Xylanase treatment of plant cells induces glycosylation and fatty acylation of phytosterols

Treatment of tobacco suspension cells ( Nicotiana tabacum cv. KY 14) with a purified β -1,4-endoxylanase from Trichoderma viride [1 μg enzyme (ml cells)⁻¹] caused a 13-fold increase in the levels of acylated sterol glycosides and elicited the synthesis of phytoalexins. A commercial preparation of xylanase from Trichoderma viride caused an identical shift in sterols. In contrast, a commerical xylanase from Aureobasidium pullaulans had no effect on the levels of acylated sterol glycosides, but did elevate the levels of sterol esters. Treatment of the cells with Cu²⁺ or Ag⁺ also evoked a severalfold increase in the levels of acylated sterol glycosides. Analysis of the various sterol lipid classes revealed that the large xylanase-induced increase in acylated sterol glycosides occurred at the expense of sterol esters, free sterols and sterol glycosides. Further analyses revealed that the most abundant phytosterol in each of the four classes of sterol lipids was β -sitosterol. Linoleic acid was the most abundant fatty acid in the sterol esters, and palmitic and linoleic acids were the most abundant fatty acids in the acylated sterol glycosides. Glucose was the only sugar moiety in the sterol glycoside and acvlated sterol glycosides. Glucose was the only sugar moiety in the sterol glycoside and acylated sterol glycoside fractions. The results of the present study demonstrate that xylanase from Trichoderma viride induces a dramatic shift in the level of acylated sterol glycosides, indicating that endoxylanase was probably the active component in the cellulase enzyme preparations used in our previous study.     

Biosynthesis of the sesquiterpenic phytoalexin capsidiol in elicited root cultures of chili pepper (Capsicum annuum)

The biosynthesis of the sesquiterpenic phytoalexin capsidiol was investigated using in vitro root cultures of chili pepper (Capsicum annuum) elicited with cellulase. Optimal concentrations of cellulase and sucrose for capsidiol production were established. A simple spectrophotometric procedure to quantify capsidiol was improved. Monoclonal antibodies against a tobacco sesquiterpene cyclase were used to detect a similar protein in pepper root extracts. We found that capsidiol was secreted to the medium and the maximal production was achieved at 24 h after elicitation. In contrast, the maximal amount of the elicitor inducible sesquiterpene cyclase was found between 6 and 8 h. Addition of small amounts of polyvinylpyrrolidone was necessary for sesquiterpene cyclase enzyme activity assays.Abbreviations AP alkaline phosphatase - BCIP 5-bromo-4-chloro-3-indolylphosphate - DMF dimethyl-formamide - FPP farnesyl pyrophosphate - MAb monoclonal antibodies - NBT nitro blue tetrazolium - PVP polyvinylpyrrolidone - SC sesquiterpene cyclase     

Elicitation of capsidiol accumulation in suspended callus cultures of capsicum annuum

Capsidiol was elicited in suspended callus cultures of Capsicum annuum in response to commercial cellulase (ex Trichoderma viride), or pectinase (ex Aspergiltus niger), or a sterile extract from Gliocladium deliquescens. Amounts of capsidiol up to 2.9 mg per 100 ml of culture were accumulated in response to the G. deliquescens extract. Capsidiol was the preponderant phytoalexin produced in the cultures: minor congeners were present at levels below 0.1% of the amounts of capsidiol.     

Effects of ethephon and norbornadiene on sterol and glycoalkaloid biosynthesis in potato tuber discs

The accumulation of glycoalkaloids that normally takes place in aerobically incubated potato ( Solanum tuberosum L.) tuber discs has been found to be inhibited by the ethylene-releasing substance ethephon. Using ethephon and the ethylene action inhibitor norborna-2,5-diene, the effect of ethylene on the synthesis of sterols and glycoalkaloids, which partly share their biosynthetic pathway, was investigated.
Control discs showed incorporation of (2-¹⁴C)mevalonic acid into free sterols, steryl esters, steryl glycosides and acylated steryl glycosides at 24 h, thereafter the radioactivity decreased in free sterols and steryl esters concomitant with the appearance of radioactivity in glycoalkaloids. Discs with ethephon additions contained more radioactivity in all sterol classes at all time-points, but no glycoalkaloids were formed.
The enzyme S-adenosyl- l -methionine:sterol C24 methyltransferase (SMT, EC 2. 1. 1. 41), located at one presumed branching point in the sterol and glycoalkaloid pathway, was characterized and found to exhibit similar characteristics as in other plants, but a lower specific activity. The activity of SMT increased in ageing tuber discs and this increase was further stimulated by ethephon, but inhibited by norborna-2,5-diene. The activity of the glycoalkaloid-specific enzyme UDP-glucose:solanidine glucosyltransferase (EC 2. 4. 1) also increased after slicing, but here ethephon additions counteracted the induction. The activity of the sterol-specific UDP-glucose:sterol glucosyltransferase (EC 2. 4. 1) was unaffected by either tuber slicing or ethephon additions.
The results indicate that ethylene stimulates sterol synthesis in wounded potato discs, and that the wound-induction of SMT is regulated by ethylene.     

Alterations in L fibroblast lipid metabolism and morphology during choline deprivation.

The growth of L fibroblasts in suspension culture after transfer directly to choline-free medium without a rinse was reduced to zero after 72 h. Monolayer cultures similarly treated multiplied at control rates for 96 h; one rinse of the latter prior to incubation in choline-free medium reduced growth at 48 h to 75% of control cells. A decrease in the size of cells in these rinsed monolayer cultures was apparent within 12 h, and preceded any changes in cell lipid composition; further decreases in cell size were observed at 24 and 48 h. After 24 h in choline-free medium the percent phosphatidyl choline had decreased only slightly and even at 48 h remained at 72 % of the value of control cells. At this time, however, there was a 50% decrease in the total phospholipid (PL) content of the cells, and a coincident 5–10-fold increase in the amount of triglyceride. There was no adaptive increase in the other principal PL classes. Changes in the ultrastructure of mitochondria were observed as early as 24 h; after 48 h without choline there was a decrease in the relative mitochondrial volume to 50% of control values. Alterations in the adhesive properties of choline-deprived cells may be related to altered lipid content or composition of the cell surface.     

Defence response of pepper (Capsicum annuum) suspension cells to Phytophthora capsici

Cell suspension cultures of three cultivars of Capsicum annuum L., with different degrees of sensibility to the fungus Phytophthora capsici, responded to elicitation by both lyophilized mycelium and fungus filtrate. They showed conductivity changes, browning, production of the phytoalexin capsidiol and synthesis or accumulation of pathogenesis-related (PR) proteins with glucanase (EC 3.2.1.39) and chitinase (EC 3.2.1.14) activities. The cultivation medium was optimised for growth of both the plant and the fungus in order to avoid any stress during their combination. The resistant cv. Smith-5, showed a more rapid and intense response to the elicitor preparations than the sensitive cvs Americano and Yolo Wonder. This was particularly evident when the cell suspensions were elicited with the filtrate, when differences became clearly visible after only 6 h incubation. The greatest rate of capsidiol accumulation occurred after 18 h in the mycelium-elicited cells and after 12 h in those elicited with the filtrate. These times are the optimal for capsidiol accumulation, and the phytoalexin is produced much more rapidly than it can be excreted into the extracellular medium. The inhibition threshold of fungal growth (300 µg capsidiol [g dry weight]^?1) was reached only in the resistant cultivar. The induction of an intracellular glucanase (pI 8.9 and R_f 0.18) and an extracellular chitinase (pI 5.4 and R_f 0.70) only in the resistant cultivar 24 h after elicitation suggests that these enzymes are involved in the resistance to Phytophthora capsici, while other hydrolases common to all three cultivars form part of a more general defence. The results indicate that elicitation of pepper cell suspension cultures by signal molecules from P. capsici exhibits properties of a multicomponent dynamic system in which different protective mechanisms play complementary roles in the overall expression of the defence reaction. We confirm that the differential responses of resistant and susceptible pepper cultivars to P. capsici previously seen in plant stem sections are retained in suspension culture.     

过表达apoA-I可缓解BEL-7402细胞中衣霉素诱导的内质网应激

内质网应激（endoplasmic reticulum stress,ER stress）对非酒精性脂肪性肝病（non alcoholic fatty liver disease,NAFLD）的发生发展具有十分重要的作用。本实验室前期结果证实,载脂蛋白A1（apolipoprotein A-I,apoA-I）可以通过减少肝细胞脂质堆积来减轻蛋氨酸胆碱缺乏饲料造成的非酒精性肝炎(non-alcoholic steatohepatitis,NASH),但相关机制仍不十分清楚。为探索apoA I对内质网应激的影响,本研究采用衣霉素处理人肝癌BEL-7402细胞。Western印迹结果证实,衣霉素确实可以诱导BEL-7402细胞内质网应激,并具有时间和剂量依赖性。通过将apoA-I表达载体及其对照载体转染到BEL-7402细胞,再加入衣霉素处理,结果显示,与对照组相比,过表达apoA-I的细胞内质网应激标志分子表达明显减轻,同时与脂质合成相关的固醇调节元件结合蛋白1、脂肪酸合成酶和乙酰辅酶A羧化酶1蛋白质水平明显降低。脂质检测结果表明,细胞内甘油三酯和游离胆固醇水平也明显降低（P<0.05）。上述结果表明,apoA-I能够减轻衣霉素引起的内质网应激,可能机制是通过调控固醇调节元件结合蛋白1减少肝细胞的脂质堆积。     

Elicitor-inducible 3-hydroxy-3-methylglutaryl coenzyme a reductase activity is required for sesquiterpene accumulation in tobacco cell suspension cultures

Addition of cell wall fragments from Phytophthora species or cellulase from Trichoderma viride, but not pectolyase from Aspergillus japonicus, to tobacco (Nicotiana tabacum) cell suspension cultures induced the accumulation of the extracellular sesquiterpenoid capsidiol. Pulse-labeling experiments with [¹⁴C]acetate and [³H]mevalonate suggested that enzymatic steps preceding mevalonate were limiting capsidiol biosynthesis in the pectolyase-treated cell cultures. Treatment of the cell cultures with either Phytophthora cell wall fragments or cellulase induced 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) and sesquiterpene cyclase activities, enzymes of the sesquiterpene biosynthetic pathway, and phenylalanine ammonia lyase activity, an enzyme of the general phenylpropanoid pathway. Pectolyase treatment induced sesquiterpene cyclase and phenylalanine ammonia lyase activities, but not HMGR activity. These results corroborate the importance of inducible HMGR enzyme activity for sesquiterpene accumulation.     

Phytosterols in tobacco leaves at various stages of physiological maturity

Leaves of varying maturity from 84-day-old tobacco plants were harvested and analyzed for total sterol and their individual sterol components. The mature leaves had a significant higher sterol content than the immature leaves. Separation into free sterols, steryl esters, steryl glycosides, and acylated steryl glycosides showed that the free sterols accounted for most of the sterol increase, and stimgasterol was principally responsible for this increase.     

Sesquiterpenoid phytoalexins from suspended callus cultures of Nicotiana tabacum

Treatment of suspended callus cultures of Nicotiana tabacum with commercial cellulase elicited four principal stress metabolites including the phytoalexin capsidiol and a second eremophilane-type diol, shown on the basis of chemical and spectroscopic evidence to be 4-epieremophil-9-ene-11 /gx, 12-diol (without assignment of absolute configuration). This diol appears to be structurally identical with debneyol isolated from N. debneyi (see accompanying paper). Among minor metabolites were an isomer and a dehydro-analogue of the diol. GC/MS of cyclic derivatives (boronates and di-t-butylsilylene derivatives) of vicinal diols was useful for their detection and characterisation. The remaining two major metabolites appeared to be phytuberol and phytuberin.     

Induction of sesquiterpenoid biosynthesis in tobacco cell suspension cultures by fungal elicitor

Large amounts of the sesquiterpenoid capsidiol accumulated in the media of tobacco (Nicotiana tabacum L. cv KY14) cell suspension cultures upon addition of fungal elicitor. Capsidiol accumulation was proportional to the amount of elicitor added. The accumulation of capsidiol was preceded by a transient increase in the capsidiol de novo synthesis rate as measured by the incorporation of exogenous [¹⁴C]acetate. Changes in 3-hydroxy-3-methylglutaryl-CoA reductase activity (HMGR; EC 1.1.1.34), an enzyme of general isoprenoid metabolism, paralleled the changes in [¹⁴C]acetate incorporation into capsidiol. Incubation of the cell cultures with mevinolin, a potent in vitro inhibitor of the tobacco HMGR enzyme activity, inhibited the elicitor-induced capsidiol accumulation in a concentration dependent manner. [¹⁴C]Acetate incorporation into capsidiol was likewise inhibited by mevinolin treatment. Unexpectedly, [³H] mevalonate incorporation into capsidiol was also partially inhibited by mevinolin, suggesting that mevinolin may effect secondary sites of sesquiterpenoid biosynthesis in vivo beyond HMGR. The data indicated the importance of the induced HMGR activity for capsidiol production in elicitor-treated tobacco cell suspension cultures.     

Changes in steryl lipids of oat root cells as a function of water-deficit stress

Five-day-old seedlings of oat ( Avena saliva L. cv. Seger) were subjected to water-deficit stress for two and four periods, each of 24h duration with interjacent rewatering periods of 24 h. After two and tour stress periods the fresh weight/dry weight ratio of the roots was 73 and 74% of the control value, respectively. Two stress periods did not affect the amount or composition of free, esterified and glycosylated sterols (desmethylsterols) or methylsterols (mono- and dimethylsterols). After four stress periods the amount of tree sterols increased by 25% on a dry-weight basis but that of free methylsterols only slightly. The most significant increase (by over 60%) occurred in esterified sterols and methylsterols. The amount of sterols bound as glycosides and acylaled glycosides decreased slightly (by 10%) after four stress periods. The amount of glycosylated methylsterols was negligible and did not respond to water-deficit stress. Within all component groups the proportions of individual compounds remained unaffected after two and four stress periods. The increase of the sterol levels caused by the stress is discussed in terms of a hormone-induced synthesis leading to a changed sterol/membrane acyl lipid ratio. This has implications for the chemo-physical properties of the root cell membranes.     

Apparent coordination of the biosynthesis of lipids in cultured cells: its relationship to the regulation of the membrane sterol:phospholipid ratio and cell cycling

The coordination of the syntheses of the several cellular lipid classes with one another and with cell cycle control were investigated in proliferating L6 myoblasts and fibroblasts (WI-38 and CEF). Cells cultured in lipid-depleted medium containing one of two inhibitors of hydroxymethylglutaryl-CoA reductase, 25-hydroxycholesterol or compactin, display a rapid, dose-dependent inhibition of cholesterol synthesis. Inhibition of the syntheses of each of the other lipid classes is first apparent after the rate of sterol synthesis is depressed severalfold. 24 h after the addition of the inhibitor, the syntheses of DNA, RNA, and protein also decline. The inhibition of sterol synthesis leads to a threefold reduction in the sterol:phospholipid ratio that parallels the development of proliferative and G1 cell cycle arrests and alterations in cellular morphology. All of these responses are reversed upon reinitiation of cholesterol synthesis or addition of exogenous cholesterol. A comparison of the timing of these responses with respect to the development of the G1 arrest indicates that the primary factor limiting cell cycling is the availability of cholesterol provided either from an exogenous source or by de novo synthesis. The G1 arrest appears to be responsible for the general inhibition of macromolecular synthesis in proliferating cells treated with 25-hydroxycholesterol. In contrast, the apparent coordinated inhibition of lipid synthesis is not a consequence of the G1 arrest but may in fact give rise to it. Sequential inhibition of lipid syntheses is also observed in cycling cells when the synthesis of choline-containing lipids is blocked by choline deprivation and is observed in association with G1 arrests caused by confluence or differentiation. In the nonproliferating cells, the syntheses of lipid and protein do not appear coupled.     

Sterol methenyl transferase inhibitors alter the ultrastructure and function of the Leishmania amazonensis mitochondrion leading to potent growth inhibition

We describe here the effects of Delta(24(25)) sterol methenyl transferase inhibitors (SMTI) on promastigote and axenic amastigote forms of Leishmania amazonensis. When these cells were exposed to 20-piperidin-2-yl-5alpha-pregnan-3beta-20-diol (22,26-azasterol; AZA), hydrazone-imidazol-2-yl-5alpha-pregnan-3beta-ol (IMI), 20-hydrazone-pyridin-2-yl-5alpha-pregnan-3beta-ol (PYR) or 24(R,S),25-epiiminolanosterol (EIL), a concentration- and time-dependent inhibition of growth was observed, with IC(50) values in the sub-micromolar range. Ultrastructural alterations in treated cells were mainly observed in the mitochondrion, which displayed an intense swelling and a reduction of the electron density of the matrix with remarkable changes in the inner mitochondrial membranes. Mitochondrial transmembrane electric potential (DeltaPsi) was measured using spectrophotometric methods in control and treated promastigotes permeabilized with digitonin. After energization with the substrates for complexes I, II or IV of the respiratory chain, it was possible to detect marked changes of DeltaPsi in promastigotes treated with 1 microM of the SMTI for 48 or 72 h when compared with normal cells, indicating that these compounds led to the loss of the energy-transducing properties of the mitochondrial inner membrane, probably related to the alteration of its lipid composition. The present study confirms these findings, showing that in Leishmania amazonensis the mitochondrial complex appears to be the first organelle affected after treatment with different SMTI.     

Cellulase elicitor induced accumulation of capsidiol in Capsicum annumm L. suspension cultures

When growth-phase cell suspension cultures of Capsicum annuum were treated with cellulase-elicitor preparation at 3 μg/ml, the level of capsidiol was transiently increased in the culture media rather than in the cells reaching its maximum approx 24 h after treatment. With methyl jasmonate it took 18 h. Elicitor treatment doubled phospholiphase A₂ (PLA₂) activity but simultaneous treatment with aristolochic acid, a PLA₂ inhibitor, inhibited sesquiterpenoid accumulation as well as PLA₂ activity. Mastoparan, a G protein activator, treatment also increased PLA₂ activity and capsidiol production. Taken together, the present study shows that induction of capsidiol production in the C. annuum is mediated by PLA₂ activation.     

Characterization of Novel Sesquiterpenoid Biosynthesis in Tobacco Expressing a Fungal Sesquiterpene Synthase

The gene encoding trichodiene synthase (Tri5), a sesquiterpene synthase from the fungus Fusarium sporotrichioides, was used to transform tobacco (Nicotiana tabacum). Trichodiene was the sole sesquiterpene synthase product in enzyme reaction mixtures derived from unelicited transformant cell-suspension cultures, and both trichodiene and 5-epi-aristolochene were observed as reaction products following elicitor treatment. Immunoblot analysis of protein extracts revealed the presence of trichodiene synthase only in transformant cell lines producing trichodiene. In vivo labeling with [3H]mevalonate revealed the presence of a novel trichodiene metabolite, 15-hydroxytrichodiene, that accumulated in the transformant cell-suspension cultures. In a trichodiene-producing transformant, the level of 15-hydroxytrichodiene accumulation increased after elicitor treatment. In vivo labeling with [14C]acetate showed that the biosynthetic rate of trichodiene and 15-hydroxytrichodiene also increased after elicitor treatment. Incorporation of radioactivity from [14C]acetate into capsidiol was reduced following elicitor treatment of a trichodiene-producing transformant as compared with wild type. These results demonstrate that sesquiterpenoid accumulation resulting from the constitutive expression of a foreign sesquiterpene synthase is responsive to elicitation and that the farnesyl pyrophosphate present in elicited cells can be utilized by a foreign sesquiterpene synthase to produce high levels of novel sesquiterpenoids.     

Phosphatidylcholine biosynthesis in celery cell suspension cultures with altered sterol compositions

Cell suspension cultures of celery were treated with the plant growth regulator, paclobutrazol. Lipid analysis revealed that use of this xenobiotic had little effect on the quantity or acyl quality of the major phospholipid classes or on the actual amounts of free sterol present in the cell. It did however, cause dramatic changes in the free sterol profile exhibited by treated cultures. In this respect, an increase in 14α-methylsterols was observed.
The synthesis of phosphatidylcholine in celery cell suspension cultures with altered free sterol compositions was studied using two radiolabelled biosynthetic precursors, [³H-methyl]choline and [³H-methyl]methionine. The studies showed that the rate of phosphatidylcholine biosynthesis via the CDP-base pathway proceeded at a slower rate in paclobutrazol treated cultures. Accumulation of label phosphocholine was observed arising from reduced CTP:cholinephosphatecytidylyltransferase activity. In contrast, phosphatidylcholine biosynthesis via the sequential methylation of ethanolamine derivatives appeared to be enhanced in cells that had an unusually high 14α-methylsterol content. From these investigations it may be postulated that the biosynthesis of phosphatidylcholine in Apium graveolens suspension cultures may be regulated by membrane sterol composition.     

Status of reduced glutathione in primary cultures of rat hepatocytes and the effect on conjugation of benzo[a]pyrene-7,8-dihydrodiol-9,10-oxide

The intracellular level of reduced glutathione (GSH) and GSH conjugation have been investigated in primary cell cultures of hepatocytes isolated from control rats, phenobarbitone (PB) and 3-methylcholanthrene (MC) treated rats. The data demonstrate that in all cell cultures the GSH concentrations show a triphasic pattern: (i) within 1 h of culture an initial marked decrease to 50% of the levels found in fresh hepatocytes; (ii) recovery of GSH concentrations to above the levels observed in fresh cells. This occurs after 6 h in culture with control cells and after 10-24 h with cells from either PB or MC treated rats and was most prominent in cells from PB-treated rats. (iii) A slow decline to between 30 and 40 nmol GSH/mg protein from 24 to 96 h in culture. Synthesis of GSH was slower in cultured cells from PB treated rats and this was confirmed by the resynthesis rates when diethylmaleate (DEM) was used to deplete GSH. The formation of GSH conjugates with racemic 7 beta,8 alpha-dihydroxy-9 alpha,10 alpha-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE) was measured in control cells in suspension and after 3 and 24 h in culture. Despite the decrease in GSH concentrations observed between 1 and 4 h after culture, the conjugation rates were not decreased.     

Effects of prior sterol depletion on neurite outgrowth in neuroblastoma cells

The effect of decreasing cellular sterol content on neurite outgrowth in C1300 (Neuro 2A) neuroblastoma cells in serum-free medium has been studied. Sterol-depleted, undifferentiated neuroblastoma cells were obtained by growing cells for 24 h in medium containing lipoprotein-poor serum and 25-hydroxy-cholesterol (25-OHC). Under these conditions the activity of 3-hydroxy-3-methyl-glutaryl-CoA reductase and the incorporation of [₁₄C] acetate into sterols were almost completely suppressed, and the sterol/phospholipid ratio of the cells declined to 60% of that in cultures grown without 25-OHC. The sterol-depleted cells were viable and exhibited rates of DNA, RNA, protein and fatty acid synthesis comparable to those measured in control cultures. Sterol depletion had no detectable effect on the number of cells that were able to undergo morphological differentiation within 3 h after removal of serum from the medium. However, by 24 h most of the sterol-depleted cells had retracted their neurites. The observation that addition of low-density lipoprotein was able to restore neurite outgrowth in cultures treated with 25-OHC indicates that the inability of sterol-depleted cells to maintain their neurites is related specifically to the decline in the sterol content rather than to a general cytotoxic effect of 25-OHC. Our findings suggest that incorporation of cholesterol into the cell membrane is important for long-term maintenance and elongation of neuroblastoma neurites, but that the initial morphological change (i.e., within 3 h after removal of serum) is apparently a separate and distinct event, not dependent on the availability of cholesterol.