The cytokinin activities of 6-α-alkylbenzyloxypurines

The homologous series of 6-α-n-alkylbenzyloxypurines with alkyl groups (—(CH₂)_nCH₃) from n = 0 to n = 11 have been prepared and examined in three tests for cytokinin activity. The parent benzyloxypurine was also included in the tests. Substituting methyl (n = 0) into the methylene group of 6-benzyloxypurine removed activity almost completely; thereafter, increasing the size of the alkyl group (n = 1–5) gave compounds which were active in all tests, the butyl (n = 3) and pentyl (n = 4) derivatives being more active than 6-benzyloxypurine itself. Activity then fell as the series was ascended; the higher homologues (n = 8–11) being completely inactive. The results are discussed in relation to steric and other considerations.     

4-Alkoxy-2-methylthiopyrrolo-[2,3-d]-pyrimidines. A new series of anti-cytokinins

A series of 4-alkoxy-2-methylthiopyrrolo[2,3-d] pyrimidines having alkoxy groups from methoxy to hexyloxy along with the parent 4-hydroxy compound have been tested for cytokinin and anticytokinin activity using tobacco tissue culture. None of the compounds showed any cytokinin activity but several of the compounds were strongly active as anticytokinins, the most active was 4-pentyloxy-2-methyl-thiopyrrolo[2,3-d] pyrimidine. Increasing or decreasing the chain length resulted in a lowering of activity; the hydroxy and methoxy compounds were totally inactive over the concentration range tested. The results are discussed in relation to steric and other considerations.     

Cytokinins with different connecting links between purine and isopentenyl or benzyl groups

Using the tobacco bioassay a comparison was made between the cytokinin activities of the following series of compounds with different connecting links (6-NH, S, O, CH₂) between the purine ring and isopentenyl or benzyl groups: 6-(3-methyl-2-butenylamino)purine (1a), 6-(3-methyl-2- butenylthio)purine (1b), 6-(3-methyl-2-butenyloxy)purine (1c), and 6-(4-methyl-3-pentenyl)purine (1d); 6-benzylaminopurine (2a), 6-benzylthiopurine (2b), 6-benzyloxypurine (2c), and 6-(2-phenethyl)purine (2d); also 6-trans-styrylpurine (3), the synthetic precursor of 2d. All possess cytokinin activity, thus providing evidence that the intact base, consisting of nucleus and sidechain at the purine 6-position, is necessary and sufficient for such activity as measured in the tobacco bioassay. The biological activity in the 6-(3-methyl- 2-butenyl-X)purine series decreases as a function of the linkage group in the order X = NH > CH₂ > S ⪢ O and in the 6-benzyl-X-purine series in the order X = NH > CH₂ = O ⪢ S. The 6-trans-styrylpurine (3) is about equally active as 6-(2-phenethyl)purine (2d).     

Defense and resistance-inducing activities in tobacco of the sulfated beta-1,3 glucan PS3 and its synergistic activities with the unsulfated molecule

Laminarin, a beta-1,3 glucan with single beta-glucose branches at position 6, was chemically sulfated to produce PS3 with a degree of sulfation of 2.4. PS3 has previously been shown to activate the salicylic acid (SA) signaling pathway in infiltrated tobacco and Arabidopsis thaliana leaf tissues. Here, we investigated whether PS3 induces systemic defense and resistance responses in tobacco. Using a radiolabeled compound, it was first demonstrated that PS3 remains strictly localized to the infiltrated tissues. PS3 is also resistant to beta-glucanase degradation. In transgenic PR1-beta-glucuronidase (GUS) tobacco plants, PS3 causes a strong increase in GUS activity in treated tissues but none in untreated leaves. PS3-infiltrated tissues challenged with tobacco mosaic virus (TMV) 8 d after elicitor application show a decrease in both the lesion number and the lesion size, whereas treatment with laminarin, the unsulfated native glucan, affected only the lesion number. PS3 does not induce systemic acquired resistance to TMV. PS3 and laminarin show synergistic effects in promoting the oxidative burst in tobacco cell suspensions and in increasing the expression of genes encoding O-methyltransferases of the phenylpropanoid pathway in tobacco plants. No synergistic effect was observed on the expression of either the SA-dependent acidic PR1 gene or the ethylene-dependent basic PR5 gene in tobacco plants.     

Homarine (N-methylpicolinic acid) and trigonelline (N-methylnicotinic acid) appear to be involved in pattern control in a marine hydroid

A morphogenetically active compound has been isolated from tissue extract of Hydractinia echinata and identified to be N-methylpicolinic acid (homarine). When applied to whole animals, homarine prevents metamorphosis from larval to adult stage and alters the pattern of adult structures. The concentration of homarine in oocytes is about 25 mM. During embryogenesis, metamorphosis and early colony development the overall homarine content does not change. Adult colonies contain a fourfold lower homarine concentration than larvae. The polyp's head contains twofold more homarine than the gastric region and the stolons. A second, similarly active compound, N-methylnicotinic acid (trigonelline), has also been identified in Hydractinia tissue at concentrations about one-third that of homarine. Incubation of larvae in 10 to 20 microM-homarine or trigonelline prevents head as well as stolon formation. If the compounds are applied in a pulse during metamorphosis, a large part of the available tissue forms stolons. Since microM concentrations of homarine and trigonelline are morphogenetically active, whereas mM concentrations are present in the tissue it appears that both substances are stored within the tissue.     

Possible biologically active metabolites of 5-hydroxy-6-methyl-2-di-n-propylaminotetralin

5-Hydroxy-6-methyl-2-di-n- propylaminotetralin 1b exhibits prominent peripheral presynaptic and central dopaminergic effects, and pharmacological test data suggest that this compound is metabolically activated in vivo. It was speculated that the 6-methyl group is oxidized. To evaluate this possibility and as a prelude to a metabolism study, 5-hydroxy-6-formyl 5 and 5-hydroxy-6-hydroxymethyl-2-di-n- propylaminotetralin 2b were synthesized. Both compounds exhibited marked potency/activity in a cat cardioaccelerator nerve preparation. The biological data on these compounds are consistent with the possibility of their being pharmacologically active metabolites of compound 1b.     

Expression of thermostable microbial cellulases in the chloroplasts of nicotine-free tobacco

An inexpensive source of active cellulases is critical to efficient and cost-effective conversion of lignocellulosic biomass to ethanol. Transgenic plants expressing foreign cellulases are potential sources of cellulases for biomass conversion. A number of foreign proteins have been reported to accumulate to high levels when the transgene is incorporated into the chloroplast genome rather than into the nuclear genome. We developed plastid transformation vectors carrying two Thermobifida fusca thermostable cellulases, Cel6A and Cel6B, and expressed them in nicotine-free or nicotine-containing tobacco varieties following chloroplast transformation. We obtained homoplasmic tobacco plants expressing Cel6A or Cel6B. Maximum estimates of expression levels ranged from 2 to 4% of total soluble protein. Enzyme assays indicated that both Cel6A and Cel6B expressed in transplastomic tobacco were active in hydrolyzing crystalline cellulose. With further optimization, it may be feasible to produce bacterial cellulases in tobacco chloroplasts in large quantities.     

Partial characterization of a luteal factor that induces implantation in the ferret

This study was designed to test the hypothesis that ferret corpora lutea (CL) secrete a compound that acts in conjunction with progesterone to induce blastocyst implantation and to identify the chemical nature of this compound. CL and the residual ovarian tissue, obtained predominantly on the ninth day of pseudopregnancy, were extracted with 0.05 M phosphate-buffered saline. The extracts were injected into pregnant ferrets that had been ovariectomized on Day 6 of pregnancy and had received Silastic implants containing progesterone. Aqueous luteal extracts, but not those of the residual ovarian tissue, induced implantation in test animals. Fractionation of the luteal extracts by passage through a series of filters with molecular weight (MW) cutoffs ranging from 500 to 50,000 consistently revealed that the biologically active fraction was retained on the filter with the highest MW cutoff employed. Moreover, blastocyst implantation failed to occur in ovariectomized, progesterone-treated ferrets after one-half of a luteal preparation (MW greater than 50,000) was incubated with a broad-spectrum protease. These data are consistent with the hypothesis that CL of the ferret secrete a protein during the preimplantation period that is essential for blastocyst implantation.     

Cyclitol production in transgenic tobacco

High levels of cyclic sugar alcohols (cyclitols) correlate with tolerance to osmotic stress in a number of plant species. A gene encoding a cyclitol biosynthesis enzyme from a halophyte, Mesembryanthemum crystallinum has been introduced into tobacco. The gene, lmt1 , encodes a myo -inositol O -methyl transferase that, in M. crystallinum , catalyzes the first step in the stress-induced accumulation of the cyclitol pinitol. Tobacco transformed with the lmt1 cDNA under the control of the CaMV 35S promoter appeared phenotypically normal and exhibited IMT1 enzyme activity. Transformants accumulated a carbohydrate product not detectable in non-transformed control plants. This product was identified by HPLC and NMR as ononitol (1- d -4- O -methyl myo -inositol). Ononitol was a major carbohydrate constituent in leaf tissue of plants expressing the lmt1 gene, accumulating to up to 25% the level of sucrose in transformant seedlings. The identification of ononitol as the IMT1 product and the specific accumulation of this compound in transformed tobacco support a role for ononitol as a stable intermediate in pinitol biosynthesis and indicate that an epimerization activity lacking in tobacco is responsible for the conversion of ononitol to pinitol in M. crystallinum . The production of ononitol in tobacco indicates that plant carbohydrate metabolism is flexible and can accommodate the synthesis and accumulation of non-endogenous metabolites. The transgenic system described here will serve as a useful model to test the ability of cyclitols such as ononitol to confer tolerance to environmental stress in a normally glycophytic plant.     

Small Molecule Proprotein Convertase Inhibitors for Inhibition of Embryo Implantation

Uterine proprotein convertase (PC) 6 plays a critical role in embryo implantation and is pivotal for pregnancy establishment. Inhibition of PC6 may provide a novel approach for the development of non-hormonal and female-controlled contraceptives. We investigated a class of five synthetic non-peptidic small molecule compounds that were previously reported as potent inhibitors of furin, another PC member. We examined (i) the potency of these compounds in inhibiting PC6 activity in vitro; (ii) their binding modes in the PC6 active site in silico; (iii) their efficacy in inhibiting PC6-dependent cellular processes essential for embryo implantation using human cell-based models. All five compounds showed potent inhibition of PC6 activity in vitro, and in silico docking demonstrated that these inhibitors could adopt a similar binding mode in the PC6 active site. However, when these compounds were tested for their inhibition of decidualization of primary human endometrial stromal cells, a PC6-dependent cellular process critical for embryo implantation, only one (compound 1o) showed potent inhibition. The lack of activity in the cell-based assay may reflect the inability of the compounds to penetrate the cell membrane. Because compound''s lipophilicity is linked to cell penetration, a measurement of lipophilicity (logP) was calculated for each compound. Compound 1o is unique as it appears the most lipophilic among the five compounds. Compound 1o also inhibited another crucial PC6-dependent process, the attachment of human trophoblast spheroids to endometrial epithelial cells (a model for human embryo attachment). We thus identified compound 1o as a potent small molecule PC6 inhibitor with pharmaceutical potential to inhibit embryo implantation. Our findings also highlight that human cell-based functional models are vital to complement the biochemical and in silico analyses in the selection of promising drug candidates. Further investigations for compound 1o are warranted in animal models to test its utility as an implantation-inhibiting contraceptive drug.     

Production of 6-methylsalicylic acid by expression of a fungal polyketide synthase activates disease resistance in tobacco

Salicylic acid (SA) has been shown to act as a signal molecule that is produced by many plants subsequent to the recognition of potentially pathogenic microbes. Increases in levels of SA often trigger the activation of plant defenses and can result in increased resistance to subsequent challenge by pathogens. We observed that the polyketide 6-methylsalicylic acid (6-MeSA), a compound that apparently is not endogenous to tobacco, can mimic SA. Tobacco leaves treated with 6-MeSA show enhanced accumulation of the pathogenesis-related (PR) proteins PR1, beta-1,3-glucanase, and chitinase and also develop increased resistance to tobacco mosaic virus. We transformed tobacco with 6msas, the 6-methylsalicylic acid synthase (6MSAS) gene from Penicillium patulum, to generate plants that constitutively accumulate 6-MeSA. Analysis of primary transformants and the first generation progeny of 6MSAS tobacco revealed that plants can be engineered to accumulate significant amounts of 6-MeSA as a conjugate. Levels of total 6-MeSA increased with plant age. Increased 6-MeSA accumulation correlated with increased levels of PR1 and chitinase proteins and resulted in enhanced resistance of NN genotype 6MSAS tobacco to tobacco mosaic virus. Our results demonstrate that a multistep biosynthetic pathway can be engineered into plants using a single fungal polyketide synthase gene. The functional expression of 6msas can be used to activate disease resistance pathways that normally are induced by SA.     

The pharmacological activity of nicotine and nornicotine on nAChRs subtypes: relevance to nicotine dependence and drug discovery

Cigarette smoking and other forms of tobacco use deliver an array of pharmacologically active alkaloids, including nicotine and ultimately various metabolites of these substances. While nornicotine is a significant component in tobacco as well as a minor systemic metabolite of nicotine, nornicotine appears to be N-demethylated locally in the brain where it accumulates at relatively high levels after chronic nicotine administration. We have now examined the effects of nornicotine on specific combinations of neuronal nicotinic acetylcholine receptor (nAChR) subunits expressed in Xenopus oocytes and compared these responses to those evoked by acetylcholine and nicotine. Of the nAChR subtypes studied, we have found that alpha7 receptors are very responsive to nornicotine (EC50 approximately 17 micromol/L I(max) 50%, compared with acetylcholine (ACh)). nAChRs containing the ligand-binding domain of the alpha6 subunits (in the form of an alpha6/alpha3 chimera) are also strongly responsive to nornicotine (EC50 approximately 4 micromol/L I(max) 50%, compared with ACh). Alpha7-type nAChRs have been suggested to be potential therapeutic targets for Alzheimer's disease, schizophrenia and possibly other pathologies. nAChRs containing alpha6 subunits have been suggested to have a role in nicotine-evoked dopamine release. Thus, understanding the actions of nornicotine in the brain may have significance for both emerging therapeutics and the management of nicotine dependence.     

Activité cytokinine de dérivés acylés,alkylés,acyl-alkylés de l'adénine et d'isost`eres azotés de la γ,γ-diméthylallyladénine

The cytokinin activities of various 6-acylaminopurines, 6-alkylaminopurines, 6-acylamino-9-benzyl-purines as well as a series of isosteric-nitrogen derivatives of N⁶-(γ, γ-dimethylallyl)adenine (I⁶Ade) have been tested using the tobacco pith and the pea bud bioassays. The interactions between active, slightly active and inactive compounds have been studied with the last assay. Acylation decreases the biological activity; e.g., N⁶-benzoyl and N⁶-furoyladenines are less active than Na⁶-benzyladenine and kinetin. Substitution at the 9-position reduces (tobacco-pith assay) or suppresses (pea-bud assay) the phytohormonal activity of otherwise active 6-acylaminopurines. In isosteric derivatives, maximum activity occurs when the side chain has the same length as in 1⁶Ade. After the analysis of interactions between more or less active compounds, it is suggested that the differences in cytokinin activity could be related to unequal affinities for a hypothetical receptor site.     

Ferulic acid: a substrate for two isoperoxidases from Nicotiana tabacum tissue cultures

An anodic isoperoxidase (A₂) from tobacco tissue culture W-38 and a cathodic isoperoxidase (C₄) from tobacco tissue suspension culture WR-132 have been separated and characterized. Both isoperoxidases catalysed oxidation of ferulic acid in the presence of H₂O₂. When the reaction mixture was subjected to TLC, ferulic acid was found to have been converted to an unknown compound which, after treatment with ammonia, fluoresces green in UV light. Both the isoperoxidases A₂ and C₄ appear to follow simple Michaelis-Menten kinetics with respect to guaiacol as the substrate. The Kms for guaiacol are 4 and 4·5 mM for isoperoxidases C₄ and A₂, respectively. The pH optimum for both enzymes is about 6·0. The effect of various phenolic and related compounds on the activity of each isoperoxidase is reported and discussed.     

Kinetin incorporated into tobacco callus ribosomal RNA and transfer RNA preparations

Kinetin, N⁶-furfuryladenine, was incorporated into tobacco (nicotiana tabacum L., var. Wis. No. 38) callus RNA isolated from rapidly growing tissue cultured in the presence of N⁶-furfuryladenine-8-¹⁴C or unlabeled kinetin. Approximately 0.7% of the radioactivity in the labeled kinetin added to the medium was recovered as N⁶-furfuryladenosine (fr⁶A) in the rRNA and tRNA preparations from the tobacco callus. The rRNA contained over 90% of these fr⁶ A moieties. The extent of kinetin incorporation was four times greater than that observed for N⁶-benzyladenine. The radiochemical purity of the recovered fr⁶ A was confirmed by three successive chromatographic purifications on Sephadex columns (LH-20 eluted with 35% ethanol, G-10 eluted with 20% ethanol, and LH-20 eluted with water). A cytokinin-active ribonucleoside with elution volumes corresponding to fr⁶ A was isolated from the tobacco callus rRNA preparation. This compound was analyzed by gas-liquid chromatography and rigorously characterized as N⁶-furfuryladenosine by gas-liquid chromatography-mass spectrometry of the trimethylsilyl derivative.     

Effect of phenolic compounds on glucose-6-phosphate dehydrogenase isoenzymes

Effector studies with two isoenzymes (I and IV) of glucose-6-phosphate dehydrogenase (G6PDH) from tobacco suspension culture WR-132 revealed that chlorogenic acid, at 0.4 mM, inhibited both isoenzymes almost 100%, with the inhibition decreasing as the concentration of the acid was reduced. At 0.3 and 0.4 mM, the coumarin glucosides scopolin and esculin were inhibitory, whereas their aglucones scopoletin and esculetin were less inhibitory, and at low concentrations of glucose-6-phosphate (G6P), the latter two were actually stimulatory for G6PDH I. Of the possible effectors studied, only scopoletin and esculetin exhibited a significant activation of G6PDH I under these conditions. However, with G6PDH IV these two effectors do not show the same marked activation at the low G6P concentrations. The phenolic acids, caffeic and ferulic, were less inhibitory than the coumarins tested. The activation of G6PDH I by scopoletin, a compound which accumulates in tobacco under certain stress conditions, gives a possible clue as to the resulting enhanced activity of the hexose monophosphate pathway that has been reported for some plants subjected to stress conditions.     

GacS-dependent production of 2R, 3R-butanediol by Pseudomonas chlororaphis O6 is a major determinant for eliciting systemic resistance against Erwinia carotovora but not against Pseudomonas syringae pv. tabaci in tobacco

Root colonization by a plant-beneficial rhizobacterium, Pseudomonas chlororaphis O6, induces disease resistance in tobacco against leaf pathogens Erwinia carotovora subsp. carotovora SCC1, causing soft-rot, and Pseudomonas syringae pv. tabaci, causing wildfire. In order to identify the bacterial determinants involved in induced systemic resistance against plant diseases, extracellular components produced by the bacterium were fractionated and purified. Factors in the culture filtrate inducing systemic resistance were retained in the aqueous fraction rather than being partitioned into ethyl acetate. Fractionation on high-performance liquid chromatography followed by nuclear magnetic resonance mass spectrometry analysis identified the active compound as 2R, 3R-butanediol. 2R, 3R butanediol induced systemic resistance in tobacco to E. carotovora subsp. carotovora SCC1, but not to P. syringae pv. tabaci. Treatment of tobacco with the volatile 2R, 3R-butanediol enhanced aerial growth, a phenomenon also seen in plants colonized by P. chlororaphis O6. The isomeric form of the butanediol was important because 2S, 3S-butandiol did not affect the plant. The global sensor kinase, GacS, of P. chlororaphis O6 was a key regulator for induced systemic resistance against E. carotovora through regulation of 2R, 3R-butanediol production. This is the first report of the production of these assumed fermentation products by a pseudomonad and the role of the sensor kinase GacS in production of 2R, 3R-butanediol.