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Aspects of prostacyclin in experimental hypertensionBotha, Julia Hilary January 1983 (has links)
A new prostaglandin - prostaglandin X (later renamed prostacyclin or prostaglandin I₂ (PGI₂)), was discovered by Moncada, Gryglewski, Bunting and Vane in 1976. This unstable substance was shown to be produced by vascular tissue and to be a vasodilator and the most potent endogenous inhibitor of platelet aggregation known. Because of its properties, it appeared that a lack of it may be related to the development and or maintenance of hypertension, a disorder featuring vasoconstriction and an increased tendency to arterial thrombosis. The present studies aimed to investigate this possibility using a rat model. A bioassay for prostacyclin was first perfected. This consisted of a modification of the method used by Moncada, Higgs and Vane (1977): PGI₂ released by rat aortic strips, during incubation in tris buffer, was measured by assessing the ability of the incubate to inhibit adenosine diphosphate induced aggregation of human platelets, as compared to the inhibitory effect of standard prostacyclin sodium salt. The specificity of the assay for the detection of PGI₂ was tested. The abil ity of hypertensive rat aorta to release prostacycl in was investigated in two studies. The first compared aortas of Wistar rats of the New Zealand genetically hypertensive strain (GH) with those of matched normotensive Wistar controls. In the second study, hypertension was induced by wrappi ng the ri ght kidney with surgical silk and removing the contralateral kidney. Ten weeks later, aortic generation of prostacyclin by these animals was compared with that of matched sham controls which had received identical surgical manipulation but for the application of silk to the right kidney. Contrary to expectation, in both forms of hypertension, aortas of the rats with elevated pressure produced consistently more prostacyclin than those of matched controls. In order to discover more about the relationship between elevated pressure and elevated PGI₂ production, the effect of pressure reduction with hypotensive agents on the ability of GH rat aortas to produce prostacyclin, was investigated. After pressure had been controlled within normal range for one week (achieved by oral administration of furosemide, dihydralazine and reserpine for one month), aortic PGI₂ was reduced in comparison with matched GH controls. However, the reduction was not consistent and statistical significance was not reached. Because it was subsequently reported by other workers, that some of the hypotensive agents which had been employed may effect prostaglandin levels per se, no conclusions could be drawn from this study as to any possible direct relationships between pressure and aortic prostacyclin generating capacity. A further means of reducing elevated pressure (which had no inherent effect on prostaglandin levels) was thus sought. A mechanical method was eventually selected, application of a silver clip to the aortas of GH rats, just below the diaphragm, producing an immediate reduction in pressure distal to the constriction. Eighteen hours with later, PGI₂ production by these distal aortas those of matched sham GH controls and was was compared found to be consistently reduced. These results indicate that the ability to produce PGI₂ may be influenced by prior local pressure changes and that the increased capacity of hypertensive rat aortas to generate prostacyclin may be related to the increased mechanical transmural stress consequent on elevated pressure. Since haemostatic balance must be influenced not only by vascular PGI₂ generation but also by platelet sensitivity to PGI₂, the response of GH platelets to the anti-aggregatory effect of prostacyc1in was also investigated. As it had been shown by Sinzinger, Si1berbauer, Horsch and Gall (1981) that intra-arterial infusion of PGI₂ in humans decreased platelet sensitivity to the substance, the possibility existed that platelet sensitivity in hypertension might be reduced. This hypothesis was, however, invalidated as the sensitivity of GH platelets to the anti-aggregatory effect of PGI₂ was almost identical to that of normotensive controls. The shortcomings of the methodology and the possible importance of these findings in the hypertensive animal are discussed. The idea that elevated PGI₂ in hypertension may play a protective role both with respect to platelet aggregation and in attenuating further pressure rises is considered. It is finally suggested that it will be possible to draw more accurate conclusions as to the meaning of the increased PGI₂ generation in hypertension (both in relation to vascular tone and platelet function) only when details of production of, and sensitivity to, thromboxane A₂ are known. Thromboxane A₂ (TXA₂) is a vasoconstrictor and promotor of aggregation (Hamberg, Svensson and Samuelson, 1975) and it may be that, despite elevated vascular PGI₂ generation, the TXA₂/PGI₂ balance is still tipped in favour of vasoconstriction and platelet aggregation in hypertension.
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Synthesis and chemistry of 2,3-dioxabicyclo[2.2.2]octane-5,6-diols.Valente, Peter January 2009 (has links)
Compounds containing the 2,3-dioxabicyclo[2.n.n] moiety, otherwise known as bicyclic endoperoxides, are a class of cyclic peroxides that are readily found in nature and can be utilized as important synthetic building blocks. The chemistry of endoperoxides has chiefly been concerned with the relative weakness of the peroxide bond, with comparatively little attention directed towards transformations of the alkene unit within these compounds. Therefore the focus of this thesis is on dihydroxylation of bicyclic endoperoxides and examination of their further utility. A broad range of 1,4-disubstituted-2,3-dioxabicyclo[2.2.2]oct-5-enes were synthesized featuring a variety of alkyl and aryl substituents. These compounds were subsequently dihydroxylated with osmium tetroxide to yield diols anti to the peroxide linkage, as single diastereomers, in excellent yields. Reduction of the peroxide bond afforded cyclohexane-1,2,3,4-tetraols of toxocarol relative stereochemistry in excellent yield; this configuration of hydroxyl groups is quite prevalent in nature. In order to demonstrate the synthetic scope of dihydroxylation of bicyclic endoperoxides followed by reduction of the peroxide linkage, tetraol formation from alkyl and aryl substituted diols was examined. It was confirmed that both alkyl and aryl substituents can be tolerated in the 1,4-positions. Dihydroxylation of endoperoxides containing H atoms at the 1,4-positions was also documented. The methodology of dihydroxylation followed by reduction of the peroxide linkage was employed to synthesize the reported natural product (1S,2R,3S,4R,5R)-2-methyl-5-(propan-2-yl)cyclohexane-1,2,3,4-tetrol in a short sequence from (R)-α-phellandrene. The 2,3-dioxabicyclo[2.2.2]octane-5,6-diols discussed above were also found to undergo an extremely clean rearrangement to yield 1,4-dicarbonyls and glycoaldehyde, a rearrangement not reported in the literature. The possible mechanism of this rearrangement was probed and is discussed in detail. The repercussions of diol orientation to product outcome were also investigated. Finally, the possibility of expanding the scope of synthetic application for this rearrangement, particularly the potential for synthesis of optically pure 1,4-dicarbonyls is discussed. Some preliminary results are reported. / Thesis (Ph.D.) -- University of Adelaide, School of Chemistry and Physics, 2009
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Synthesis of rare sugars and novel sugar derivatives from 1,2-dioxines.Robinson, Antony Vincent January 2008 (has links)
1,2-Dioxines are a specific class of cyclic peroxide that are both prevalent in nature and important synthetic building blocks. To date, much of the chemistry involving 1,2-dioxines is concerned with cleavage of the weak peroxide bond, providing a convenient method for the incorporation of 1,4-oxygen functionality into molecules. Comparatively little attention has been directed towards transformations of the alkene unit contained within 1,2-dioxines, which is the focus of this thesis. The synthesis of a broad range of diversely functionalised 1,2-dioxines from commonly available starting materials is presented. Subsequently, the osmium catalysed dihydroxylation of 3,6-disubstituted 1,2-dioxines was investigated, furnishing novel peroxy diols in high yield and with excellent diastereoselectivity. The peroxy diols were then reduced, affording stereospecific tetraols and higher polyols, including the rare sugar allitol. In addition, homolytic ring-opening of the 1,2-dioxanes was examined, providing a new route to polyhydroxylated furanoses, highlighted by the synthesis of the natural keto-sugar psicose. Several 4-substituted 1,2-dioxines were also dihydroxylated, followed by reduction of the peroxide bond, providing a convenient route to branched erythritol derivatives, including the important plant sugar 2-C-methyl-erythritol. The cobalt catalysed ring-opening of the peroxy diols produced novel erythrose derivatives in high yield. In addition, the triphenylphosphine induced ring contraction of the peroxy diols is presented, which allowed for the synthesis of novel dihydroxylated tetrahydrofurans in excellent yield. Asymmetric dihydroxylation of the achiral 4-substituted 1,2-dioxines was explored, furnishing optically enriched peroxy diols with varying enantioselectivity depending on the substrate. The synthesis of novel alkyl and aryl branched erythrono-γ-lactones via oxidation of lactols derived from the acetonide protected peroxy diols is also documented. The utility of this sequence is illustrated by the preparation of potassium 2,3,4-trihydroxy-2-methylbutanoate, a leaf-closing substance of Leucaena leucocephalam. Additionally, γ-lactones were prepared from epoxy hydroxy ketones derived from epoxy-1,2-dioxanes, facilitated by a Baeyer-Villiger lactonisation protocol. The requirements and limitations of this procedure are discussed. The proposed and attempted synthesis of other lactones from 1,2-dioxines was also examined. Finally, several other general alkene transformations were investigated on 1,2- dioxines including: halo-hydrin formation, phenylselenyl chloride addition, aminohydroxylation, cyclopropanation, and aziridination, allowing for the preparation of several new classes of functionalised 1,2-dioxines. In summary, the work presented in this thesis establishes clear and efficient methodology towards several interesting and useful sugar-type core structures from modified 1,2-dioxines. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1313493 / Thesis (Ph.D) -- University of Adelaide, School of Chemistry and Physics, 2008
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Geração química de oxigênio-17 molecular no estado singlete, 17O2 (1Δg), e estudos de lesões em ácidos graxos, colesterol e guanina por espectrometria de ressonância magnética nuclear, massa e luminescência / Chemical generation of 17-labeled singlet molecular oxygen 17O2(1Δg) in studies of lesions in fatty acids, cholesterol and guanine by nuclear magnetic resonance, mass and chemiluminescenceUemi, Miriam 27 April 2007 (has links)
Estudos envolvendo o oxigênio molecular singlete (1O2) tem uma relevância biológica, uma vez que esta espécie, devido ao caráter eletrofílico, reage com moléculas ricas em elétrons como proteínas, lipídeos e DNA provocando danos que resultam em perdas de função e integridade celular. Em sistemas biológicos, a presença de outras espécies reativas de oxigênio e nitrogênio, dificultam a identificação de lesões específicas causadas por 1O2 .Neste contexto, este trabalho foi desenvolvido objetivando a síntese de endoperóxidos isotopicamente marcados com 17O para serem utilizados como fonte geradora limpa de 17[1O2] em estudos mecanísticos. A capacidade de geração de 17[1O2] pelo endoperóxido N,N\'-di(2,3-dihidroxipropil)-3,3\'-(1,4 naftilideno) dipropanamida 17O (DHPN17O2) foi confirmada utilizando o captador químico sulfato mono-{2-[10-(2-sulfoxi-etil)-antracen-9-il]-etil}éster de sódio e o nucleosídeo 2\'- desoxiguanosina. Os produtos isotopicamente marcados com 17O formados foram analisados por espectrometria de ressonância magnética nuclear e cromatografia líquida de alta eficiência acoplado ao espectrômetro de massa. Os lipídeos, em especial o colesterol ao reagir com o 1O2 geram hidroperóxidos de colesterol como produtos de oxidação primária e na presença de metais resulta em compostos de maior reatividade e toxicidade, como os radicais peroxila, que contribuem para a propagação da peroxidação lipídica. Neste trabalho, demonstramos que os hidroperóxidos de colesterol são capazes de gerar 1O2 na presença de metal através de medidas de luminescência, utilização de supressores e captador químico de 1O2. Os mecanismos de reação envolvidos foram estudados e determinados por espectrometria de massa acoplada a cromatografia líquida de alta eficiência. Por fim, a caracterização detalhada dos produtos formados por espectrometria de ressonância magnética nuclear e massa na reação do colesterol com 1O2 mostrou que além dos hidroperóxidos a reação também produz um aldeído, o 3β -hidroxi-5β-hidroxi-B-norcolestano-6β-carboxialdeído. Até o momento, este composto havia sido identificado como um produto específico da ozonização do colesterol. Neste estudo, baseado nos estudos por reações de quimiluminescência, é proposto o mecanismo de formação deste aldeído em reações de oxidação de colesterol por 1O2 envolvendo intermediário dioxetano. / Studies involving singlet molecular oxygen (1O2) has biological relevance, once this species, due to its eletrophylic character, reacts with rich electron molecules such as proteins, lipids and DNA causing damages that result in loss of function and cellular integrity. In biological system, the presence of other reactive species of oxygen and nitrogen impair the identification of lesions caused by 1O2. In this context, this work was developed with the aim of synthesizing <SUP17O-labeleded endoperoxides to be used as a clean source of (1O2) in mechanistic studies. The ability of 17[1O2]generation by N,N\'-di(2,4-dihydroxypropyl)-1,4-naphthalene-dipropanamide labeled with 17O(DHNP17O2) was observed using the disodium salt of anthracene-9,10-diyldiethyl disulfate as a chemical trap and the nucleoside 2\'-deoxyguanosine. The products isotopically labeled with 17O were analyzed by nuclear magnetic resonance spectroscopy and high performance liquid chromatography coupled to a mass spectrometer. Lipds, in special the cholesterol, when reacting with singlet molecular oxygen generate cholesterol hydroperoxides as primary products and in the presence of metals result in compounds of higher reactivity and toxicity, such as peroxyl radicals which contribute to the propagation of lipid peroxidation. In this work, we demonstrated that cholesterol hydroperoxides are able to generate singlet molecular oxygen in the presence of metal by chemiluminescence measurements by testing the effect of singlet molecular oxygen quencher and by chemical trap. The involved reaction mechanisms were studied and determined by mass spectrometry coupled to the high performance liquid chromatography. Finally, we detailed characterization of the products formed in the reaction of cholesterol with 1O2 by nuclear magnetic resonance and mass spectroscopy showed that besides cholesterol hydroperoxides, the reaction also produces an aldehyde, 3βhydroxy-5β-hydroxy-B-norcholestan-6β-carboxyaldehyde which had been identified as a specific product of cholesterol ozonization. In this study, based on the studies of chemiluminescence reactions, the mechanism of formation of this aldehyde in reaction of oxidation of cholesterol by 1O2 involving a dioxetane intermediate has been proposed.
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Geração química de oxigênio-17 molecular no estado singlete, 17O2 (1Δg), e estudos de lesões em ácidos graxos, colesterol e guanina por espectrometria de ressonância magnética nuclear, massa e luminescência / Chemical generation of 17-labeled singlet molecular oxygen 17O2(1Δg) in studies of lesions in fatty acids, cholesterol and guanine by nuclear magnetic resonance, mass and chemiluminescenceMiriam Uemi 27 April 2007 (has links)
Estudos envolvendo o oxigênio molecular singlete (1O2) tem uma relevância biológica, uma vez que esta espécie, devido ao caráter eletrofílico, reage com moléculas ricas em elétrons como proteínas, lipídeos e DNA provocando danos que resultam em perdas de função e integridade celular. Em sistemas biológicos, a presença de outras espécies reativas de oxigênio e nitrogênio, dificultam a identificação de lesões específicas causadas por 1O2 .Neste contexto, este trabalho foi desenvolvido objetivando a síntese de endoperóxidos isotopicamente marcados com 17O para serem utilizados como fonte geradora limpa de 17[1O2] em estudos mecanísticos. A capacidade de geração de 17[1O2] pelo endoperóxido N,N\'-di(2,3-dihidroxipropil)-3,3\'-(1,4 naftilideno) dipropanamida 17O (DHPN17O2) foi confirmada utilizando o captador químico sulfato mono-{2-[10-(2-sulfoxi-etil)-antracen-9-il]-etil}éster de sódio e o nucleosídeo 2\'- desoxiguanosina. Os produtos isotopicamente marcados com 17O formados foram analisados por espectrometria de ressonância magnética nuclear e cromatografia líquida de alta eficiência acoplado ao espectrômetro de massa. Os lipídeos, em especial o colesterol ao reagir com o 1O2 geram hidroperóxidos de colesterol como produtos de oxidação primária e na presença de metais resulta em compostos de maior reatividade e toxicidade, como os radicais peroxila, que contribuem para a propagação da peroxidação lipídica. Neste trabalho, demonstramos que os hidroperóxidos de colesterol são capazes de gerar 1O2 na presença de metal através de medidas de luminescência, utilização de supressores e captador químico de 1O2. Os mecanismos de reação envolvidos foram estudados e determinados por espectrometria de massa acoplada a cromatografia líquida de alta eficiência. Por fim, a caracterização detalhada dos produtos formados por espectrometria de ressonância magnética nuclear e massa na reação do colesterol com 1O2 mostrou que além dos hidroperóxidos a reação também produz um aldeído, o 3β -hidroxi-5β-hidroxi-B-norcolestano-6β-carboxialdeído. Até o momento, este composto havia sido identificado como um produto específico da ozonização do colesterol. Neste estudo, baseado nos estudos por reações de quimiluminescência, é proposto o mecanismo de formação deste aldeído em reações de oxidação de colesterol por 1O2 envolvendo intermediário dioxetano. / Studies involving singlet molecular oxygen (1O2) has biological relevance, once this species, due to its eletrophylic character, reacts with rich electron molecules such as proteins, lipids and DNA causing damages that result in loss of function and cellular integrity. In biological system, the presence of other reactive species of oxygen and nitrogen impair the identification of lesions caused by 1O2. In this context, this work was developed with the aim of synthesizing <SUP17O-labeleded endoperoxides to be used as a clean source of (1O2) in mechanistic studies. The ability of 17[1O2]generation by N,N\'-di(2,4-dihydroxypropyl)-1,4-naphthalene-dipropanamide labeled with 17O(DHNP17O2) was observed using the disodium salt of anthracene-9,10-diyldiethyl disulfate as a chemical trap and the nucleoside 2\'-deoxyguanosine. The products isotopically labeled with 17O were analyzed by nuclear magnetic resonance spectroscopy and high performance liquid chromatography coupled to a mass spectrometer. Lipds, in special the cholesterol, when reacting with singlet molecular oxygen generate cholesterol hydroperoxides as primary products and in the presence of metals result in compounds of higher reactivity and toxicity, such as peroxyl radicals which contribute to the propagation of lipid peroxidation. In this work, we demonstrated that cholesterol hydroperoxides are able to generate singlet molecular oxygen in the presence of metal by chemiluminescence measurements by testing the effect of singlet molecular oxygen quencher and by chemical trap. The involved reaction mechanisms were studied and determined by mass spectrometry coupled to the high performance liquid chromatography. Finally, we detailed characterization of the products formed in the reaction of cholesterol with 1O2 by nuclear magnetic resonance and mass spectroscopy showed that besides cholesterol hydroperoxides, the reaction also produces an aldehyde, 3βhydroxy-5β-hydroxy-B-norcholestan-6β-carboxyaldehyde which had been identified as a specific product of cholesterol ozonization. In this study, based on the studies of chemiluminescence reactions, the mechanism of formation of this aldehyde in reaction of oxidation of cholesterol by 1O2 involving a dioxetane intermediate has been proposed.
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