Relation between auxin autotrophy and tryptophan content in sunflower crown gall cells in culture

The content of indoleacetic acid (IAA) in cultured sunflowercrown gall cells was high in the transitional stage from thelog to the stationary stage. In contrast, the content of tryptophanwas low in the log, transitional and stationary stages, butin the necrotic stage it showed an increase of ca. 80 timesthat of the log and stationary stages. Although tryptophan transaminaseactivity per gram of fresh weight of the cells was detectedthroughout the culture period, with a slight increase in thetransitional stage, its specific activity remained low in thelog and stationary stages, but increased in the necrotic stageto two or three times that of the log or stationary stages.The accumulation of IAA in the transitional stage was not accompaniedby an increase in tryptophan. It might be regulated by the actionof the IAA protector, and the accumulation of IAA in the necroticstage might be regulated by the amount of tryptophan and theIAA protector. (Received April 11, 1980; )     

Studies on auxin protector substances, IAA-oxidase and peroxidase in cotyledons of Pharbitis nil

The nature of macromolecular "auxin protector substances" causinglag periods rather than inhibition in the rate of IAA oxidationwas reinvestigated. Three different peaks were separated bySephadex gel filtration; each was then examined by means ofenzymatic (IAA oxidase, peroxidase) and electrophoretic techniquesand correlated with the activities of both enzymes and withzymogram patters. The auxin protector activity of the high molecularweight fractions increased after high temperature treatment.On the basis of experiments involving dialysis and chromatographybefore and after heating, auxin protectors appear to be complexesof macromolecules with small molecules. (Received May 18, 1971; )     

Sclerotinia fructigena infection and chlorogenic acid content in relation to antifungal compounds in apple fruits

Several organic acids, known to occur in many apple varieties, were shown to be present in the juice of the variety Edward VII. When these were supplied separately to the brown rot pathogen, Sclerotinia fructigena, growing in culture, chlorogenic acid and quinic acid were both readily converted to compounds of higher antifungal activity, one of which was 4-hydroxybenzoic acid. The chlorogenic acid content of concentrated healthy fruit juice was ?6 mg/g, whereas the corresponding syrup from diseased fruit contained only ?2 mg/g. The possible significance of this metabolism of chlorogenic acid by the fungus is discussed.     

Studies on Auxin Protectors XII. Auxin Protectors and Polyphenol Oxidase in Developing Coffee Fruit

The fruit of the coffee plant (Coffea arabica) was analyzed for auxin protector content. Ripe coffee berries were separated into pit and pulp, ground in buffer, and assayed for auxin protectors. The extracts were then subjected to gel filtration in order to determine the molecular weight of the protector(s). In the pit, a single protector was found with a molecular weight approaching 5000 daltons, while the pulp contained several auxin protectors, the largest of which appeared to be about 1000 daltons. Chromato-graphic studies of various gel filtration fractions showed that protector activity was always associated with spots which exhibited a light blue fluorescence under UV. The changing patterns during coffee fruit development were also investigated. Auxin protector production, and polyphenol oxidase (E.C. 1.10.3.1), an enzyme related to protector metabolism, were assayed at weekly intervals. In the unripe berry, an auxin protector was found with a molecular weight exceeding 200,000 daltons; as the berry ripened the amount of this protector gradually decreased until almost none was present in the ripe berry and the pattern changed to the pattern described above. Polyphenol oxidase content decreased as the berry ripened. Commercially roasted pits, i.e., coffee “beans”, contained very high levels of protector activity. However, gel filtration studies showed this activity to be associated entirely with low molecular weight compounds.     

Purification and characterization of a chlorogenic acid hydrolase from Aspergillus niger catalysing the hydrolysis of chlorogenic acid

Among 15 Aspergillus strains, Aspergillus niger BRFM 131 was selected for its high chlorogenic acid hydrolase activity. The enzyme was purified and characterized with respect to its physico-chemical and kinetic properties. Four chromatographic steps were necessary to purify the protein to homogeneity with a recovery of 2%. Km of the chlorogenic acid hydrolase was estimated to be 10 microM against chlorogenic acid as substrate. Under native conditions, the protein presented a molecular mass of 170 kDa, and SDS-PAGE analysis suggested the presence of two identical 80 kDa subunits. Isoelectric point was 6.0; pH optimum for activity was determined to be 6.0 and temperature optima to be 55 degrees C. The N-terminal sequence did not present any homology with other cinnamoyl ester hydrolases previously described suggesting the purification of a new protein. The chlorogenic acid hydrolase was used successfully for the production of caffeic acid, which possesses strong antioxidant properties, from natural substrates specially rich in chlorogenic acid like apple marc and coffee pulp.     

Changes in Amount of Polyphenols and Activity of Related Enzymes during Growth of Tobacco Flower and Capsule

Developmental stages of tobacco (Nicotiana tabacum L. cv. Burley 21) flower and capsule were correlated with tissue contents of polyphenols and activities of phenylalanine ammonialyase, polyphenoloxidase, and peroxidase. Chlorogenic acid, scopolin, and scopoletin were present in most tissues, whereas rutin and two dihydroxyphenolic glycosides concentrated primarily in the corolla and placenta, respectively. Ovules contained only chlorogenic acid. As development progressed, polyphenols accounted for nearly 15% of the dry weight in the green capsule of field-grown plants. Fertilization triggered a rapid increase of chlorogenic acid in the ovary. When l-phenylalanine-U-(14)C was fed to the detached green capsules and capsule parts, an incorporation of radioactivity into chlorogenic acid and dihydroxyphenolic glycosides occurred which suggested in situ synthesis of these compounds. This was subtantiated by a positive correlation between phenylalanine ammonia-lyase activity and polyphenol accumulation. High polyphenoloxidase activity was associated mainly with the ovary, whereas peroxidase activity was maximal during senescence of all tissues. Polyacrylamide gel slab electrophoresis revealed five cathodic bands and one diffuse zone with poly-phenoloxidase activity in flower extracts. Two anodic poly-phenoloxidase isozymes appeared only in the fertilized ovary. Among 17 peroxidase isozymes, six cathodic forms were present throughout floral development, and the anodic ones increased in number and activity at the later stages of capsule growth.     

Coffee polyphenol caffeic acid but not chlorogenic acid increases 5'AMP-activated protein kinase and insulin-independent glucose transport in rat skeletal muscle

Chlorogenic acid is an ester of caffeic and quinic acids, and is one of the most widely consumed polyphenols because it is abundant in foods, especially coffee. We explored whether chlorogenic acid and its metabolite, caffeic acid, act directly on skeletal muscle to stimulate 5'-adenosine monophosphate-activated protein kinase (AMPK). Incubation of rat epitrochlearis muscles with Krebs buffer containing caffeic acid (≥0.1 mM, ≥30 min) but not chlorogenic acid increased the phosphorylation of AMPKα Thr(172), an essential step for kinase activation, and acetyl CoA carboxylase Ser(79), a downstream target of AMPK, in a dose- and time-dependent manner. Analysis of isoform-specific AMPK activity revealed that AMPKα2 activity increased significantly, whereas AMPKα1 activity did not change. This enzyme activation was associated with a reduction in phosphocreatine content and an increased rate of 3-O-methyl-d-glucose transport activity in the absence of insulin. These results suggest that caffeic acid but not chlorogenic acid acutely stimulates skeletal muscle AMPK activity and insulin-independent glucose transport with a reduction of the intracellular energy status.     

Type 1 diabetes mellitus induces structural changes and molecular remodelling in the rat kidney

Previous studies indicated that chlorogenic acid, a compound present in many fruits and vegetables, has anti-cancer activities. We report that chlorogenic acid regulates the expression of apoptosis-related genes and self-renewal-related stem cell markers in cancer cells. The lung cancer cell line A549 was cultured with or without chlorogenic acid. The presence of chlorogenic acid decreased cell proliferation as measured by MTT activity. Polymerase chain reaction (PCR) showed that treatment of cells with chlorogenic acid reduced the expression of BCL2 but increased that of both BAX and CASP3. Chlorogenic acid enhanced annexin V expression as measured using fluorescently labeled annexin V. Chlorogenic acid also induced p38 MAPK and JNK gene expression. Meanwhile, several agents, including SB203580 (p38 MAP kinase inhibitor), N-acetylcysteine (antioxidant inhibitor), dipyridamole (phosphodiesterase inhibitor), and apocynin (NADPH-oxidase inhibitor) blocked chlorogenic acid-induced BAX gene expression. Chlorogenic acid reduced gene expression levels of stem cell-associated markers NANOG, POU5F1, and SOX2. Together these results indicate that chlorogenic acid affects the expression of apoptosis-related genes that are part of oxidative stress and p38 MAP-dependent pathways, as well as genes encoding stem cell markers. In conclusion, chlorogenic acid may contribute to the polyphenolic anti-cancer effect associated with consumption of vegetables and fruits.     

Protective Effects of Chlorogenic Acid on Paraquat-induced Oxidative Stress in Rats

The protective effects of chlorogenic acid on paraquat-induced oxidative stress were examined in rats. The activities of erythrocytes and liver glutathione peroxidase, and of both liver catalase and glutathione reductase, which were increased by feeding paraquat, declined to the levels in the control rats by supplementing chlorogenic acid to the paraquat diet. The activity of superoxide dismutase was not changed by dietary paraquat or by supplementing chlorogenic acid to the paraquat diet. Paraquat in the diet markedly decreased the liver triacylglycerol and phospholipid concentrations, as well as the food intake and body weight gain, while chlorogenic acid protected against these decreases. These in vivo results and the in vitro superoxide anion scavenging activity of chlorogenic acid suggest that chlorogenic acid acted preventively against paraquat-induced oxidative stress.     

Photocontrol of chlorogenic acid biosynthesis in potato tuber discs

The appearance of phenylalanine ammonia-lyase activity and the accumulation of chlorogenic acid in potato tuber discs are stimulated by illumination with white light, whereas the appearance of cinnamic acid 4-hydroxylase activity is unaffected by illumination. The photosensitive step in chlorogenic acid biosynthesis may be by-passed by treatment of discs with exogenous supplies of cinnamic acid, whereas treatment of discs with phenylalanine does not isolate the photosensitive step. Therefore, the site of photocontrol of chlorogenic acid biosynthesis in potato tuber discs is the reaction catalysed by phenylalanine ammonia-lyase. Cinnamic acid 4-hydroxylase activity in vitro is unaffected by p-coumaric acid, caffeic acid or chlorogenic acid. Phenylalanine ammonia-lyase activity in vitro is sensitive to inhibition by cinnamic acid. The in vitro properties of the two enzymes are also consistent with the hypothesis that phenylalanine ammonia-lyase rather than cinnamic acid 4-hydroxylase is important in the regulation of chlorogenic acid biosynthesis in potato tuber discs.     

Micropropagation with 3-methyleneoxindole: Its obligatory role in indole-3-acetic acid-mediated auxin action

Summary 3-Methyleneoxindole (MO), a metabolite of the plant auxin indole-3-acetic acid (IAA), was more active than IAA in supporting Stage II and III micropropagation of several plant species. In Stage II micropropagation, characterized by the rapid numerical increase of shoots, the optimal IAA concentration was 0.01 mM compared to 0.1 mM MO for most plants. In Stage III micropropagation where auxin is required for the rhizogenic response, 0.1 μM MO was more effective than 0.01 mM IAA. Inhibition analysis of plant growth with chlorogenic acid (CGA) suggested an obligatory role for MO in IAA-mediated auxin reactions: CGA, which blocks the enzymatic oxidation of IAA to MO, in vivo, completely abolished IAA's ability to support the growth of explants during micropropagation. In contrast, CGA did not inhibit the auxin activity of MO, the product of the blocked reaction. The growth rate and rooting efficiency of tobacco propagules in Stage III medium was improved substantially if these were first exposed to a high concentrations of MO and subsequently transferred to media containing low or no MO.     

Correlation between Chlorophyll and Chlorogenic Acid Content in Tobacco Leaves

Developmental stages of tobacco (Nicotiana tabacum L. cv. Burley 21) flower and capsule were correlated with tissue contents of polyphenols and activities of phenylalanine ammonialyase, polyphenoloxidase, and peroxidase. Chlorogenic acid, scopolin, and scopoletin were present in most tissues, whereas rutin and two dihydroxyphenolic glycosides concentrated primarily in the corolla and placenta, respectively. Ovules contained only chlorogenic acid. As development progressed, polyphenols accounted for nearly 15% of the dry weight in the green capsule of field-grown plants. Fertilization triggered a rapid increase of chlorogenic acid in the ovary. When l-phenylalanine-U-¹⁴C was fed to the detached green capsules and capsule parts, an incorporation of radioactivity into chlorogenic acid and dihydroxyphenolic glycosides occurred which suggested in situ synthesis of these compounds. This was subtantiated by a positive correlation between phenylalanine ammonia-lyase activity and polyphenol accumulation. High polyphenoloxidase activity was associated mainly with the ovary, whereas peroxidase activity was maximal during senescence of all tissues. Polyacrylamide gel slab electrophoresis revealed five cathodic bands and one diffuse zone with poly-phenoloxidase activity in flower extracts. Two anodic poly-phenoloxidase isozymes appeared only in the fertilized ovary. Among 17 peroxidase isozymes, six cathodic forms were present throughout floral development, and the anodic ones increased in number and activity at the later stages of capsule growth.     

Oxidative damage to DNA by 1,10-phenanthroline/<Emphasis Type="SmallCaps">l</Emphasis>-threonine copper (II) complexes with chlorogenic acid

The oxidative DNA damage by copper (II) complexes in the presence of chlorogenic acid was explored using agarose gel electrophoresis. The extent of pBR322 DNA damage was enhanced significantly with increasing concentration of [Cu-phen-Thr] complex and incubation time. A fluorescence quenching activity of calf thymus DNA–EB was observed more remarkably with chlorogenic acid than without chlorogenic acid. The fluorescence measurements suggested that [Cu-phen-Thr] complex not only can bind to DNA by intercalation but also can damage the double strand DNA in the presence of chlorogenic acid. Further, 8-hydroxy-2′-deoxyguanosine, a biomarker of DNA oxidative damage was determined by electrochemical method. The control experiments revealed that the structure of copper (II) complexes affected capability of complex to DNA damage. The planar structure copper (II) complex showed high efficiency to DNA damage. The chlorogenic acid as biological reductant could improve copper (II) complex to DNA damage. A mechanism on [Cu-phen-Thr] complex to DNA damage in the presence of chlorogenic acid was proposed.     

Ontogeny and Hormonal Control of Polyphenoloxidase Isozymes in Tobacco Pith

Isozymes of tobacco pith polyphenoloxidases (o-diphenol oxidase, EC 1.10.3.1) were separated electrophoretically from fresh pith of intact plants and from cultured pith sections. Extracts of fresh pith contained a poorly resolved complex of two to three anodic bands after starch gel electrophoresis at alkaline pH. This anodic complex was more active with chlorogenic acid than with 3,4-dihydroxyphenylalanine and was found in greater activity per gram fresh weight of tissue in younger internodes than in older ones. The longitudinal gradient of activity was thus the opposite of that found for the constitutive isozymes of peroxidase.A well defined cathodic band of polyphenoloxidase activity appeared after culture of pith in modified White's medium with shaking. This band, which was more active with 3,4-dihydroxyphenylalanine than with chlorogenic acid, could be detected after 1 to 2 days of incubation. Its appearance was enhanced by the addition of 10 mum indoleacetic acid; kinetin (1 mum tended to prevent this indoleacetic acid effect). Such hormonal control is opposite to that previously reported for the rapidly appearing new isozymes of peroxidase.The pattern of the major isozymes associated with polyphenoloxidase activities differs from that of peroxidase.     

Profiling the chlorogenic acids of aster by HPLC-MS(n)

Using HPLC-MS(n), 33 chlorogenic acids were identified in an aqueous-alcoholic extract of Aster ageratoides Turcz. flower buds. These were three isomers each of p-coumaroylquinic acid, caffeoylquinic acid, feruloylquinic acid, dicaffeoylquinic acid and diferuloylquinic acid, and six isomers each of p-coumaroyl-caffeoylquinic acid, p-coumaroyl-feruloylquinic acid and caffeoyl-feruloylquinic acid. Only the caffeoylquinic acids and dicaffeoylquinic acids have been reported previously in Asteraceae. Three of the six p-coumaroyl-feruloylquinic acids (3-feruloyl-4-p-coumaroylquinic acid, '3-feruloyl-5-p-coumaroylquinic acid and 4-feruloyl-5-p-coumaroylquinic acid) have not been observed previously in nature. Cis-5-p-coumaroylquinic acid was identified at a concentration ca 25% that of the more common trans isomer. The feruloylquinic acids and diferuloylquinic acids dominated the mono- and di-acyl chlorogenic acid fractions, respectively, making this plant material a useful source of these commercially non-available substances. These 33 chlorogenic acids were not detected in the leaves or stem of A. ageratoides Turcz., or in the flower buds of A. ageratoides Turcz. var. Gerla or A. kalimeris indica (L) Sch. Bip. Only the feruloylquinic acids were detected in the root of A. ageratoides Turcz. It was not possible to detect any 1-acyl chlorogenic acids, any chlorogenic acids with a succinic acid substituent, or any chlorogenic acids based on muco-quinic acid.     

Inhibitory activity of chlorogenic acid on enzymes involved in the fatty acid synthesis in animals and bacteria

It was found that chlorogenic acid inhibited in vitro animal fatty acid synthase (FAS I) and the ss-ketoacyl-ACP reductase (FabG) from Escherichia coli in a concentration-dependent manner with respective IC50 of 94.8 and 88.1 microM. The results of Lineweaver-Burk plots indicated that chlorogenic acid inhibited competitively the binding of NADPH to FAS I, while left those of acetyl-CoA and malonyl-CoA unaffected. Further kinetic studies showed that chlorogenic acid blocked the activity of FAS I mainly by inhibiting the ss-ketoacyl reductase domain, which catalyzed the same reaction as that done by FabG in the fatty acid synthesis. The ss-ketoacyl reduction reactions accomplished by both FAS I and FabG required nucleotide cofactor, NADPH. Furthermore, the Lineweaver-Burk and Yonetani-Theorell analyses implicated that chlorogenic acid filled competitively in the binding-pocket of NADPH in the ss-ketoacyl reductase domain of FAS I. The similar results were also obtained from the inhibition of FabG by chlorogenic acid. As observed in these results, the inhibitions of FAS I and FabG by chlorogenic acid were highly related to the interference of the inhibitor with NADPH, which was possibly due to the similarity between chlorogenic acid and some portion of NADPH, maybe the section consisting of the two ribose groups.     

Turnover and metabolism of chlorogenic Acid in xanthium leaves and potato tubers

The active turnover of chlorogenic acid (3-caffeoylquinic acid(3)), a major phenolic component of Xanthium leaves and potato tuber disks, has been demonstrated in these tissues. Pulse-labelling experiments with radioactive l-phenylalanine and trans-cinnamic acid as well as direct feeding experiments with chlorogenic acid-(14)C labelled in the caffeoyl moiety have been employed in the turnover studies. The rate of turnover is calculated to be on the order of 50 to 100 mmumoles per hour per gram fresh weight of tissue.In Xanthium leaves chlorogenic acid is in part converted to an isochlorogenic acid identified by silica gel chromatography as 3,5-dicaffeoylquinic acid. Radioactivity of the caffeoyl moiety of chlorogenic acid is also incorporated into lignin-like insoluble polymers in the leaf. Turnover of chlorogenic acid in tuber tissue is largely accounted for by the incorporation of the caffeoyl moiety into insoluble polymers in the tissue.The significance of chlorogenic acid turnover is discussed in relation to the perception of the photoperiodic stimulus by leaves and to the possible role of chlorogenic acid in lignin synthesis.     

Impermeant auxin analogues have auxin activity

Protein conjugates of 5-aminonaphthalene-1-acetic acid and of 5-azido-naphthalene-1-acetic acid have been prepared and evaluated for auxin activity in two types of assay. In standard elongation tests with pea (Pisum sativum L.) epicotyl sections the conjugates are inactive. However, if the epicotyls are abraded to perforate the cuticle, auxin activity is observed provided that the conjugates are not too large to traverse the cell wall. In a system lacking a cell wall — tobacco (Nicotiana tabacum L.) protoplasts — conjugates of widely differing size are able to induce membrane hyperpolarization. These results support other recent evidence that auxin receptors are exposed at the exterior face of the plasma membrane and indicate that auxins can produce both rapid and longer-term responses without entering the cell.Abbreviations ABP auxin-binding protein - BSA bovine serum albumin - E_m transmembrane potential difference - KLH keyhole limpet hemocyanin - NAA naphthalene-1-acetic acid This work was partly supported under the Biotechnology Action Programme of the European Economic Communities. We thank Mr. P. Cozens for technical assistance.To whom correspondence should be addressed.     

Studies on a chlorogenic acid-producing endophytic fungi isolated from <Emphasis Type="Italic">Eucommia ulmoides</Emphasis> Oliver

Eucommia ulmoides Oliver is a traditional medicinal plant of China, and it is one of the main sources of chlorogenic acid. Chlorogenic acid is an ester of caffeic acid, quinic acid, and a phenolic compound that has antibacterial, antifungal, antioxidant, and antitumor activities. The purpose of this study was to determine whether endophytic fungi isolated from Eucommia ulmoides Oliver had the same ability to produce chlorogenic acid. Primary screening was done by antibacterial and antifungal reactions, and the strain reselection was done with high-performance liquid chromatography (HPLC) to identify the fermentation products of the selected strains. Extracts of the leaf and cortex of Eucommia ulmoides Oliver were also deteted by HPLC, then positive results of HPLC were analyzed by GC-MS and LC-MS. In this study, 29 strains were isolated from Eucommia ulmoides Oliver. Most of them had antibacterial activity, and a few of them had antifungal activity. One ingredient of the B5 extract had a retention time identical to that of authentic chlorogenic acid. With GC-MS, other ingredients, isocoumarin and p-chlorocinnamide, were found. With LC-MS, chlorogenic acid and geniposide related to Eucommia ulmoides Oliver were found. The strain B5 was identified as Sordariomycete sp. Thus, endophytic fungi may produce the bioactive compound chlorogenic acid, as their host plant does, and could be used for the production of chlorogenic acid by fermentation in the future.