-based diets had lower (P < 0.001) indole concentrations in the adipose tissue compared with those fed the oat-based diet. In conclusion, barley-based diets were more efficient than oat-based diets in limiting concentrations of indole in the adipose tissue.     

Blood levels of kynurenines, interleukin-23 and soluble human leucocyte antigen-G at different stages of Huntington's disease

There is substantial evidence that abnormal concentrations of oxidised tryptophan metabolites, produced via the kynurenine pathway, contribute to progressive neurodegeneration in Huntington's disease. We have now examined the blood levels of these metabolites in patients at different stages of Huntington's disease, assessed both in terms of clinical disease severity and numbers of CAG repeats. Close relatives of the patients were included in the study as well as unrelated healthy controls. Levels of lipid peroxidation products, the pro-inflammatory cytokine interleukin (IL)-23 and the soluble human leucocyte antigen-G (sHLA-G) were also measured. There were lower levels of tryptophan and a higher kynurenine : tryptophan ratio, indicating activation of indoleamine-2,3-dioxygenase, in the most severely affected group of patients, with increased levels of IL-23 and sHLA-G. Marked correlations were noted between IL-23 and the patient severity group, anthranilic acid levels and the number of CAG repeats, and between anthranilic acid and IL-23, supporting our previous evidence of a relationship between anthranilic acid and inflammatory status. Tryptophan was negatively correlated with symptom severity and number of CAG repeats, and positively correlated with sHLA-G. The results support the proposal that tryptophan metabolism along the kynurenine pathway in Huntington's disease is related to the degree of genetic abnormality, to clinical disease severity and to aspects of immunopathogenesis.     

Accumulation of Indole‐3‐Acetic Acid in Rice sl Mutant Leaves Infected with Bipolaris oryzae

Rice leaves accumulate serotonin in response to infection by Bipolaris oryzae. The leaves of the sl mutant, which is deficient in the gene encoding tryptamine 5‐hydroxylase, accumulate tryptamine instead of serotonin upon infection by B. oryzae. Because tryptamine is a possible precursor of indole‐3‐acetic acid (IAA), we investigated the accumulation of IAA in sl leaves infected with B. oryzae. Liquid chromatography coupled with tandem mass spectrometry analysis indicated that IAA accumulated at approximately 1.5 μmol/gFW in the leaves of sl mutant. This accumulation was suppressed by 95% by the treatment with the tryptamine decarboxylase inhibitor, (S)‐α‐(fluoromethyl)tryptophan, at 100 μm , indicating that tryptamine served as the precursor of IAA. The accumulation of IAA was not reproduced by treatment with CuCl₂ or by exogenous feeding of tryptamine. Furthermore, inoculation of Magnaporthe grisea induced only a lower level of IAA accumulation. On the other hand, B. oryzae produced IAA in culture media containing tryptamine. These findings strongly suggested that the metabolism of tryptamine by B. oryzae was responsible for IAA accumulation in the leaves of the sl mutant. Serotonin added to the culture media was also converted into 5‐hydroxyindole‐3‐acetic acid (5HIAA) at a rate similar to that of tryptamine. Considering that wild‐type rice leaves accumulate serotonin for defensive purposes, reducing the concentration of serotonin by conversion into 5HIAA may be significant as a detoxification process in the interaction between B. oryzae and rice.     

Tryptophan decarboxylase activity in transformed roots fromCatharanthus roseus and its relationship to tryptamine,ajmalicine, and catharanthine accumulation during the culture cycle

Summary Tryptophan decarboxylase (TDC), the enzyme that catalyzes the decarboxylation of tryptophan to trytamine, was studied in aCatharanthus roseus transformed root culture. Its activity was evaluated through the culture cycle (36 days), along with the variations in the tryptamine pool as well as the accumulation of alkaloids. Ajmalicine and catharanthine contents in the tissues increased coordinately with an increase in TDC-specific activity after 18 days of growth. No dramatic shifts were observed for the total alkaloid and tryptamine profiles.     

Biosynthesis of Camptotheca acuminata alkaloids

Tracer feeding experiments with Camptotheca acuminata plants show that [1′-¹⁴C]L-tryptophan, [Ar-³H₄]L-tryptophan, [Ar-³H₄,1′-¹⁴C]tryptophan, [1′-¹⁴C]-tryptamine, [2-¹⁴C]DL-mevalonate, and [2-¹⁴C]geraniol-[2-¹⁴C]nerol are incorporated into camptothecin. Direct stem injection of the labeled precursors into C. acuminata plants resulted in a substantial increase in the activity of isolated Camptotheca alkaloids as compared to root feeding of the same tracer.     

Purification and properties of indole 2,3-dioxygenase from maize leaves

An indole 2,3-dioxygenase was purified ca 38-fold from maize leaves. The enzyme had an MW of about 98000, an optimum pH of 5.0 and the energy of activation was 9.1 kcal/mol. The K_max for indole was 1.4 × 10^?4 M. The enzyme was inhibited by diethyldithiocarbamate, salicylaldoxime and sodium dithionite. The inhibition by diethyldithiocarbamate was specifically reversed by Cu²⁺. The dialysed enzyme was stimulated by Cu²⁺. Four atoms of oxygen were utilized in the disappearance of 1 mole of indole. Inhibition of the enzyme by -SH compounds and -SH group inhibitors, and their partial removal by Cu²⁺ only, suggested the involvement of -SH groups in binding of Cu²⁺ at the catalytic site.     

Arabidopsis indole synthase, a homolog of tryptophan synthase alpha, is an enzyme involved in the Trp-independent indole-containing metabolite biosynthesis

The plant tryptophan (Trp) biosynthetic pathway produces many secondary metabolites with diverse functions.Indole-3-acetic acid (IAA),proposed as a derivative from Trp or its precursors,plays an essential role in plant growth and development.Although the Trp-dependant and Trp-independent IAA biosynthetic pathways have been proposed,the enzymes,reactions and regulatory mechanisms are largely unknown.In Arabidopsis,indole-3-glycerol phosphate (IGP) is suggested to serve as a branchpoint component in the Trp-independent IAA biosynthesis.To address whether other enzymes in addition to Trp synthase α(TSA1) catalyze IGP cleavage,we identified and characterized an indole synthase (INS) gene,a homolog of TSA1 in Arabidopsis.INS exhibits different subcellular localization from TSA1 owing to the lack of chloroplast transit peptide (cTP).In silico data show that the expression levels of INS and TSA1 in all examined organs are quite different.Histochemical staining of INS promoter-GUS transgenic lines indicates that INS is expressed in vascular tissue of cotyledons,hypocotyls,roots and rosette leaves as well as in flowers and siliques.INS is capable of complementing the Trp auxotrophy of Escherichia coil △trpA strain,which is defective in Trp synthesis due to the deletion of TSA.This implies that INS catalyzes the conversion of IGP to indole and may be involved in the biosynthesis of Trp-independent IAA or other secondary metabolites in Arabidopsis.     

Pre-release evaluation of Heikertingerella sp. as a potential biocontrol agent for Tecoma stans in South Africa

Native to Central America, Tecoma stans (L.) Juss ex Kunth var. stans (Bignoniaceae) is a small tree that is invasive in South Africa and neighbouring countries. The plant was targeted for biological control in South Africa in 2003, with two insect agents released and established so far. The root-feeding flea beetle, Heikertingerella sp. (Coleoptera: Galerucinae: Alticini), was imported from Mexico as an additional biocontrol agent and its biology and host specificity was assessed under quarantine conditions. The beetle displayed a generation time (i.e. from adult to adult) of 49 to 67 days, ensuring four annual generations under laboratory conditions. The beetle's larval and adult stages inflicted high levels of damage on the root system and the leaves of T. stans, respectively. No-choice tests with 40 test-plant species revealed adult feeding on only two non-target species, Tecoma × alata and T. capensis (Thunb.) Spach, with feeding four times higher on T. stans. Larvae developed to adulthood on T. stans only. Multi-choice tests involving the three Tecoma species confirmed these trends, demonstrating that Heikertingerella sp. is host specific. Since T. × alata is a hybrid of T. stans with invasive tendencies, any unlikely attacks by Heikertingerella sp. would be inconsequential in South Africa. The native T. capensis, which suffered little leaf damage and produced no F1 adults, is also at minimal risk of attack. We conclude that Heikertingerella sp. is a suitable biocontrol agent for T. stans and that permission for its release in South Africa be sought.     

Cytotoxic cycloartane triterpenoids from the leaves of Markhamia stipulata var. canaense

From the most cytotoxic fraction of the ethyl acetate extract of Markhamia stipulata var. canaense V.S. Dang leaves, two new cycloartane-type triterpenoids, named Markhacanasin A (1) and Markhacanasin B (2); were isolated by various chromatographic methods Their structures were elucidated by IR, UV, HR-ESI–MS, NMR (1D & 2D) experiments. The cytotoxicity of two new compounds against five human cancer cell lines (HeLa, HepG2, MCF-7, Jurkat and NCI-H460) were evaluated by SRB assay. As results, 1 exhibited significant cytotoxic activity against all cancer cell lines (IC₅₀ ranged from 14.72 to 29.55 μM) while 2 did not show activity.     

Indole-3-glycerol phosphate, a branchpoint of indole-3-acetic acid biosynthesis from the tryptophan biosynthetic pathway in Arabidopsis thaliana

The phytohormone indole-3-acetic acid (IAA) plays a vital role in plant growth and development as a regulator of numerous biological processes. Its biosynthetic pathways have been studied for decades. Recent genetic and in vitro labeling evidence indicates that IAA in Arabidopsis thaliana and other plants is primarily synthesized from a precursor that is an intermediate in the tryptophan (Trp) biosynthetic pathway. To determine which intermediate(s) acts as the possible branchpoint for the Trp-independent IAA biosynthesis in plants, we took an in vivo approach by generating antisense indole-3-glycerol phosphate synthase (IGS) RNA transgenic plants and using available Arabidopsis Trp biosynthetic pathway mutants trp2-1 and trp3-1. Antisense transgenic plants display some auxin deficient-like phenotypes including small rosettes and reduced fertility. Protein gel blot analysis indicated that IGS expression was greatly reduced in the antisense lines. Quantitative analyses of IAA and Trp content in antisense IGS transgenic plants and Trp biosynthetic mutants revealed striking differences. Compared with wild-type plants, the Trp content in all the transgenic and mutant plants decreased significantly. However, total IAA levels were significantly decreased in antisense IGS transgenic plants, but remarkably increased in trp3-1 and trp2-1 plants. These results suggest that indole-3-glycerol phosphate (IGP) in the Arabidopsis Trp biosynthetic pathway serves as a branchpoint compound in the Trp-independent IAA de novo biosynthetic pathway.     

Influence of sex and immunocastration on feed intake behavior,skatole and indole concentrations in adipose tissue of pigs

Feed intake behavior was studied between 9 weeks of age and slaughter in a total of 36 gilts, 32 immunocastrates, 33 surgically castrated barrows and 33 boars from 36 litters. Consequences for the concentration of substances contributing to off odor of pork (skatole, indole) were evaluated. Animals were kept in groups of 12 pigs of the same sex and treatment and fed ad libitum (13.4 MJ ME, 17% CP, 1.1% lysine). Individual feed intake behavior was recorded continuously by an electronic feeder. Immunocastration was carried out with two injections of Improvac with at least 4 weeks between both injections (1st: 12 to 17 weeks of age, 2nd: 19 to 21 weeks of age). Feed intake/day increased from an average of 0.91 ± 0.02 kg/day up to 3.15 ± 0.04 kg/day before slaughter. This increase was associated with a 50% reduction in the number of meals/day (from 15.8 ± 0.44 to 7.2 ± 0.29 meals/day). The larger meal sizes resulted from an increase in both, the duration of feed intake/meal and the feed intake rate (g/min). In addition, sex and treatment differences were observed: Feed intake in boars was lower than in all other groups due to a reduction in the number of meals/day and in the time spent feeding/day. In females, time spent feeding/day was quite similar to boars, but resulted from a higher number of meals of shorter duration. Barrows had a significantly higher feed intake because of a higher number of meals/day resulting in more time spent feeding/day. The feed intake rate was similar in boars, gilts and barrows and showed an increasing trend during the study, starting from about 15 g/min up to four times the amount. Immunocastration affected feed intake behavior severely, especially the meal size increased dramatically because of higher feed intake rate, which exceeded that of all other groups by 25% at the end of the study. The number of meals/day was not influenced by immunocastration and was almost identical to that of boars. Highest skatole concentrations were measured in fat of boars, whereas indole concentrations were higher in immunocastrates than in all other groups. In gilts and barrows, skatole concentrations were related to growth rate. Additionally, the feeding rate was an important factor explaining the variability in skatole/indole concentrations in adipose tissue. The physiological mechanisms however need further clarification.