Role of tumor necrosis factor alpha and sphingomyelin cycle activation in the induction of apoptosis by ischemia/reperfusion of the liver

The signal transduction pathways triggering apoptotic mechanisms after ischemia/reperfusion may involve TNF- secretion, ceramide generation, and initiation of lipid peroxidation. In the present study involvement of the TNF-, sphingomyelin cycle, and lipid peroxidation in the initiation of apoptosis induced in liver cells by ischemia and reperfusion was investigated. Wistar rats were subjected to total liver ischemia (for 15, 30 min, and 1 h) followed by subsequent reperfusion. Ischemia caused sharp decrease of neutral sphingomyelinase activity. Activity of acidic sphingomyelinase initially decreased (during 15-30 min ischemia) but then increased (after 1 h of ischemic injury). Reperfusion of the ischemic lobe of the liver caused increase in neutral sphingomyelinase activity and decrease in acidic sphingomyelinase activity. A small amount of TNF- detected by immunoblotting analysis was accumulated in the ischemic area of liver rapidly and the content of this cytokine dramatically increased after the reperfusion. TNF- is known to induce free radical production. We found that the accumulation of TNF and increase of sphingomyelinase activity during the development of ischemic/reperfusion injury coincided with increase in content of lipid peroxidation products (conjugated dienes) and DNA degradation detected by gel electrophoresis. Recently it was shown that superoxide radicals are used as signaling molecules within the sphingomyelin pathway. This suggests the existence of cross-talk between the oxidation system and the sphingomyelin cycle in cells, which may have important implications for the initial phase and subsequent development of post-ischemic injury.     

Regulation of auxin transport in pea (Pisum sativum L.) by phenylacetic acid: effects on the components of transmembrane transport of indol-3yl-acetic acid

Phenylacetic acid (PAA), a naturally-occurring acidic plant growth substance, was readily taken up by pea (Pisum sativum L. cv. Alderman) stem segments from buffered external solutions by a pH-dependent, non-mediated diffusion. Net uptake from a 0.2 M solution at pH 4.5 proceeded at a constant rate for at least 60 min and, up to approx. 100 M, the rate of uptake was directly proportional to the external concentration of the compound. The net rate of uptake of PAA was not affected by the inclusion of indol-3yl-acetic acid (IAA) in the uptake medium (up to approx. 30 M) and, unlike the net uptake of IAA, was not stimulated by N-1-naphthylphthalamic acid (NPA) or 2,3,5-triiodobenzoic acid. At an external concentration of 0.2 M and pH 4.5, the net rate of uptake of PAA was about twice that of IAA. It was concluded that the uptake of PAA did not involve the participation of carriers and that PAA was not a transported substrate for the carriers involved in the uptake and polar transport of IAA. Nevertheless, the inclusion of 3–100 M unlabelled PAA in the external medium greatly stimulated the uptake by pea stem segments of [1-¹⁴C]IAA (external concentration 0.2 M). It was concluded that whilst PAA was not a transported substrate for the NPA-sensitive IAA efflux carrier, it interacted with this carrier to inhibit IAA efflux from cells. Over the concentration range 3–100 M, PAA progressively reduced the stimulatory effect of NPA on IAA uptake, indicating that PAA also inhibited carrier-mediated uptake of IAA. The consequences of these observations for the regulation of polar auxin transport are discussed.Abbreviations IAA indol-3yl-acetic acid - DMO 5,5-dimethyloxazolidine-2,4-dione - NPA N-1-naphthylphthalamic acid - PAA phenylacetic acid - TIBA 2,3,5-triiodobenzoic acid     

The sequence surrounding the translation initiation codon of the pea plastocyanin gene increases translational efficiency of a reporter gene

The 5-upstream region of the pea plastocyanin gene (petE) directed 5–10-fold higher levels of -glucuronidase (GUS) activity than the cauliflower mosaic virus 35S promoter in transgenic tobacco plants, although the levels of GUS mRNA were similar. The sequence (AAAAAUGG) around the translation initiation codon of petE enhanced translation of the GUS mRNA 10-fold compared to translation from the GUS translation initiation codon in transgenic tobacco plants and transfected protoplasts.     

Distribution of 14C-labelled sucrose in seedlings of Pisum sativum L. Treated with indoleacetic acid and kinetin

Summary The influence of decapitation and treatment with IAA and/or kinetin on the pattern of distribution of ¹⁴C-labelled sucrose applied to the third leaf of 14-day old dwarf pea seedlings was investigated. Decapitation resulted in a diversion of the labelled metabolites to the lateral buds, and greatly increased the radioactivity present in the root system indicating that in these seedlings the roots and apex actively competed for translocates from the third leaf. Application of IAA to the decapitated internode prevented the growth of the lateral buds for the duration of the experiment and restored the pattern of distribution of labelled metabolites found in the intact plant. Application of kinetin alone resulted in a marked accumulation of labelled materials in the lateral buds, but when kinetin was applied with IAA metabolites were once again diverted from the lateral buds to the treated internode. Neither of these treatments had any influence on the proportion of the translocated materials which accumulated in the root system when compared with intact plants. The results are discussed in relation to current concepts of hormone-directed transport of nutrients in plants.     

Free DNA stretches in histone H1-depleted chromatin and their possible relation to chromomere structure

Oligomers of chromatin subunits (oligonucleosomes) were prepared by a mild digestion of chromatin with staphylococcal nuclease followed by a purification of a high molecular weight material (hexanucleosomes and larger DNP particles) by gel chromatography. The main finding is that a mild removal of histone H1 from the oligonucleosome preparation by treatment with tRNA in the absence of any significant hydrodynamic shearing leads to the formation of free DNA molecules which constitute 5–6% of the total oligonucleosomal DNA.The size of nucleosome-free DNA stretches in H1-depleted hydrodynamically sheared chromatin is about 6000 base pairs and their content is apparently 10–12% of the total DNA. These and related findings are discussed in terms of the previously proposed asymmetric hairpin model of DNA packing in chromatin [1–4]. Different kinds of the asymmetric hairpin are considered and ambiguities in interpretations of experimental data are pointed out.     

Angiogenesis and myogenesis as two facets of inflammatory post-ischemic tissue regeneration

Recently Hippophae rhamnoides has been reported to render chromatin compaction and significantly inhibit radiation induced DNA strand breaks. To investigate the mechanism of action of RH-3, a preparation of Hippophae rhamnoides, in this connection, present study was undertaken. Chromatin compaction induced by RH-3 (100 g/ml or more) was maximum at alkaline pH but was completely negated by acidic pH (< 6) or presence of free radical scavengers like glycerol, DMSO etc. In a concentration dependent manner, RH-3 inhibited the intercalation of ethidium ions from Et Br into calf thymus DNA and also increased the precipitation of DNA-protein cross-links (DPC) in thymocytes. Chromatin compaction caused by RH-3 treatment did not permit the separation of proteins from DNA even after treatment with 2 M NaCl solution. SDS-PAGE profiles also revealed that RH-3 in a dose dependent manner compacted the chromatin organization, induced DPC and inhibited the extraction of both histone and non-histone matrix proteins from chromatin maximally at 80 g/ml. More than 80 g/ml of RH-3, though extracted low molecular weight histones but did not separate non-histone proteins. The RH-3 mediated DPCs were resistant even to 1% SDS, 4 M NaCl and 3.8 M hydroxyl amine hydrochloride but were prone to both urea (8 M) and guanidine hydrochloride (6 M) indicating covalent bonding between DNA and proteins (serine/threonine). RH-3 in a concentration dependent manner induced superoxide anions and the phenomenon was dependent upon nature of medium, presence of metal ions and pH. RH-3 at concentrations up to 100 g/ml in presence of 50 M copper sulfate inflicted significant damage to extraneously added 2-deoxyribose molecules and maximum TBARS were formed at a concentration of 100 g/ml. Higher concentrations of RH-3 more than 100 g/ml quenched free radicals and inhibited 2-deoxyribose degradation. RH-3 also induced strand breaks in plasmid DNA at concentrations lower than 100 g/ml but completely inhibited at concentrations higher than 250 g/ml, indicating bimodal function. Strand breaks induced by lower concentrations of RH-3 (up to 100 g/ml) were inhibited by antioxidants like GSH, DFR etc. RH-3, in a concentration dependent mode also inhibited the relaxation of supercoiled plasmid DNA (PBR322) by topoisomerase I.Present study indicated that RH-3 caused compaction of reversible (< 100 g/ml) and irreversible (> 100 g/ml) nature which was related to the magnitude of DNA-protein cross-links formed. Maintenance of chromatin organization, induction of hypoxia, hydrogen atom donation, free radical scavenging and blocking of cell cycle at G2-M phase by interfering with topoisomerase I activity seem to contribute towards the radioprotective efficacy of RH-3.     

Long molecules of free DNA in the sheared chromatin preparation

Hydrodynamic shearing of chromatin in the presence of Mg²⁺ ions produces two discrete types of particles: (1) molecules of completely free DNA which comprise 20–23% of the total DNA and (2) histone-covered DNA molecules which contain all five histone fractions. The average length of free DNA molecules depends on the intensity of shearing and can be as high as 1000 base pairs or more. Shearing of chromatin in the absence of Mg²⁺ produces a heterogeneous population of DNP particles; no free DNA is liberated. However, the addition of Mg²⁺ to this preparation results in appearance of free DNA molecules and in a complete restoration of the above bimodal distribution.These findings support a previously proposed asymmetric hairpin model of DNA packing in the chromatin [1–3].     

Exogenous auxin effects on growth and phenotype of normal and hairy roots of Pueraria lobata (Willd.) Ohwi

Pueraria lobata hairy roots have faster elongationand more branches than normal roots. The responses of hairy roots and normalroots to treatment with three auxins, indole-3-acetic acid (IAA),indole-3-butyric acid (IBA), and naphthalene acetic acid (NAA) were different.In normal roots, all three auxins strongly stimulated lateral root formation atall tested concentrations. Responses to IAA and IBA in primary root growth andlateral root elongation were similar and depended on concentration; promotionat0.1 M, no effect at 1.0 M, and inhibition at2.5 M. In hairy roots, lateral root formation varied inresponseto the different auxins, i.e. depressed by NAA, unaffected by IAA, and promotedby IBA. Primary root growth was slightly inhibited by IBA and was unaffected byIAA. However, mean lateral root length was reduced in response to IAA and IBA.Only NAA exerted strong inhibition on primary and lateral root elongation inboth root types. The similar free IAA and conjugated IAA content but quitedifferent basal ethylene production and biosynthesis in hairy and normal rootssuggested different mechanisms of response to exogenous auxins in the two roottypes.     

The formation of tryptophol glucoside in the tryptamine metabolism of pea seedlings

Summary Tryptamine was converted by etiolated pea seedlings into IAA, tryptophol, and an appreciable amount of an unknown metabolite. This latter compound was characterised by TLC and electrophoresis and identified, by mass spectrometry and enzymatic cleavage, as tryptophol glycoside: indole-3-ethyl--d-glycopyranoside.Abbreviations IAA indole-3-acetic acid - IAAld indole-3-acetaldehyde - TOH tryptophol - TO-glc tryptophol glucoside     

Veränderungen des Nucleoproteids unter dem Einfluß von Auxin und Ascorbinsäure bei der Wurzelneubildung an Erbsenepikotylen

Summary The melting point (T _m) of nucleoproteins in root forming pea epicotyls is lowered during the first 48 h after culture initiation. When histone is externally applied to the epicotyls during this period, the decrease of T _m is greatly diminished. The T _m declines with increasing IAA-concentrations. The lowering of the T _m can be brought about also by binding of small amounts of IAA to reconstituted or native nucleoproteins at pH> 8,0 in vitro. Furthermore, IAA can diminish the T _m of denatured and native DNA. Histone which is bound to small amounts of IAA is no longer able to inhibit root formation significantly after being applied to regenerating pea epicotyls. Therefore it appears that IAA can partly loosen the bindings of histone to DNA and the bindings of DNA to DNA in the double helix by direct binding to both components of the nucleoprotein. The association of IAA and nucleoproteids seems to be effected by ionic bonds.Like IAA, ascrobic acid also diminishes the binding capacity of histone to DNA in vitro, but in this process the structure of the DNA double helix does not become unstable. Upon being applied to regenerating pea epicotyls, ascorbic acid does not induce root formation itself, but it intensifies IAA-induced root formation when applied during the time of DNA-activity.The results are interpreted to mean that IAA acts as a true initiator of RNA-synthesis, whereas ascorbic acid probably intensifies otherwise induced DNA-activities by binding of excessive amounts of histone.

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Teil einer Habilitationsschrift der Fakultät für Gartenbau und Landeskultur an der Technischen Universität Hannover.     

Veränderungen des Nucleoproteids von Erbsenepikotylen durch synthetische Auxine bei der Induktion der Wurzelneubildung

Summary Root initiation in etiolated pea epicotyls induced by NAA and 2,4-D is inhibited by application of 5-BU in the same way as root initiation induced with IAA. The time of 5-BU action is regulated by auxin concentration. Binding of auxins to carefully extracted nucleoproteins from pea epicotyls at pH 8 resulted in a decrease of the melting point (T _m) of the nucleoproteins. From the results it is concluded that auxins act by direct binding to the nucleoprotein (probably by ionic bonds) and that this binding induces a decrease in binding capacity of histone to DNA, which represents the first step in the initiation of RNA synthesis.     

Effects of IAA and four IAA conjugates on morphogenesis and callus growth from tomato leaf discs

The effects of indole-3-acetic acid (IAA) and four IAA conjugates, indoleacetylalanine (IAAla), indoleacetylaspartic acid (IAAsp), indoleacetylglycine (IAGly), and indoleacetylphenylalanine (IAPhe), on growth and morphogenesis in tomato leaf discs in vitro were examined. Free IAA stimulated root initiation in the absence of cytokinin and stimulated callus growth in the presence of 0.89 M benzylaminopurine (BAP). Free IAA also inhibited shoot initiation obtained with 8.9 M BAP. The activities of the IAA conjugates depended on the conjugating amino acid, the concentration of the conjugate, and the response being measured. IAAsp had little or no activity in promoting root initiation or callus growth or in inhibiting shoots, while IAPhe was similarly inactive except at the highest concentration tested (100 M). IAAla and IAGly were both very active in inhibiting shoots and promoting callus growth, but were much less active in stimulating rooting, except at 100 M, at which concentration they were as effective as free IAA. Thin-layer chromatography of the IAA conjugates revealed that IAAla, IAGly and IAPhe were largely stable to autoclaving, but that IAAsp underwent some hydrolysis to products identical with free IAA and aspartic acid. Pretreatment of seedlings with IAA, IAAla or IAGly altered the subsequent shoot initiation response from leaf discs on media with and without IAA.     

Phytohormones,Rhizobium mutants,and nodulation in legumes. IV. Auxin metabolites in pea root nodules

High specific activity [³H]indole-3-acetic acid (IAA) was applied directly to root nodules of intact pea plants. After 24 h, radioactivity was detected in all plant tissues. In nodule and root tissue, only 2–3% of³H remained as IAA, and analysis by thin layer chromatography suggested that indole-3-acetyl-L-aspartic acid (IAAsp) was a major metabolite. The occurrence of IAAsp in pea root and nodule tissue was confirmed unequivocally by gas chromatography-mass spectrometry (GC-MS). The following endogenous indole compounds were also unequivocally identified in pea root nodules by GC-MS: IAA, indole-3-pyruvic acid, indole-3-lactic acid, indole-3-propionic acid, indole-3-butyric acid, and indole-3-carboxylic acid. Evidence of the occurrence of indole-3-methanol was also obtained. With the exception of IAA and indole-3-propionic acid, these compounds have not previously been unequivocally identified in a higher plant tissue.     

Pea (Pisum sativum L.) seed isolectins 1 and 2 and pea root lectin result from carboxypeptidase-like processing of a single gene product

The complete amino acid sequences of the -subunits of pea (Pisum sativum L.) seed and root lectin, the C-terminal amino acids of the -subunits of pea seed lectin, and most of the sequence of the -subunit of pea root lectin were determined. In contrast to earlier reports it was shown that the -subunits of both seed isolectins end at Asn-181. The 1 subunits end at Gln-241 (major fraction) or Lys-240 (minor fraction), whereas the 2 subunits end at Ser-239, Ser-238, Ser-237 or Thr-236. psl cDNA clones from seed are identical to psl cDNA clones from root, and root PSL is identical to seed PSL2, ending at Ser-239, Ser-238 or Ser-237. It seems that the presence of Lys-240 is the sole determinant of the charge difference between pea isolectins. PSL1 can be converted into PSL2 by carboxypeptidase P from Penicillium janthinellum. These results confirm that PSL from roots is encoded by the same gene as PSL from seeds. Thus, it seems that, next to an Asn-X specific protease responsible for the processing at positions 181/182 and 187/188, a carboxypeptidase is responsible for the conversion of PSL1 into PSL2, which is probably the final processing product.     

Effects of hydroxyproline on the growth and cell-wall protein metabolism of excised root segments of Pisum sativum

Summary Hydroxyproline, in the presence of sucrose, enhanced the extension growth of excised 2–4 mm pea root segments in aseptic media. About 90% of protein-bound hydroxyproline in the pea root segments was confined to the cell-wall fraction where it occurred as trans-4-hydroxy-l-proline. The amounts of wall-bound hydroxyproline increased dramatically towards the cessation of extension growth, but when the segments were cultured in trans-hydroxyproline, this increase was considerably less.Externally supplied cis and trans-hydroxyproline inhibited the formation of protein-bound [¹⁴C]hydroxyproline from [¹⁴C]proline without affecting the total amount of [¹⁴C]proline incorporated into proteins. Studies with -dipyridyl showed that, although some of the externally supplied trans-[¹⁴C]hydroxyproline was incorporated directly into cell-wall proteins, most of it was first converted into proline which was then incorporated into proteins and subsequently reconverted, in part, into hydroxyproline. The effect of externally supplied hydroxyproline is discussed in relation to protein-bound proline hydroxylation.     

Tissue culture ofKarwinskia humboldtiana—a plant producing toxins with antitumoural effects

Isolated embryos ofKarwinskia humboldtiana were cultured in vitro. The growth of embryos and development to plantlets on woody plant medium supplemented with indole-3-acetic acid 6.10^-2 mol l^–1, gibberellic acid (GA₃) 3.10^-2 mol l^–1, and 6-benzylaminopurine (BA) 2 mol l^–1 was obtained. Multiplication of shoots and rooting of excised shoots has been achieved. Callus formation on modified Murashige-Skoog medium supplemented with 1-naphthaleneacetic acid 10 mol l^–1, GA₃ 14 mol l^–1, and kinetin 5 mol l^–1 on hypocotyls, or on root cultures on medium supplemented with 2.4-dichlorophenoxyacetic acid 10 mol l^–1 and BA 10 mol l^–1 was induced.Abbreviations BA 6-benzylaminopurine - 2,4-d 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - IAA indole-3-acetic acid - NAA 1-naphthaleneacetic acid - TEM transmission electron microscopy     

Enclosure of bacteria by the rough endoplasmic reticulum of shrimp hepatopancreas cells

Summary Zygotic embryos ofArabidopsis thaliana showed three different types of developmental response, when cultured in vitro: (1) normal development, (2) formation of morphogenetic callus, and (3) somatic embryogenesis. Early zygotic embryos were mechanically isolated and inoculated into different volumes of various culture media. It was possible to isolate embryos to the octant stage. Survival and further development in culture were observed in embryos to the early globular stage. Culture success increased with the initial size of the cultivated embryos. Neither the volume of the culture medium nor its composition were found to significantly influence the proportion of embryos developing in vitro. Whereas normal development from stages beyond 35 m diameter was possible without phytohormones, callus formation was frequently observed in the presence of phytohormones, even if used at very low concentrations. Embryos smaller than 35 m formed callus even without added phytohormones, and the proportion of embryos undergoing callus formation decreased with increasing embryo size at the time of culture initiation. Shoot morphogenesis was easily induced in embryo derived callus. Somatic embryogenesis was reliably observed during the culture of embryos from later stages (post heart-shaped) in liquid medium on a shaker.Abbreviations IAA indoleacetic acid - KIN kinetin - NAA -naphthaleneacetic acid     

Does Ethylene Mediate Root Growth Inhibition by Indole-3-Acetic Acid?

The effects of ethylene and of indole-3-acetic acid (IAA) on growth of excised pea root sections have been compared under a variety of conditions. After 16 hours treatment the inhibitory action of IAA is fully reversible on transfer of the root sections to IAA-free solutions. In contrast, inhibition by ethylene is almost totally irreversible. IAA inhibits growth from zero time; ethylene is generally without effect during the first 3 to 6 hours. The inhibitory action of ethylene is dependent on factors such as tissue age and solution composition which have no major effect on IAA inhibition. Ethylene production is enhanced by 100 μm IAA, but conditions which reduce the rate of ethylene evolution 2 to 3-fold at the same IAA concentration fail to affect the inhibitory action of IAA on elongation. It seems unlikely that ethylene can play more than a minor role in mediating inhibition of pea root growth by IAA.