Influence of photodynamic processes induced by 2,2′-dipyridyl on the enzymatic system of chlorophyll biosynthesis

The influence of 2,2′-dipyridyl (2,2′-DP) on the activity of one of the enzymes at the initial stages of chlorophyll (Chl) biosynthesis, δ-aminolevulinic acid dehydratase (ALAD; δ-aminolevulinate hydro-lyase, EC 4.2.1.24), as well as on δ-aminolevulinic acid (ALA) accumulation was investigated in green barley (Hordeum vulgare L.) leaves. In seven-day-old green leaves treated with 3 mM 2,2′-DP for 17 h in darkness and subsequently irradiated with "white light" (15 W m-2) for 4, 8, and 24 h the ALAD activity was 51 % as compared to that in untreated leaves. At the same time, the ALA forming system was most sensitive to the photodynamic processes caused by 2,2′-DP. After 8 h of irradiation, ALA synthesis was entirely inhibited. After the treatment the leaves accumulated exceptionally high amounts of Chl precursors such as protoporphyrin IX (Proto), Mg-protoporphyrin IX (Mg-Proto), its monomethyl ester, and protochlorophyllide (Pchlide) that are photosensitizers of photodynamic processes in plants. A comparatively low Chl and carotenoid (Car) destruction was registered during the subsequent 4 and 8 h of irradiation. At the same time, the content of Chl precursors was negligible. The low photodestruction of Chl and Car included in pigment-protein complexes, against the background of fast porphyrin disappearance, and fast decrease of enzymatic activities at the initial stages of Chl production could mean that the photodynamic effect induced by porphyrins accumulated in the presence of 2,2′-DP affected first the Chl enzymatic system and did not change the pool of already synthesized photosynthetic pigments.     

Cadmium induced oxidative stress in soybean plants also by the accumulation of δ-aminolevulinic acid

Cadmium toxicity has been extensively studied in plants, however its biochemical mechanism of action has not yet been well established. To fulfil this objective, four-weeks-old soybean nodulated plants were treated with 200 μM Cd²⁺ for 48 h. δ-aminolevulinic acid dehydratase (ALA-D, E.C. 4.2.1.24) activity and protein expression, as well as δ-aminolevulinic acid (ALA) and porphobilinogen (PBG) concentrations were determined in nodules, roots and leaves. In vitro experiments carried out in leaves were performed using leaf discs to evaluate the oxidant and antioxidant properties of ALA and S-adenosyl-l-methinone (SAM), respectively. Oxidative stress parameters such as thiobarbituric acid reactive substances (TBARS) and GSH levels as well as superoxide dismutase (SOD, E.C. 1.15.1.1), and guaiacol peroxidase (GPOX, E.C. 1.11.1.7) were also determined. Cadmium treatment caused 100% inhibition of ALA-D activity in roots and leaves, and 72% inhibition in nodules whereas protein expression remained unaltered in the three studied tissues. Plants accumulated ALA in nodules (46%), roots (2.5-fold) and leaves (104%), respect to controls. From in vitro experiments using leaf discs, exposed to ALA or Cd²⁺, it was found that TBARS levels were enhanced, while GSH content and SOD and GPOX activities and expressions were diminished. The protective role of SAM against oxidative stress generated by Cd²⁺ and ALA was also demonstrated. Data presented in this paper let us to suggest that accumulation of ALA in nodules, roots and leaves of soybean plants due to treatment with Cd²⁺ is highly responsible for oxidative stress generation in these tissues.     

Investigation of the porphyrins accumulation in barley leaves incubated with Mn cations and δ-aminolevulinic acid

In greening etiolated primary leaves of barley (Hordeum vulgare L.), Mn²⁺ ions have been shown to inhibit chlorophyll (Chl) accumulation in a dose dependent manner and to lead to an accumulation of protoporphyrin IX (Proto) and Mg-protoporphyrin IX monomethyl ester (MgPE). The amount of MgPE that accumulated, was 2 times higher than Proto. In the dark, Proto and MgPE were observed to have accumulated to high levels in seven-day old green and etiolated leaves in the presence of 5 mmol/L Mn²⁺, but only if 5 mmol/L δ-aminolevulinic acid (ALA) was present. The 24 hours of irradiation of the green barley leaves treated in this way, resulted in a photodynamic destruction of Proto and MgPE as well as of Chl and carotenoids (Car). The observed porphyrin accumulation caused by the Mn²⁺ ions was reversed in the presence of active iron (Fe²⁺). This effect was observed when the iron concentration in incubation solutions was half the Mn²⁺ concentration, most effective for porphyrin synthesis, i.e. 5 mmol/L. The action of Mn²⁺ on porphyrin accumulation is also discussed.     

Influence of dietary supplementation with thiamine on lead intoxication in rats

The influence of dietary supplementation with thiamine on lead (Pb) contents in blood and tissues, blood δ-aminolevulinic acid dehydratase (δ-ALAD) activity, and urinary excretion of δ-aminolevulinic acid (δ-ALA) was evaluated in male Sprague-Dawley rats. Groups of randomly selected animals were given a thiamine-deficient diet, a diet containing normal thiamine (20 mg/kg), or a thiamine-supplemented diet (50 mg/kg), along with control drinking water or water containing 100 ppm Pb, for 4 mo. Animals fed the thiamine-supplemented diet (50 mg/kg) and Pb showed decreased urinary excretion of δ-ALA and a decreased inhibition of δ-ALAD activity in blood compared to those given Pb with normal thiamine diet. The liver, kidney, and blood of rats receiving supplemental thiamine also contained significantly less Pb than the other two treatment groups given Pb-containing water. The protective effect of thiamine against Pb toxicity may be attributed to its interference with retention of the metal in body tissue, possibly resulting from the formation of excretable thiamine-lead complexes.     

Photodynamic processes and the synthesis of 5-aminolevulinic acid in chlorella cells treated with amino acids and 1,10-phenanthroline

Treatment of chlorella (Chlorella sp.) cells for 2 h in darkness with tetrapyrrole-dependent photodynamic herbicides (TDPH) derived on the basis of 0.3 mM 1,10-phenanthroline (Ph) combined with 0.6 mM Glu or 0.6 mM Gln induced the accumulation of sensitizers of photodynamic processes: magnesium protoporphyrin IX (MgPP) and MgPP monomethyl ester (MgPPE). Within the first day after chlorella cells treated with TDPH were illuminated, photodestruction of MgPP(E) was observed, and production of the first specific precursor of chlorophyll (Chl), 5-aminolevulinic acid (ALA), in the cells declined. Then the accumulation of ALA was stimulated, and the level of heme, which is a retroinhibitor of ALA synthesis, simultaneously fell. During the first two days of illumination, the content of Chl and carotenoids in the algae treated with TDPH did not differ from their levels in control culture, which suggests a high resistance of photosynthetic pigments to photodynamic process induced by porphyrins. Subsequently, a slight but rising in time accumulation of pheophytin (Pheo) was observed, as well as photodestruction of Chl and carotenoids. After five days of illumination, the difference in the content of Chl between the culture treated with TDPH and control material was 10–30% depending on the illuminance. Chlorella cells treated with TDPH remained capable of producing Chl from exogenous ALA in the dark for at least eight days. In the experiments simultaneously conducted with a higher plant, cucumber (Cucumis sativa L.), which accumulated in the dark essentially the same content of porphyrins in response to TDPH as algae did, the residual level of Chl after five days of illumination was only 10–20% of control plants. It was assumed that a high tolerance of the chlorella pigment pool to photooxidative stress induced by the accumulation of MgPP(E) and Pheo depended on a highly active state of the antioxidant protective system and the ability of ALA molecules additionally formed under the influence of TDPH to be converted into Chl, thereby participating in its de novo synthesis.     

Regulation of Magnesium Chelatase Activity during Excessive Accumulation of Porphyrins in Green Barley Leaves

Activity of magnesium chelatase was studied in green barley leaves treated with 5-aminolevulinic acid (ALA). After this treatment, leaves accumulated excessive amounts of porphyrinic precursors of chlorophyll : protoporphyrin IX (PP), magnesium-protoporphyrin IX (MgPP), its monomethyl ester (MgPPE), and protochlorophyllide. The enzyme activity was found to be inversely dependent on the amount of MgPP formed from exogenous ALA. A conclusion was drawn about the existence of a mechanism for the regulation of the enzyme activity in vivo via its inhibition by the reaction product.     

Influence of dietary deficiency of nicotinamide on lead toxicity in young rats

The influence of dietary nicotinamide deficiency on lead intoxication in young developing rats was investigated. The Pb induced an increase in brain dopamine and noradrenaline, inhibition in blood δ-aminolevulinic acid dehydratase activity, an elevation in urinary excretion of δ-aminolevulinic acid and blood and tissue uptake of Pb were significantly more marked in animals maintained on a nicotinamide-deficient diet than those fed a nicotinamide-sufficient diet. The nicotinamide deficiency may enhance the susceptibility to Pb intoxication possible by enhancing the absorption of Pb and altering nicotinic acid metabolism.     

The Effect of Diuron and 5-Aminolevulinic Acid on the Maintenance of Stable Chlorophyll Content in Greening Barley Leaves

Chlorophyll (Chl) accumulation and delayed luminescence of PSII were compared in greening barley leaves pretreated and untreated with diuron (DCMU) in the etiolated state, and reactions of two photosystems were studied in the plastids isolated from the pretreated and untreated leaves. The effect of treatment in light of post-etiolated leaves after 40-h illumination with 5-aminolevulinic acid (ALA), on the content of Chl and its precursor, protochlorophyllide (PChld) was also studied. The pretreatment of etiolated leaves with DCMU did not affect the rate of greening and the stable level of Chl content in barley. ALA, when introduced to leaves after the termination of Chl accumulation, increased PChld, but not Chl level. We suppose that the primary cause of greening cessation in etiolated leaves is the inhibition and cessation of the synthesis of apoproteins of pigment–protein complexes. The exhaustion of binding sites for newly synthesized Chl molecules leads to their retention in the so-called retroinhibitory pool of Chl, thus resulting in the inhibition of ALA synthesis by a negative feedback mechanism.     

Effect of kinetin on early stages of chlorophyll biosynthesis in streptomycin-treated barley seedlings

Treatment of barley seeds (Hordeum vulgare L.) with streptomycin, an inhibitor of plastid protein synthesis, resulted in growth of the albino phenotype seedlings with ribosome-deficient undifferentiated plastids and chlorophyll (Chl) level as low as 0.1% of that in control plant leaves. A major effect of the antibiotic was almost complete suppression of the ability of plants to synthesize 5-aminolevulinic acid (ALA) intended for Chl biosynthesis. The activity of synthesis of ALA intended for heme porphyrin biosynthesis in etiolated and greening seedlings and in light-grown albinophenotype plants was insensitive to light and cytokinins. In the upper parts of leaves of streptomycin-treated plants, exhibiting 60% Chl deficit, the cells with three types of chloroplasts could be observed: normally developed chloroplasts, chloroplasts composed of single thylakoids and grana, and completely undifferentiated plastids. In this Chl-deficient tissue, ALA synthesis was found to be stimulated by kinetin but much less than in leaves of the control plants. The endogenous cytokinin content in etiolated and greening seedlings treated with streptomycin was almost the same as it was in untreated control seedlings. The cytokinin level in the white tissue of plants grown in the light was on average twice as high as that in green leaves of the control plants. The capability of kinetin to stimulate the synthesis of ALA used for Chl biosynthesis was found to correlate with the Chl content and organization of the chloroplast internal structure. This correlation confirms the hypothesis that the normally developed internal structure of plastids is essential for the adequate phytohormone response in plants.     

5-氨基γ-酮戊酸及其己酯衍生物对几种细胞株的光动力作用

5 氨基γ 酮戊 (ALA)及其己酯 (He ALA)具有内源生成光敏剂的特点 ,在肿瘤光动力探测及治疗中显示出了优势。ALA及He ALA对神经母细胞瘤、肝癌细胞及成纤维细胞的光动力作用被研究比较。由特征荧光光谱证实 ,经ALA或He ALA培养后 ,三种细胞内均可生成原卟啉 (PpIX)产物。激光扫描荧光显微镜显示 ,在经ALA或He ALA培养后的神经母细胞瘤中 ,PpIX均以弥散方式分布在细胞质中。PpIX在三种细胞中的积聚动力学过程不同 ,随着ALA或He ALA培育时间的增长 ,PpIX在肝癌细胞及成纤维原细胞中的积累增加 ,而在神经母细胞瘤中PpIX在 8h后已达到饱和。此外 ,在同样的培育条件下 ,神经母细胞瘤中PpIX的生成浓度明显高于肝癌细胞及成纤维细胞。经ALA培养及光照射后 ,可使近 90 %的神经母细胞瘤失活 ;而在同样条件下却只能杀伤 5 0 %左右的肝癌细胞及成纤维细胞。揭示了神经母细胞瘤对ALA光动力作用有极高的敏感性 ,并适于光动力治疗。与ALA相比 ,He ALA可在三种细胞内造成与ALA相近的杀伤率 ,但所用的药物浓度却比ALA低 10倍 ,显示He ALA具有极高的光动力灭活效率。因此在内源光动力治疗中 ,He ALA是一种极具开发前景的新药物。