Ethrel (Ethylene Releaser)-Induced Increases in the Adenylate Pool and Transtonoplast DeltapH within Hevea Latex Cells

The treatment of rubber tree (Hevea brasiliensis) bark with chloro-2-ethyl phosphonic acid (ethrel), an ethylene-releasing chemical, induced, after a lag period of 13 to 21 hours, a marked increase in the total adenine nucleotides (essentially ATP and ADP) of latex cells. This rise in the latex adenylate pool was concomitant with a marked decrease in the [ATP]/[ADP] ratio without significant changes in the adenylate energy charge. The apparent equilibrium constant for the adenylate kinase, which appeared to behave as a key enzyme in maintaining the adenylate energy charge in the latex, was considerably reduced, probably as a consequence of the alkalinization of the latex cytosol induced by the treatment with ethrel. To reduce the “sink effect” and activation of the metabolism induced in Hevea bark by regular tapping, the latex was collected by micropuncture (few drops) at increasing distance (5-50 centimeters) above and below an ethrel-treated area on the virgin bark of resting trees. The effect of ethrel was shown to spread progressively along the trunk. The increase in the adenylate pool (essentially ATP) was detectable as early as 24 hours after the bark treatment and was maximum after 6 or 8 days, 5 centimeters as well as 50 centimeters above and below the stimulated bark ring. The correlative vacuolar acidification and cytosolic alkalinization, i.e. the increase in the transtonoplast ΔpH, induced in the latex cells by ethrel were shown to be concomitant with the rise in ATP content of the latex. This suggests that the tonoplast H⁺-pumping ATPase, which catalyzes vacuolar acidification in the latex, is directly and essentially under the control of the availability of its substrate (i.e. ATP) in the latex. The results are discussed in relation to energy-dependent activation of metabolism, and increased rubber production, as induced by the stimulation of rubber trees with ethrel.     

The Regulation of Invertase Activity in the Latex of Hevea brasiliensis Muell. Arg: THE EFFECTS OF GROWTH REGULATORS, BARK WOUNDING, AND LATEX TAPPING

Treatments which increase latex yield, e. g. bark scraping,latex tapping, and bark application of 2, 4-D or 2-chloroethylphosphonicacid (CEPA) were found to enhance the activity of latex invertase.In previously untapped trees, both the introduction of tappingand the application of 2, 4-D brought about an increase in thelevel of invertase. In regularly tapped trees, the amount oflatex invertase is several times higher than in untapped treesand evidence was obtained that its activity is regulated bythe variation of latex pH. The pH of latex of the clone investigated(PR 107) was shown to vary between 6.3 and 7.1 whereas the activityof invertase, as assayed directly in the latex, has a sharpoptimum at pH 7.5 and falls rapidly with the shift of pH tothe acid side. There was no increase in the content of latexinvertase when trees adapted to regular tapping were treatedwith 2, 4-D. The effect of auxin on actual invertase activitywas essentially mediated through related increase of latex pH.The CEPA and bark scraping were also shown to increase latexpH in tapped trees. The treatment of the bark of tapped trees with CEPA increasedthe level of latex sucrose, as did auxins. Bark scraping alsohad a slight stimulatory effect. The K_m of latex invertase asa function of pH was found to change in the same way as V_max,being highest at pH optimum.     

Cinetique d'action de l'acide 2-chloro ethylphosphonique sur les polyribosomes du latex d'Hevea brasiliensis

Effects of 2-chloroethylphosphonic acid on the latex of Hevea brasiliensis were studied during 7 days after its application on the tapping panel of the tree. Ribosome polymerisation shows a dramatic rise within 12 hr after treatment. This shift is overcome at first without rRNA synthesis. Increase of latex production and latex pH exhibit similar features and start 24 hr after application of the, stimulant. After 4 days, rRNA concentration and the stability of the lutoïds (microvacuoles with lysosomal characteristics) change significantly.     

Absorption of citrate by the lutoids of latex and rubber production by Hevea

Correlations were established between the variations in rubber production by Hevea and the pH of the lutoids (lysosomes with vacuolar characteristics) and the pH of latex cytoplasm. Correlation was also noted between production and the pH difference of the two compartments. Analogous relationships were found between citrate absorption by lutoids and the pH values of latex sera. Hormonal stimulation of production is accompanied by an increased citrate absorption by the lutoids.     

Characterization,subsite mapping and N-terminal sequence of miliin,a serine-protease isolated from the latex of Euphorbia milii

Miliin is a serine protease purified from the latex of Euphorbia milii. This work reports the effect of pH and temperature on the catalytic activity of miliin, using fluorescence resonance energy transfer (FRET) substrates. Miliin displayed the highest activity at pH 9 and 35 °C. Subsite mapping shows that subsites S₂ to S₂′ prefer uncharged residues. The S₂ subsite prefers hydrophobic aliphatic amino acids (Val, Pro and Ile) and defines the cleavage site. This work is the first one that reports subsite mapping of Euphorbiacea proteases. The N-terminal sequence showed higher similarity (40%) with the serine protease LIM9 isolated from Lilium. The presence of Tyr, Pro and Lys at positions 2, 5 and 10 respectively, were observed for most of the serine proteases used for comparison. The N-terminal sequence has striking differences with those reported previously for milin and eumiliin, other serine proteases isolated from the latex of E. milii.     

Hormonal treatment of the bark of rubber trees (Hevea brasiliensis) increases latex yield through latex dilution in relation with the differential expression of two aquaporin genes

Natural rubber is synthesized in laticifers in the inner liber of the rubber tree (Hevea brasiliensis). Upon bark tapping, the latex is expelled due to liber turgor pressure. The mature laticifers are devoid of plasmodesmata; therefore a corresponding decrease in the total latex solid content is likely to occur due to water influx inside the laticifers. Auxins and ethylene used as efficient yield stimulants in mature untapped rubber trees, but, bark treatments with abscisic acid (ABA) and salicylic acid (SA) could also induce a transient increase latex yield. We recently reported that there are three aquaporin genes, HbPIP2;1, HbTIP1;1 and HbPIP1;1, that are regulated differentially after ethylene bark treatment. HbPIP2;1 was up-regulated in both the laticifers and the inner liber tissues, whereas HbTIP1;1 was up-regulated in the latex cells, but very markedly down-regulated in the inner liber tissues. Conversely, HbPIP1;1 was down-regulated in both tissues. In the present study, HbPIP2;1 and HbTIP1;1 showed a similar expression in response to auxin, ABA and SA, as seen in ethylene stimulation, while HbPIP1;1 was slightly regulated by auxin, but neither by ABA nor SA. The analysis of the HbPIP1;1 promoter region indicated the presence of only ethylene and auxin responsive elements. In addition, the poor efficiency of this HbPIP1;1 in increasing plasmalemma water conductance was confirmed in Xenopus oocytes. Thus, an increase in latex yield in response to all of these hormones was proposed to be the major function of aquaporins, HbPIP2;1 and HbTIP1;1. This study emphasized that the circulation of water between the laticifers and their surrounding tissues that result in latex dilution, as well as the probable maintenance of the liber tissues turgor pressure, favor the prolongation of latex flow.     

Euphorbain p,a serine protease from euphorbia pulcherrima

A serine protease named euphorbain p has been isolated in a homogeneous state from the latex of Euphorbia pulcherrima. This multi-chain enzyme, MW 74000, is similar in composition to one in E. lathyris, but is larger in size and has a more restricted activity. It has a pI of 4.7, and displays maximum activity at pH 7.0.     

Sucrose importation into laticifers of Hevea brasiliensis, in relation to ethylene stimulation of latex production

Background and Aims

The major economic product of Hevea brasiliensis is a rubber-containing cytoplasm (latex), which flows out of laticifers (latex cells) when the bark is tapped. The latex yield is stimulated by ethylene. Sucrose, the unique precursor of rubber synthesis, must cross the plasma membrane through specific sucrose transporters before being metabolized in the laticifers. The relative importance of sucrose transporters in determining latex yield is unknown. Here, the effects of ethylene (by application of Ethrel^®) on sucrose transporter gene expression in the inner bark tissues and latex cells of H. brasiliensis are described.

Methods

Experiments, including cloning sucrose transporters, real time RT-PCR and in situ hybridization, were carried out on virgin (untapped) trees, treated or untreated with the latex yield stimulant Ethrel.

Key Results

Seven putative full-length cDNAs of sucrose transporters were cloned from a latex-specific cDNA library. These transporters belong to all SUT (sucrose transporter) groups and differ by their basal gene expression in latex and inner soft bark, with a predominance of HbSUT1A and HbSUT1B. Of these sucrose transporters, only HbSUT1A and HbSUT2A were distinctly increased by ethylene. Moreover, this increase was shown to be specific to laticifers and to ethylene application.

Conclusion

The data and all previous information on sucrose transport show that HbSUT1A and HbSUT2A are related to the increase in sucrose import into laticifers, required for the stimulation of latex yield by ethylene in virgin trees.Key words: Hevea brasiliensis, laticifers, latex production, ethylene, sucrose transporters     

Physiological activators of invertase from Hevea brasiliensis latex

Potassium or sodium nitrates or phosphates, and thiols such as reduced glutathione or cysteine, stimulate the activity of invertase from Hevea brasiliensis latex. These activators raise the V_max but do not affect the K_m of the enzyme for sucrose. The action of these effectors is additive. Their efficiency is pH dependent, being higher below pH 7.0 and markedly decreasing above it.     

Sucrose Synthetase in the Latex of Hevea brasiliensis Muell. Arg

Sucrose synthetase (EC 2.4.1.13 [EC] ) was found in the latex of therubber tree but the activity of sucrose phosphate synthetase(EC 2.4.1.14 [EC] ) was not detected. The enzyme was purified andsome properties have been investigated. Examination of the kineticsof sucrose synthesis revealed K_m of 0.56 mM for uridine diphosphoglucoseand 3.85 mM for fructose. Mg²⁺ and cyanide activated sucrosesynthesis but reduced the cleavage reaction. Increased pH hadthe same effect, the synthetic activity being higher than theactivity of sucrose breakdown within the physiological levelsof latex pH. In the latex of regularly tapped trees, the total enzyme activityin the direction of synthesis was about 10% or less of the totalinvertase activity at pH 7.0. Because of the strong limitationof invertase under natural conditions, the proportion of actualsynthetase activity is, however, much higher and evidence ispresented that in the latex of regularly tapped trees this activitysignificantly reduces carbohydrate breakdown. Some indications have been obtained that this involvement ofsucrose synthetase is weakened by application of Ethrel to thebark. A reduction of its synthetic activity, accompanied byan acceleration of sucrose utilization in latex cytoplasm andby an increase of latex yield, could be observed before thetreatment-induced rise of pH enhancing inver.     

A two-step procedure for purification of papain from extract of papaya latex

A method is presented for purifying papain from extracts of papaya latex. The procedure involves precipitation of the extract of papaya latex with sodium chloride followed by affinity chromatography of the redissolved precipitate. Precipitation of the protein from the latex extract is necessary to separate the papain from material which interferes with the binding of papain to the affinity column. During affinity chromatography, the affinity column is overloaded to insure absence in the final product of impurities which are capable of binding to the affinity column.The papain prepared by this procedure yielded an amino acid analysis and an N-terminal amino acid analysis expected for a sample of pure papain. No Met was detected on amino acid analysis nor was the presence of N-terminal residues other than He detected. On polyacrylamide disc gel electrophoresis at pH 4.3, papain prepared by the method described in this work was indistinguishable from crystalline papain which was prepared by the method of Kimmel and Smith, and further purified by affinity chromatography. Both disc gel patterns consisted of a single band and a trailing shadow which was less than 5% of the main band. In routine spectrophotometric assays, the specific activity toward N,α-benzoyl-l-arginine ethyl ester of papain prepared by the procedure described in this work was indistinguishable from crystalline papain prepared by the method of Kimmel and Smith, and further purified by affinity chromatography. Values of 24 sec^?1' and 15 mm were obtained from the turnover number and K_m for the papain-catalyzed hydrolysis of N,α-benzoyl-l-arginine ethyl ester at 25 °C, pH 6.00, $\text{Γ}\text{2 0.30}$ using a pH stat.     

Ficin E,a serine-centred protease from Ficus elastica

A protease of M, 50 000 was purified from the latex of Ficus elastica. The enzyme has a pI of 3.7 and pH optimum at 6.0. Its activity is dependent on serine and histidine residues. The amino acid composition is reported.     

Extraction,purification and characterization of a novel cysteine protease from the latex of plant <Emphasis Type="Italic">Vallaris solanacea</Emphasis>

Plant proteases with excellent catalytical properties perform many functions in biological systems. A novel plant protease Vallaris solanacea, was identified. Its proteolytic activity was screened using the substrate casein. This protein activity was specifically inhibited by p-chloromercuribenzoate, which showed that it is a cysteine protease. Preliminary investigations such as pH effect and temperature dependence on the caseinolytic activity of crude protease were done. Stability towards temperature and pH were also evaluated. The activity curves drawn in relation to pH, temperature and stability suggested the presence of one protease in the latex of Vallaris solanacea. In the present study, separation and purification of the latex cysteine protease solanain from Vallaris solanacea to a state of near homogeneity was also done using ion exchange and size exclusion chromatography. SDS PAGE was used to determine molecular weight of the solanain (28–29 kDa). The molecular weight was confirmed as 28.9 kDa using MALDI-TOF. Purified protease was named solanain and it was further characterized. An internal tryptic fragment was identified by MALDI-TOF, and this peptide showed a homology (66% sequence similarity) with target sequence of cysteine endopeptidase from Ricinus communis.     

Hevains: Serine-centred proteases from the latex of Hevea brasiliensis

Hevains b and l, isolated respectively from the serum and lutoids of freeze-dried latex from Hevea brasiliensis, were purified to homogeneity and compared with hevain a from commercial, ammonia-treated latex. The M_rs of hevains a and b are 69 000 and 58 000, respectively, and both exist in several charged forms. The amino acid compositions of the two enzymes differ significantly, but the reactivities to a variety of ester and protein substrates are similar, as are the pH optima. Hevain l is a distinct protease of M_r 80 000 and unique amino acid composition. It displays esterolytic activity and will digest insulin B chain, but is not proteolytic to azocollagen, azocasein, bovine serum albumen or haemoglobin. The activities of all three enzymes are dependent on the presence of serine and histidine residues.     

Age-dependent and jasmonic acid-induced laticifer-cell differentiation in anther callus cultures of rubber tree

Main conclusion

Callus cultures of rubber tree may serve as an efficient model to screen and study environmental factors and phytohormones that stimulate laticifer cell differentiation and improve latex yield. The number of laticifer cells in bark is one of the most important factors determining the biosynthesis and economic value of rubber trees (Hevea brasiliensis). The differentiation of laticifer cells in planta has been characterized, whereas laticifer-cell differentiation in callus cultures in vitro is largely unknown. In this study, we present molecular and physiological evidences for laticifer-cell differentiation in calli derived from rubber tree anthers. RT-PCR analysis showed that three key genes rubber elongation factor (REF), small rubber particle protein (SRPP), and cis-prenyl transferase (CPT) that are essential in latex biosynthesis in rubber tree bark also were transcribed in anther calli. Laticifer cell development in callus cultures was age-dependent; the cells began to appear at 58 days after initiation of culture, and the percentage of laticifer cells increased steadily with increasing callus age. Addition of 0–2 mg/L jasmonic acid (JA) to the media significantly promoted the differentiation of laticifer cells in callus cultures. However, JA concentrations higher than 3 mg/L were not optimum for laticifer cells differentiation; this result was not observed in previous in planta studies. Laticifer cells differentiated on media with pH 5.8–7.0, with an optimum of pH 6.2, whereas a higher pH inhibited differentiation. These results indicate that the anther-derived rubber tree callus may serve as a new and more efficient model to study environmental factors that influence laticifer cell differentiation, and may be useful for research on new technologies to improve latex yield, and to screen for commercially useful phytohormones.     

Stimulatory effects of 2,4-dichlorophenoxyacetic acid and of 1-naphthylacetic acid on sucrose level,invertase activity and sucrose utilization in the latex ofHevea brasiliensis

Summary Treatment of the bark ofHevea brasiliensis with 2,4-dichlorophenoxyacetic acid (2,4-D) or l-naphthylacetic acid (NAA) greatly increases sucrose level, invertase activity and sucrose utilization in the latex; the efficacy of 2,4-D is considerably greater than that of NAA. The greater sucrose utilization is the consequence of increased invertase activity. The changes occur as soon as the first tapping following bark treatment. It is suggested that the rise in both sucrose level and utilization in the latex serum mediate the effect of auxins on latex production. This is most likely related to a faciliation of latex outflow resulting from an increase in the osmotic and turgor pressure in the laticiferous tissue, as well as to enhanced regeneration of latex.The latex invertase has been found to be of a weakly alkaline type, with a sharp pH optimum at 7.15–7.20 in citrate-phosphate buffer. Its activity falls of rapidly on the acid side, being almost zero at pH 6.4. Since the natural pH of latex generally varies between pH 6.5 and 7.0, it is suggested that pH is an important factor in the regulation of invertase activity in the latex, and that the limiting nature of invertase-mediated sucrose hydrolysis in latex serum is caused by unfavourable conditions for invertase activity rather than by a scarcity of this enzyme.Expert of the International Atomic Energy Agency.     

Restoration of tensile strength in bark samples of Ficus benjamina due to coagulation of latex during fast self-healing of fissures

Background and Aims

The functions of plant latex have been discussed for a long time. Today, many studies support a defence mechanism as being its main function. A role as a self-healing mechanism was never attributed to the coagulation of latex. In this study we quantified the contribution of the coagulation of Ficus benjamina (weeping fig) latex to a restoration of the mechanical properties of the bark after external lesions.

Methods

Tensile tests of F. benjamina bark were conducted either immediately after injury or at various latency times after injury.

Key Results

A significant increase in the tensile strength of bark samples until 30 min after injury was found, and this effect could be attributed to the coagulation of plant latex alone. The tensile strength remains nearly constant until several hours or days after injury. Then, very probably due to other mechanisms such as cell growth and cell proliferation, the tensile strength begins to increase slightly again.

Conclusions

The coagulation of latex seals lesions and serves as a quick and effective pre-step of subsequent, more effective, long-lasting self-healing mechanisms such as cell growth and proliferation. Thus, a fast self-healing effect can be included in the list of functions of plant latex.     

Biochemical characterization of VQ-VII, a cysteine peptidase with broad specificity, isolated from Vasconcellea quercifolia latex

The latex from Vasconcellea quercifolia (“oak leaved papaya”), a member of the Caricaceae family, contains at least seven cysteine endopeptidases with high proteolytic activity, which helps to protect these plants against injury. In this study, we isolated and characterized the most basic of these cysteine endopeptidases, named VQ-VII. This new purified enzyme was homogeneous by bidimensional electrophoresis and MALDI-TOF mass spectrometry, and exhibited a molecular mass of 23,984 Da and an isoelectric point >11. The enzymatic activity of VQ-VII was completely inhibited by E-64 and iodoacetic acid, confirming that it belongs to the catalytic group of cysteine endopeptidases. By investigating the cleavage of the oxidized insulin B-chain to establish the hydrolytic specificity of VQ-VII, we found 13 cleavage sites on the substrate, revealing that it is a broad-specificity peptidase. The pH profiles toward p-Glu-Phe-Leu-p-nitroanilide (PFLNA) and casein showed that the optimum pH is about 6.8 for both substrates, and that in casein, it is active over a wide pH range (activity higher than 80 % between pH 6 and 9.5). Kinetic enzymatic assays were performed with the thiol peptidase substrate PFLNA (K _m = 0.454 ± 0.046 mM, k _cat = 1.57 ± 0.07 s^?1, k _cat/K _m = 3.46 × 10³ ± 14 s^?1 M^?1). The N-terminal sequence (21 amino acids) of VQ-VII showed an identity >70 % with 11 plant cysteine peptidases and the presence of highly conserved residues and motifs shared with the “papain-like” family of peptidases. VQ-VII proved to be a new latex enzyme of broad specificity, which can degrade extensively proteins of different nature in a wide pH range.     

The role of calcium and cyclic adenosine 3′,5′-monophosphate in the regulation of glycogen metabolism in phagocytozing human polymorphonuclear leukocytes

Incubation of human polymorphonuclear leukocytes in a glucose-free Krebs-Ringer bicarbonate buffer for 2 h resulted in glycogen depletion, decreased phosphorylase activity and increased synthase-R activity. Addition of dialyzed latex particles to starved leukocytes revealed a very rapid ingestion rate (half-maximal ingestion within 30 s). This uptake is followed by glycogenolysis associated with an immediate two-fold increase in phosphorylase a activity and a synthase-R to -D conversion within 30 s. Furthermore, in rapid time-course experiments with phagocytozing cells we found that the concentration of cyclic AMP increased by 93% within 15 s and returned to baseline values at 1 min. In a medium without added calcium and with 1 mM ethyleneglycol-bis-(β-aminoethylether)-N,N′-tetraacetic acid, phagocytosis was blocked, cyclic AMP formation decreased by 50% and phosphorylase activation was abolished, but the conversion of synthase-R to -D was preserved. Addition of calcium ions to cells suspended in a calcium-free buffer without added latex results in phosphorylase activation and glycogenolysis, but not in cyclic AMP increase or synthase-R to -D conversion. Measurements of ⁴⁵Ca efflux during phagocytosis suggest an initial increase in cytosolic calcium obtained by a release of membrane-bound ⁴⁵Ca. Activation of phosphorylase during phagocytosis is thus presumably due to an increase in cytosol Ca²⁺ and subsequent activation of phosphorylase kinase, and is independent of the simultaneous increase in concentration of cyclic AMP. Phosphorylation of synthase R to the D form does not depend on the presence of Ca²⁺ in the extracellular phase.