The carotenoids of blue-green algae—II. : The carotenoids of Aphanizomenon flos-aquae

The carotenoid composition of Aphanizomenon flos-aquae has been re-examined in a quantitative manner. The epiphasic fraction comprised β-carotene (I), flavacin, aphanin and aphanicin. The last two were shown to be identical with echinenone (IV) and canthaxanthin (VI) respectively. The hypophasic fraction contained in addition to aphanizophyll small amounts of myxoxanthophyll. Aphanizophyll and myxoxanthophyll are different pigments.     

Are dietary carotenoids beneficial? Reactions of carotenoids with oxy-radicals and singlet oxygen.

Carotenoids play diverse roles in biology and medicine. Both the quenching of singlet oxygen (energy transfer) and interaction with oxy-radicals (electron transfer, H-atom transfer and addition reactions) are key processes in understanding many of these roles. Much previous work in 'simple' solvents is reviewed and new results in cell membrane models are presented. The possible consequences of using carotenoids as dietary supplements are discussed.     

Cardioprotection by omega-3 fatty acids: Involvement of PKCs?

It has been known since the 1970s that an increased consumption of n-3 long chain polyunsaturated fatty acids such as eicosapentaenoic acid and docosahexaenoic acid has cardioprotective effects. Epidemiological studies have reported that this effect is due to the prevention of the arrhythmias responsible for sudden cardiac death. Mechanistically, different hypotheses have been put forward to give an explanation. Among them, there are a direct effect of the polyunsaturated fatty acids on ion channels and/or a modification of the regulation of ion channels by protein kinase C’s.     

Mechanisms of heat protection by cycloheximide or puromycin: Involvement of polyamines?

1. 1.|When Chinese hamster ovary cells are treated with cycloheximide (10 μg/ml) or puromycin (100 μg/ml) for 2 h before and during heating at 43°C for 3 h, there is protection from hyperthermic killing; i.e. the plating efficiency increases 2000-fold from 3.7 × 10⁻⁵ to (6–9) × 10⁻².

2. 2.|The total intracellular levels of spermidine and spermine are not altered by the hyperthermic or drug treatments.

3. 3.|The small 30% decrease in intracellular putrescine observed after heating is not altered by drug treatment.

4. 4.|Heat protection by treatment with cycloheximide or puromycin cannot be attributed to changes in levels of total intracellular polyamines.

The carotenoids of blue-green algae—I. : The carotenoids of Oscillatoria rubescens and an Athrospira sp.

The carotenoid composition of Oscillatoria rubescens has been re-examined in a quantitative manner. β-Carotene, zeaxanthin, echinenone (myxoxanthin), myxoxanthophyll and oscillaxanthin were found together with small amounts of cryptoxanthin and a hydroxylated ketocarotenoid whose probable structure is 4-keto-3′-hydroxy-β-carotene (I). The carotenoids of an Athrospira sp., whose systematic position is close to that of O. rubescens, were qualitatively and quantitatively very similar to those of O. rubescens, and the Athrospira sp. can be used as a more convenient source for myxoxanthophyll and oscillaxanthin—the structures of which are not yet established.     

The complex of cytochrome c and cytochrome c peroxidase: the end of the road?

Cytochrome c (Cc) and cytochrome c peroxidase (CcP) form a physiological complex in the inter-membrane space of yeast mitochondria, where CcP reduces hydrogen peroxide to water using the electrons provided by ferrous Cc. The Cc-CcP system has been a popular choice of study of interprotein biological electron transfer (ET) and in understanding dynamics within a protein-protein complex. In this review we have charted seven decades of research beginning with the discovery of CcP and leading to the latest functional and structural work, which has clarified the mechanism of the intermolecular ET, addressed the putative functional role of a low-affinity binding site, and identified lowly-populated intermediates on the energy landscape of complex formation. Despite the remarkable attention bestowed on this complex, a number of outstanding issues remain to be settled on the way to a complete understanding of Cc-CcP interaction.     

Involvement of protein tyrosine phosphatases in adipogenesis: New anti-obesity targets?

Obesity is a worldwide epidemic as well as being a major risk factor for diabetes, cardiovascular diseases and several types of cancers. Obesity is mainly due to the overgrowth of adipose tissue arising from an imbalance between energy intake and energy expenditure. Adipose tissue, primarily composed of adipocytes, plays a key role in maintaining whole body energy homeostasis. In view of the treatment of obesity and obesity-related diseases, it is critical to understand the detailed signal transduction mechanisms of adipogenic differentiation. Adipogenic differentiation is tightly regulated by many key signal cascades, including insulin signaling. These signal cascades generally transfer or amplify the signal by using serial tyrosine phosphorylations. Thus, protein tyrosine kinases and protein tyrosine phosphatases are closely related to adipogenic differentiation. Compared to protein tyrosine kinases, protein tyrosine phosphatases have received little attention in adipogenic differentiation. This review aims to highlight the involvement of protein tyrosine phosphatases in adipogenic differentiation and the possibility of protein tyrosine phosphatases as drugs to target obesity. [BMB Reports 2012; 45(12): 700-706]     

Oxidase–peroxidase reaction: kinetics of peroxidase-catalysed oxidation of 2-aminophenol

Possible reaction pathways that may lead to horseradish peroxidase inactivation during the aerobic oxidation of 2-aminophenol were investigated using extended kinetic curves. A kinetic model involving the formation of a low-reactive species, Compound III, was proposed and several rate constants were calculated using an optimisation computing program. Sensitivity analysis allowed to conclude that both oxidase and peroxidase cycles occur in 2-aminophenol oxidation.     

Relative strengths of Se?N,O interactions: Implications for glutathione peroxidase activity

Natural bond orbital (NBO) studies of model compounds of glutathione peroxidase and its mimics are used to examine the relative strengths of nitrogen and oxygen donor groups in simple models and ω-substituted selenenic acids. Nitrogen-containing groups are generally better donors, but the weak Lewis basicity of the amide nitrogen allows for preferential interaction with the carbonyl oxygen which suggests that the glutamine of the GPX catalytic triad influences activity through an Se?O interaction.     

Homeostatic Imbalance of Purine Catabolism in First-Episode Neuroleptic-Na?ve Patients with Schizophrenia

Background

Purine catabolism may be an unappreciated, but important component of the homeostatic response of mitochondria to oxidant stress. Accumulating evidence suggests a pivotal role of oxidative stress in schizophrenia pathology.

Methodology/Principal Findings

Using high-pressure liquid chromatography coupled with a coulometric multi-electrode array system, we compared 6 purine metabolites simultaneously in plasma between first-episode neuroleptic-naïve patients with schizophrenia (FENNS, n = 25) and healthy controls (HC, n = 30), as well as between FENNS at baseline (BL) and 4 weeks (4w) after antipsychotic treatment. Significantly higher levels of xanthosine (Xant) and lower levels of guanine (G) were seen in both patient groups compared to HC subjects. Moreover, the ratios of G/guanosine (Gr), uric acid (UA)/Gr, and UA/Xant were significantly lower, whereas the ratio of Xant/G was significantly higher in FENNS-BL than in HC. Such changes remained in FENNS-4w with exception that the ratio of UA/Gr was normalized. All 3 groups had significant correlations between G and UA, and Xan and hypoxanthine (Hx). By contrast, correlations of UA with each of Xan and Hx, and the correlation of Xan with Gr were all quite significant for the HC but not for the FENNS. Finally, correlations of Gr with each of UA and G were significant for both HC and FENNS-BL but not for the FENNS-4w.

Conclusions/Significance

During purine catabolism, both conversions of Gr to G and of Xant to Xan are reversible. Decreased ratios of product to precursor suggested a shift favorable to Xant production from Xan, resulting in decreased UA levels in the FENNS. Specifically, the reduced UA/Gr ratio was nearly normalized after 4 weeks of antipsychotic treatment. In addition, there are tightly correlated precursor and product relationships within purine pathways; although some of these correlations persist across disease or medication status, others appear to be lost among FENNS. Taken together, these results suggest that the potential for steady formation of antioxidant UA from purine catabolism is altered early in the course of illness.     

M?ssbauer effect in peroxidase

Mössbauer spectroscopy provides valuable information on the electronic configuration of heme-iron and the surrounding ligand field strength in heme-proteins complementary to that derived from magnetic susceptometry and electron spin resonance (ESR) spectroscopy. Quite recently, the method has been applied on some biological materials containing iron atom, and some investigations have been reported on heme-proteins such as hemoglobin, myoglobin, catalase and cytochrome c Gonser et al. 1964; Bearden et al. 1965; Lang and Marshall 1966; Caughey et al. 1966, but not yet on peroxidase.This communication presents an outline of the experimental results on Mössbauer effect in Japanese-radish peroxidase a (JRP-a) and some of its derivatives enriched artificially with ⁵⁷Fe in order to obtain any information complementary to that derived from the ESR study of this enzyme Morita and Mason 1965.     

M?ssbauer spectroscopic study of compound ES of cytochrome c peroxidase.

M?ssbauer spectra of Compound ES of cytochrome c peroxidase have been observed over a range of temperature and applied magnetic field. These have been interpreted in terms of a crystal field model of the iron site in which the iron is assumed to be in the Fe(IV) state with unpaired spin S = 1. Detailed least-squares fitting of the spectra fitting of the spectra indicates that both the electric field gradient choice of a single parameter, the axial crystal field, the magnetic properties are well reproduced. The model also provides the observed positive sign for the electric field gradient interaction, but overestimates its magnitude. This apparent discrepnancy may be caused by the presence of significant electronic charge in filled bonding orbitals, a feature which is in keeping with expected covalent charge compensation of the extreme oxidation state. There is no evidence in the M?ssbauer spectra of interaction between the iron and the ESR-visible free radical. This suggests they are well separated.     

Costly sexual signals: are carotenoids rare, risky or required?

Theories of animal signalling emphasize the importance of costliness-to be effective, signals must be dependable; to be dependable, signals must carry costs-and carotenoid-based signals are a favoured example. The traditional view that carotenoids are costly because they are scarce still carries weight. However, biomedical research has led to alternative views on costliness, mainly related to beneficial, but also to detrimental, effects of carotenoids. Recent improvements in our understanding of carotenoids suggest that the relative importance of these mechanisms will soon be determined, leading to a fresh outlook on cost-based signalling.     

Biological role of hepoxilins: upregulation of phospholipid hydroperoxide glutathione peroxidase as a cellular response to oxidative stress?

The 12S-lipoxygenase (12S-LOX) pathway of arachidonic acid (AA) metabolism is bifurcated at 12(S)-hydroperoxy-5Z,8Z,10E (12S-HpETE) in the reduction route to form 12S-hydroxy-eicosatetraenoic acid (12S-HETE) and in 8(S/R)-hydroxy-11(S),12S-trans-epoxyeicosa-5Z,9E,14Z-trienoic acid (HXA3) synthase pathway, previously known as isomerization route, to form hepoxilins. Earlier we showed that the HXA3 formation is restricted to cellular systems devoid of hydroperoxide reducing enzymes, e.g. GPxs, thus causing a persistent oxidative stress situation. Here, we show that HXA3 at as low as 100 nM concentration upregulates phospholipid hydroperoxide glutathione peroxidase (PHGPx) mRNA and protein expressions, whereas other metabolites of AA metabolism 12S-HpETE and 12S-HETE failed to stimulate the PHGPx. Moreover, the decrease in 12S-HpETE below a threshold value of the hydroperoxide tone causes both suppression of the overall 12S-LOX activity and a shift from HXA3 formation towards 12S-HETE formation. We therefore propose that under persistent oxidative stress the formation of HXA3 and the HXA3-induced upregulation of PHGPx constitute a compensatory defense response to protect the vitality and functionality of the cell.     

Is peroxidase involved in ethylene biosynthesis?

Wheat (Triticum aestivum L. cv. Jubilar) coleoptile segments convert 1-aminocyclopropane-1-carboxylic acid (ACC) to ethylene. This process is totally inhibited by nitrogen atmosphere and severely inhibited by free radical scavengers (sodium benzoate, ferulic acid), inhibitors of reactive -SH groups ( p -chlormercuribenzoate, iodoacetate), CoCl₂ and EDTA. Indole-3-acetic acid, aminoethoxyvinyl glycine, cycloheximide, actinomycin D, pyridoxal phosphate and NADH have no effect on ACC conversion to ethylene. Some in vivo characteristics of this conversion suggest that it could be catalyzed by peroxidase. However, isoperoxidase B1 isolated from wheat seedlings was not able to catalyze in vitro conversion of ACC to ethylene under a wide range of reaction conditions. Therefore, it is concluded that peroxidase is not directly involved in ethylene biosynthesis.     

Catabolism of Endogenous Dopamine in Peripheral Tissues: Is There an Independent Role for Dopamine in Peripheral Neurotransmission?

Abstract: Dopamine (DA) and its metabolites, homovanillic acid (HVA) and 3,4-dihydroxyphenylacetic acid (DOPAC), have been measured in peripheral tissues of the rat and human by gas chromatography-mass spectrometry. The content of HVA and DOPAC in peripheral tissue is higher than in blood and is usually higher than the content of DA. In the rat, chemical denervation with 6-hydroxydopamine decreased the tissue content of DOPAC. inhibition of monoamine oxidase increased tissue DA. Apparently, in vivo , a large quantity of peripheral DA is catabolized rather than converted to norepinephrine (NE). These observations suggest that either NE synthesis is inefficient, with a large quantity of DA wasted and not converted to NE, or that DA is physiologically utilized as a neurotransmitter and/or cotransmitter in many peripheral nerves. A survey of the reported actions of DA on peripheral tissues suggests that the latter proposal is more likely.     

Bicarbonate-enhanced peroxidase activity of Cu,Zn SOD: is the distal oxidant bound or diffusible?

The Cu,Zn SOD catalyzes the bicarbonate-dependent oxidation of a wide range of substrates by H2O2. A mechanism in accord with this activity has been described. It involves the generation of a strong oxidant (Cu(I)O, Cu(II)OH, or Cu(III)) by reaction of the active site Cu with H2O2, followed by oxidation of bicarbonate to CO3-* that in turn diffuses from the active site to oxidize the various substrates in free solution. Recently, an alternative mechanism, entailing firmly bound HCO3- and CO3-*, has been proposed [J. Biol. Chem. 278 (2003) 21032-21039]. We present data supporting the diffusible CO3-* and discuss the properties of this system that can be accommodated in this way and that preclude bound intermediates.