Competition for in vitro [h]gibberellin a(4) binding in cucumber by substituted phthalimides: comparison with in vivo gibberellin-like activity

Certain N-substituted phthalimides (NSPs) have gibberellin (GA)-like activity in a number of GA bioassays. The interaction between representative NSPs and a protein fraction from cucumber (Cucumis sativus L.) hypocotyls that has GA-binding characteristics consistent with those expected of GA receptors was studied. Analysis of in vitro equilibrium saturation data indicated the presence of only one class of high affinity [³H]GA₄ binding sites (K_d ~ 30 nanomolar, n = 0.25 picomole per milligram of protein). In the presence of 6 or 60 micromolar 1-[3-chlorophthalimido]-cyclohexanecarboximide (AC-94,377), the K_d for [³H]GA₄ increased, whereas the maximum number of saturable [³H]GA₄ binding sites did not change significantly. The dissociation of [³H]GA₄ from its binding sites was complex and was best described by a bi-exponential equation. AC-94,377 did not affect the rates of [³H]GA₄ dissociation from its binding sites. These results implied that AC-94,377 and [³H]GA₄ compete for binding to the same sites. A correlation was observed between the activity of over 20 NSPs in the cucumber hypocotyl bioassay and their in vitro affinity for the GA binding sites. Our observations lend further support to the notion that certain GA binding proteins in cucumber cytosol are GA receptors and also provide a molecular explanation for the GA-like in vivo activity of some NSPs.     

An amphoteric conjugate of [h]gibberellin a(1) from barley aleurone layers

The major metabolite produced during incubation of [³H]gibberellin A₁ ([³H]GA₁) with barley aleurone layers is an amphoteric, water-soluble compound tentatively called [³H]ampho GA₁. Formation of [³H]ampho GA₁ in barley aleurones begins after a period of 2.5 hours. As judged by degradation studies as well as Sephadex column chromatography, GA₁ appears to be linked to a peptide; positions C-3 and C-7 were ruled out as conjugation sites.     

Metabolism of tritiated gibberellin a(20) in maize

After the application of 2.36 Curies per millimole [2,3-³H]gibberellin A₂₀ (GA₂₀) to 21-day-old maize (Zea mays L., hybrid CM7 × CM49) plants, etiolated maize seedlings, or maturing maize cobs, a number of ³H-metabolites were observed. The principal acidic (pH 3.0), ethyl acetate-soluble metabolite was identified as [³H]GA₁ on the basis of co-chromatography with standard [³H]GA₁ on SiO₂ partition, high resolution isocratic elution reverse phase C₁₈ high performance liquid chromatography and gas-liquid chromatography radiocounting. Two other acidic metabolites were identified similarly as [³H]GA₈ and C/D ring-rearranged [³H]GA₂₀, although gas-liquid chromatography radiocounting was not performed on these metabolites. Numerous acidic, butanol-soluble (e.g. ethyl acetate-insoluble) metabolites were observed with retention times on C₁₈ high performance liquid chromatography radiocounting similar to those of authentic glucosyl conjugates of GA₁ and GA₈, or with retention times where conjugates of GA₂₀ would be expected to elute. Conversion to [³H]GA₁ was greatest (23% of methanol extractable radioactivity) in 21-day-old maize plants. In etiolated maize seedlings, the C/D ring-rearranged [³H]GA₂₀-like metabolite was the major acidic product, while conversion to [³H]GA₁ was low.     

Demonstration of an endogenous, competitive inhibitor(s) of [3H] diazepam binding in bovine brain.

An endogenous inhibitor(s) of [³H] diazepam binding to synaptosomes has been demonstrated in bovine brain. The inhibitory activity of crude extracts is heat stable, dialyzable, and not affected by ether extraction. Three distinct peaks of inhibitory activity were resolved using Sephadex G-25 chromatography. The lowest molecular weight peak (<700 daltons) had the highest specific inhibitory activity and its inhibition of [³H] diazepam binding was competitive. A similar low molecular weight fraction was not observed in either muscle or liver suggesting that it may be unique to brain. Thin layer chromatography of the Sephadex G-25 fractions revealed a discrete band of inhibitory activity in the two low molecular weight peaks.     

Competition for in vitro [h]gibberellin a(4) binding in cucumber by gibberellins and their derivatives

The gibberellin (GA) binding properties of a cytosol fraction from hypocotyls of cucumber (Cucumis sativus L. cv National Pickling) were examined using a DEAE filter paper assay, [³H]GA₄, and over 20 GAs, GA derivatives and other growth regulators. The results demonstrate structural specificity of the binding protein for γ-lactonic C-19 GAs with a 3 β-hydroxyl and a C-6 carboxyl group. Additional hydroxylations of the A, C, or D ring of the ent-gibberellane skeleton and methylation of the C-6 carboxyl impede or abolish binding affinity. Bioassay data are generally supported by the in vitro results but significantly GA₉ and GA₃₆, both considered to be precursors of GA₄ in cucumber, show no affinity for the binding protein. The results are discussed in relation to the active site of the putative GA₄ receptor in cucumber.     

A novel effect of molybdate on the binding of [3H]aldosterone to gel-filtered type I receptors in brain cytosol

Recently we reported that adding molybdate to crude steroid-free cytosol at 0°C results in a dose-dependent reduction in the binding of [³H]aldosterone ([³H]ALDO), to Type I adrenocorticosteroid receptors. In the experiments outlined here, we found that addition of molybdate to steroid-free brain cytosol produces a 30–50% increase in the subsequently measured maximal specific binding capacity (B _MAX) of [³H]ALDO-Type I receptors if the cytosol is subjected to Sephadex G-25 gel filtration prior to steroid addition. These manipulations were found to have no effect on the equilibrium dissociation constant (K _d) of the receptors. In contrast, when gel filtration of steroid-free cytosol was performed in the absence of molybdate, there was a 2-fold increase in the K_d and over a 50% reduction in the subsequently measuredB _MAX of [³H]ALDO-Type I receptors. When molybdate was added to this steroid-free cytosol immediately following gel filtration, there was no reduction (or increase) in Type I receptor [³H]ALDO binding capacity compared with nongel-filtered controls. The addition of as little as 2 mM molybdate to crude steroid-free cytosol was found to stabilize the binding capacity of Type I receptors during exposure to 22°C incubations; however, when gel-filtered steroid-free cytosol was exposed to these conditions at least 10 mM molybdate was required to stabilize Type I receptor binding capacity. Adding the sulfhydryl reducing reagent, dithiothreitol, to the various steroid-free cytosols had little effect on [³H]ALDO-Type I receptor binding. The effects of molybdate, revealed in this study, on Type I receptors in brain cytosol subjected to gel filtration are clearly different from those seen with receptors in crude cytosol preparations, as well as from those reported in the literature for other steroid receptors. Possible mechanisms of action of molybdate on unoccupied Type I receptors in crude and gel-filtered cytosol are discussed.     

Metabolism of Tritiated Gibberellins in d-5 Dward Maize: II. [H]Gibberellin A(1), [H]Gibberellin A(3), and Related Compounds

After 30 minutes of incubation of young leaf sections of d-5 maize (Zea mays L.) in [³H]gibberellin A₁ ([³H]GA₁), the metabolite [³H]GA₈ was present in significant amounts, with a second metabolite, [³H]GA₈-glucose ([³H]GA₈-glu), appearing soon after. A third [³H]GA₁ metabolite, the polar uncharacterized conjugate [³H]GA₁-X, took more than 1 hour to appear. The protein synthesis inhibitor cycloheximide inhibited the production of all [³H]GA₁ metabolites, indicating a possible protein synthesis requirement for [³H]GA₁ metabolism.     

In vivo Binding of Gibberellin A(1) in Dwarf Pea Epicotyls

Binding of [(3)H]gibberellin A(1) (GA(1)) to extracts of dwarf pea epicotyls was investigated using sliced pea epicotyls (0.5-1.0 millimeter thick) that had been incubated in a solution containing [(3)H]GA(1) at 0 C for 3 days. Gel filtration of a 100,000g supernatant indicated binding to a high (HMW) and an intermediate molecular weight (IMW) fraction with estimated molecular weights of 6 x 10(5) daltons and 4 to 7 x 10(4) daltons, respectively. The bound (3)H-activity was [(3)H]GA(1) and not a metabolite as deduced by thin layer chromatography. The bound label did not sediment during centrifugation at 100,000g for 2 hours; also, binding was not disrupted after treatment of a combined HMW and IMW fraction with DNase, RNase, or phospholipase A or C, but it was disrupted by protease or heat treatment. These facts suggest that binding of [(3)H]GA(1) was occurring to a soluble protein(s). [(3)H]GA(1) bound to a combined HMW and IMW fraction was not susceptible to changes in pH, nor could it be exchanged with a variety of GAs tested under in vitro conditions. Under in vivo equilibrium conditions, biologically active GAs, such as GA(1), GA(3), GA(4), GA(5), GA(7), and keto GA(1), could reduce the level of [(3)H]GA(1) binding, whereas inactive GAs, such as iodo GA(1) methyl ester, GA(8), GA(13), GA(26), and non-GAs, such as (+/-)abscisic acid, had no effect. By varying the concentration of [(3)H]GA(1) in the incubation medium, the specific binding of [(3)H]GA(1) appeared to be due to two classes of binding sites having estimated K(d) of 6 x 10(-8) molar and 1.4 x 10(-6) molar. The concentrations of the two sites were estimated to be 0.45 picomole per gram and 4.04 picomoles per gram on a fresh weight and 0.1 picomole per milligram and 0.9 picomole per milligram on a soluble protein basis, respectively.     

Effect of Photoperiod on Metabolism of [H] Gibberellins A(1), 3-epi-A(1), and A(20) in Agrostemma githago L

To determine whether daylength influences the rate of metabolism of gibberellins (GAs) in the long-day (LD) rosette plant Agrostemma githago L., [³H]GA₂₀ and [³H]GA₁ were applied under short day (SD) and LD. Both were metabolized faster under LD than under SD. [³H]GA₂₀ was metabolized to a compound chromatographically identical to 3-epi-GA₁. [³H]GA₁ was metabolized to two acidic compounds, the major metabolite having chromatographic properties similar to, but not identical with GA₈. [³H]3-epi-GA₁ applied to plants under LD was metabolized much more slowly than was [³H]GA₁, and formed a very polar metabolite which did not partition into ethyl acetate at pH 2.5. Very polar metabolites were also formed after the feeds of [³H]GA₂₀ and [³H]GA₁. It was not possible to characterize these very polar compounds further because of their apparent instability. The results obtained suggest that in Agrostemma GA₂₀ is the precursor of 3-epi-GA₁, but there is at present no evidence indicating the precursor of GA₁.     

Metabolic formation and occurrence of gibberellin A1-3-0-β-D-glucopyranoside in immature fruits of Phaseolus coccineus L.

Endogenous pools of presumptive gibberellin (GA) glucosyl conjugates of Phaseolus coccineus were metabolically labelled by feeding of [³H]GA₁ to immature fruits. The [³H]GA₁ glucoside fraction was isolated and the main constituent tentatively identified by enzymic hydrolysis, ion exchange chromatography and elution volume on HPLC-RC as GA₁-3-0--D-glucopyranoside.     

Macromolecular binding of (5,6-3H) prostaglandin E1 in liver cytosol in vitro

[³H] Prostaglandin E₁ (PGE₁) is bound extensively to macromolecules in liver cytosol $\text{in vitro}$. A principal binding protein accounts for 80% of the binding. This macromolecule is saturated at about 10^?10 M PGE₁. The partially purified protein has a molecular weight of 50,000 by gel filtration and a pI of about 3.5 by isoelectrofocusing. Binding is primarily noncovalent and the dissociated ligand behaves similarly to the parental [³H] PGE₁ on thin layer chromatography. Possible significance of this interaction is discussed.     

4-Fluoro-3-nitrophenyl azide binding sites on purified beef liver monoamine oxidase B

Previous work from this laboratory has shown that 4-fluoro-3-nitrophenyl azide (FNPA) is an effective photoaffinity labeling probe for MAO-B (Chen et al., Biochem. Pharmac.34, 781–785, 1985). The FNPA binding sites have been further studied by using [³H]FNPA. When [³H]FNPA was photolyzed with purified beef liver MAO, then subjected to tryptic and chymotryptic digestion, three radioactive peaks were observed after Sephadex G-25 column chromatography procedure. The extent of [³H]FNPA incorporation varied directly with [³H]FNPA concentration. They could be protected by the presence of the substrate (phenylethylamine) or inhibitors (pargyline and trans-phenylcyclopropylamine) of MAO-B during photolysis. These protections were concentration dependent. Furthermore, the decrease in [³H]FNPA labeling in the presence of inhibitors paralleled the decrease in MAO catalytic activity. These results suggest that the FNPA binding sites were related to the active site of MAO-B. Under the same conditions, the separation profiles of [³H]FNPA labeled and [³H]pargyline labeled tryptic-chymotryptic peptides after Sephadex G-25 column chromatography are distinctly different. This result suggests that FNPA labeling sites may be different from the pargyline binding site. Since pargyline binds to the prosthetic group(-FAD) of MAO, [³H]FNPA may label different domains of the active site. This probe may be useful for the characterization of the active site of MAO-B.     

Metabolism of Tritiated Gibberellins in d-5 Dwarf Maize: I. In Excised Tissues and Intact Dwarf and Normal Plants

Metabolism of [³H]gibberellin A₁ ([³H]GA₁) was followed in intact seedlings and excised apices and leaf tissue of both dwarf and normal (tall) plants of d-5 maize (Zea mays L.). The three metabolites produced were tentatively identified as [³H]GA_s, [³H]GA_s-glucoside ([³H]GA_s-glu), and [³H]GA₁-X, an unknown.     

High affinity estrogen binding by rabbit liver

Macromolecular binding components for [³H]estradiol-17β are present to cytosol prepared from rabbit liver. When cytosol from sexually mature male liver was incubated with [³H]estradiol and analyzed for binding on low ionic strength sucrose gradients, two peaks of binding activity were detected. One peak had a sedimentation coefficient of 4–5 S and the other had a sedimentation coefficient of 8–9 S. The two components differed from each other regarding steroid specicity and various physiocochemical parameters. [³H]-estradiol binding to the 4–5 S component was not inhibited by estrogens, 5α-dihydrotestosterone, progesterone or cortisol. Binding to this component did not appera to be saturable and lavel was rapidly stripped from it by cahrcoal. Estradiol bindng to the 8–9 S component was estrogen specific, saturable and of high affinity. The specific binder dissociates on high ionic strength sucrose gradients and sediments as a 4–5 S moiety. The specific binding protein has a K_d of 3.05 · 10⁻¹⁰ M and a dissociation half-time of 33 h and there are 35.2 fmol of binding sites/mg cytosol protein. Estrogen binders are also present in liver cytosol from sexually mature female and sexually immature male rabbits. During prolonged incbuation of [³H]estradiol with mature male liver cytosol at 0–5°C polar metabolites of estradiol are produced.     

Effect of photoperiod on the metabolism of deuterium-labeled gibberellin a(53) in spinach

Application of gibberellin A₅₃ (GA₅₃) to short-day (SD)-grown spinach (Spinacia oleracea L.) plants caused an increase in petiole length and leaf angle similar to that found in plants transferred to long days (LD). [²H] GA₅₃ was fed to plants in SD, LD, and in a SD to LD transition experiment, and the metabolites were identified by gas chromatography with selected ion monitoring. After 2, 4, or 6 SD, [²H]GA₅₃ was converted to [²H]GA₁₉ and [²H]GA₄₄. No other metabolites were detected. After 2 LD, only [²H] GA₂₀ was identified. In the transition experiment in which plants were given 4 SD followed by 2 LD, all three metabolites were found. The results demonstrate unequivocally that GA₁₉, GA₂₀, and GA₄₄ are metabolic products of GA₅₃, and strongly suggest that photoperiod regulates GA metabolism, in part, by controlling the conversion of GA₁₉ to GA₂₀.     

Metabolism of [3H] Gibberellin A5 in Cell Suspension Cultures of Pharbitis nil

Gibberellin A₅ (GA₅), a native GA of immature seeds of Pharbitis nil, was fed to Pharbitis nil cell suspension cultures as [C-l, ³H] GA₅ (3.1 Ci/mmol), and its metabolism over a 48 hr period was investigated. Radioactivity in free GA metabolites was 13.1%, with 79.9% in GA glucosyl conjugate-like metabolites. Only 7.0% of the radioactivity remained as [³H] GA₅. Tentative identifications were based on comparison with retention times of authentic free GAs and/or glucosyl conjugates after sequential chromatography on Si gel partition column → gradient-eluted C18 HPLC-radiocounting (RC) → isocratic-eluted C18 HPLC-RC, and showed that [³H] GA₅ was converted to [³H] GA₁ (2%), [³H] GA₃ (4%), [³H] GA₆ (2%), [³H] GA₂₂ (1%) and their glucosyl conjugates, and also to [³H] GA₈ glucoside, and [³H] GA₅ glucosyl conjugates. The major conjugate-like substances were [³H] GA₁ and [³H] GA₃ glucosyl esters, at 15% and 34%, respectively, of the total extractable radioactivity.     

Gibberellin metabolism in excised lettuce hypocotyls: Response to GA9 and the conversion of [3H]GA9

Elongation growth and gibberellin (GA₉) metabolism in excised hypocotyls of lettuce (Lactuca sativa L. cv. Arctic) were investigated. Exogenously supplied GA₉ stimulates elongation of hypocotyl sections and this response is intermediate between that elicited by GA₁ or GA₂₀ and GA_4/7 mixture. Although uptake of radioactivity from [³H]GA₉ increases with time, this gibberellin does not accumulate in the tissue but is rapidly converted to a compound with HPLC properties resembling those of [³H]GA₂₀. After 2 h incubation in [³H]GA₉, the presumptive GA₂₀ represents 90% of the acidic ethyl acetate-soluble radioactivity in the tissue. Radioactivity is also associated with an acidic butanol-soluble fraction containing two components resolvable by HVE. The major component is similar in electrophoretic properties to a GA-glucosyl ether while the other compares to a GA-glucosyl ester. Conversion of [³H]GA₉ to its [³H]GA₂₀-like metabolite is reduced by addition of carrier GA₉ or GA_4/7 at concentrations as low as 1 M, while GA₁, GA₃ and L-proline are without effect. Formation of the GA₂₀-like compound can be blocked by the addition of 2,2-dipyridyl, and this inhibitory effect of dipyridyl can be reversed by addition of Fe²⁺. At 200 M dipyridyl, elongation growth as well as [³H]GA₉ metabolism are reduced by 80%. The relationship of the metabolism of GA₉ to the growth response is discussed.Abbreviations AB butanol-soluble - AE ethyl-acetate-soluble - GA gibberellin - GA₁, GA₄ gibberellin A₁, gibberellin A₄, etc. - TLC thin layer chromatography - HPLC high performance liquid chromatography - HVE high voltage electrophoresis     

Reversible conjugation of gibberellins in situ in maize

Gibberellins [³H]GA₄ (1.33 Curies per millimole) and [³H]GA₂₀ (2.36 Curies per millimole) were injected into the shanks of maize (Zea mays L.) cobs during rapid grain filling and mature seeds were subsequently harvested. Extracts of mature, dry seeds from 1980 feeds yielded only 20 to 30% of the ³H radioactivity in acidic, ethyl acetate-soluble form, and this was principally associated with the precursor, with lesser amounts of the major metabolite, [³H]GA₁ (putative identification based on sequential SiO₂ partition, and gradient-eluted reverse-phase C₁₈ high performance liquid chromatography [HPLC]). Most of the radioactivity in the dry seeds was associated with compounds having partition characteristics of, and co-chromatographing on, sequential SiO₂ partition and reverse-phase HPLC with glucosyl conjugates of the precursors (GA₄ or GA₂₀) and their probable major metabolite (GA₁). The majority of conjugate associated with the precursor GA₄ eluted coincidental with GA₄ glucoside. Subsequent acid or enzymic hydrolysis (β-glucosidase or cellulase) yielded the free GAs, putative identification being based on isocratic HPLC of each ³H-labeled conjugate → hydrolysis → isocratic HPLC of the ³H-labeled hydrolysate. Upon imbibition of the seeds, radioactivity associated with the conjugate fraction decreased; concomitantly, statistically significant increases in levels of free [³H]GA-like compounds were observed. Although the specific ratios of GA-like and GA-glucosyl conjugate-like substances varied substantially across years, hybrids, and even, in different plants from the same hybrid, this `reversible conjugation' (i.e. apparent conjugation during seed maturation followed by release of the GA moiety during germination), was reproducible for [³H]GA₂₀ in seed from two maize hybrids produced over 2 years.