Endothelial dysfunction and reactive oxygen species production in ischemia/reperfusion and nitrate tolerance.

Reactive oxygen species (ROS), as superoxide and its metabolites, have important roles in vascular homeostasis as they are involved in various signaling processes. In many cardiovascular disease states, however, the release of ROS is increased. Uncontrolled ROS production leads to impaired endothelial function and consequently to vascular dysfunction. This review focuses on two clinical conditions associated with elevated ROS levels: ischemia/reperfusion and nitrate tolerance. Injury caused by ischemia/reperfusion is an important limitation of transplantations, and complicates the management of stroke and myocardial infarction. Nitrates, which are used to treat transient myocardial ischemia (angina pectoris), decrease in efficacy in long-term continuous administration. There are several enzyme systems, such as xanthine oxidase, cyclooxygenase, uncoupled endothelial nitric oxide synthase, NAD(P)H oxidase, cytochrome P450 and the mitochondrial electron transport chain, which are responsible for the increased vascular production of superoxide. The contribution of particular ROS producing enzymes and the effect of antioxidant treatment are discussed in both pathological conditions.

NAD(P)H oxidases and their relevance to atherosclerosis.

Studies performed during the last decade have identified NAD(P)H oxidases unique to nonphagocytic vascular cells. The reactive oxygen species released from these enzymes regulate fundamental cellular functions such as growth (hyperplastic or hypertrophic), endothelial dysfunction, migration and inflammation, which have been demonstrated to play a role in atherogenesis. Evidence from experimental animal and human studies implicate the nonphagocytic NAD(P)H oxidases in multiple aspects of atherogenesis, suggesting that these enzymes may be important determinants of the course of vascular disease.

Photobiological activity of exogenous and endogenous porphyrin derivatives in Escherichia coli and Enterococcus hirae cells.

Photodynamic treatment, the combined application of a photosensitiser and visible light, represents a new and promising approach for the inactivation of microorganisms. The photosensitising potentials of exogenous zinc-phthalocyanine-tetrasulphonate (ZnPsTS), tetraphenylporphyrins (TPPs) and endogenous porphyrin derivatives were tested and compared on Gram-negative and Gram-positive bacteria, Escherichia coli B. and Enterococcus hirae, respectively. The synthesis of endogenous porphyrins was induced by 5-aminolevulinic acid (delta-ALA). The porphyrin- or delta-ALA-treated cells were irradiated with white light. The photosensitising efficiency of endogenous derivatives on both types of bacteria is ZnPcTS < TP(4-OGluOH)3P < TP(4-OGluOH)4P. However, neither exogenous derivatives exhibit appreciable photosensitising activity for disinfection application. ALA-induced photodynamic treatment showed good potential for the inactivation of Escherichia coli cells, but not towards Enterococcus hirae cells. The failure of photosensitisation of the Enterococcus hirae strain selected indicates that apart from the Gram-positive character, other structural elements of the membrane can influence the result of photodynamic treatments.

Novel gp91(phox) homologues in vascular smooth muscle cells : nox1 mediates angiotensin II-induced superoxide formation and redox-sensitive signaling pathways.

Emerging evidence indicates that reactive oxygen species are important regulators of vascular function. Although NAD(P)H oxidases have been implicated as major sources of superoxide in the vessel wall, the molecular identity of these proteins remains unclear. We recently cloned nox1 (formerly mox-1), a member of a new family of gp91(phox) homologues, and showed that it is expressed in proliferating vascular smooth muscle cells (VSMCs). In this study, we examined the expression of three nox family members, nox1, nox4, and gp91(phox), in VSMCs, their regulation by angiotensin II (Ang II), and their role in redox-sensitive signaling. We found that both nox1 and nox4 are expressed to a much higher degree than gp91(phox) in VSMCS: Although serum, platelet-derived growth factor (PDGF), and Ang II downregulated nox4, they markedly upregulated nox1, suggesting that this enzyme may account for the delayed phase of superoxide production in these cells. Furthermore, an adenovirus expressing antisense nox1 mRNA completely inhibited the early phase of superoxide production induced by Ang II or PDGF and significantly decreased activation of the redox-sensitive signaling molecules p38 mitogen-activated protein kinase and Akt by Ang II. In contrast, redox-independent pathways induced by PDGF or Ang II were unaffected. These data support a role for nox1 in redox signaling in VSMCs and provide insight into the molecular identity of the VSMC NAD(P)H oxidase and its potentially critical role in vascular disease.

In situ detection of ALA-stimulated porphyrin metabolic products in Escherichia coli B by fluorescence line narrowing spectroscopy.

In a recent work [Photochem. Photobiol. B: Biol. 50 (1999) 8] the successful photodynamic inactivation of Escherichia coli bacteria by visible light was reported based on delta-aminolevulinic acid (ALA)-induced endogenous porphyrin accumulation. In this work, the identification of these porphyrin derivatives in intact bacteria was performed by low-temperature conventional fluorescence and fluorescence line narrowing (FLN) techniques. Conventional fluorescence emission spectroscopy at cryogenic temperatures revealed the presence of the free-base porphyrins, identified earlier by high-performance liquid chromatography analysis of disintegrated bacterial cells after ALA induction; however, emission maxima characteristic for metal porphyrins were also observed. We demonstrated that the primary reason for this signal is that metal porphyrins are formed from free-base porphyrins by Mg2+ ions present in the culturing medium. Incorporation of Zn ions originating from the glassware could also be supposed. In the FLN experiment, the energy selection effect could be clearly demonstrated for (0,0) emissions of both the free-base and the metal porphyrins. The comparison of the conventional emission spectra and the bands revealed by the FLN experiment show that the dominant monomeric structural population is that of metal porphyrins. The intensity and the shape of the FLN lines indicate an aggregated population of the free-base porphyrins, beside a small monomeric population.

delta-Aminolaevulinic acid-induced porphyrin synthesis and photodynamic inactivation of Escherichia coli B.

The possibility and conditions for the induction of porphyrin synthesis by exogenous delta-aminolaevulinic acid (ALA) and its applicability for the inactivation of Gram-negative bacteria Escherichia coli B. by photodynamic therapy (PDT) have been studied. The bacteria are supplemented with ALA in the log phase of growth, and are grown in a synthetic medium at 37 degrees C in the dark. The efficiency of porphyrin synthesis is detected by fluorescence spectroscopy performed on the isolated bacterial cells and the medium, respectively, and compared with results of high-performance liquid chromatography (HPLC) analysis. ALA stimulates the synthesis of protoporphyrin in the bacteria by a factor of five to six, and an increased amount of the more hydrophilic derivatives with a significant contribution of mesoporphyrin by a factor of two to three is observed in the culturing medium. The optimal conditions of ALA treatment with respect to PDT are 10-15 min of incubation of a bacterial culture of 2 x 10(7) cells ml-1 with (5-9) x 10(-3) mol l-1 ALA. The ALA-treated cells are irradiated by white light of 80 mW cm-2 under growth conditions and a decrease to 0.6% of the number of colony-forming units (CFUs ml-1) is observed after 90 min of irradiation.

[Iron therapy in mental aberrations (pica) in childhood]. / Eisentherapie bei psychischen Aberrationen (Pica) im Kindesalter.

Besides of four pica cases (eating of dirt, paper, cotton, oakum, sand, lime, chalk) the authors report on a girl with trichophagia. The treatment of choice in pica consists in a sufficient supply of iron. The authors suggest that the intravenously administered iron acts on some centers of the central nervous system.

[Trichophagia treated successfully by intravenous iron injections]. / Intravénás vas-injekciókkal kezelhetö trichophagia esete.

The case of a trichophagic child is presented. Oral and intramuscular iron therapy brought only temporary effect at the age of 3. Seven years later the 10-year-old highly intelligent girl ate again hair. She was not anaemic and her serum iron level was not low. Intravenous iron injections applied again ceased immediately the psychic aberration that did not return even after 4 years. The authors are of the opinion that in cases of such psychic anomalies the iron content of the iron-rich cerebral ganglia is lower than normal and the disturbance can be ceased by the administration of iron.